Your search keyword '"Papassotiropoulos, Andreas"' showing total 48 results

1. Tweaking synaptic plasticity: Deciphering the role of WWC1 in memory opens new therapeutic horizons.

Author

Papassotiropoulos A and de Quervain DJ

Subjects

Humans, Intracellular Signaling Peptides and Proteins metabolism, Intracellular Signaling Peptides and Proteins genetics, Animals, Protein Serine-Threonine Kinases metabolism, Protein Serine-Threonine Kinases genetics, Proteins metabolism, Proteins genetics, Neuronal Plasticity physiology, Memory physiology, Signal Transduction

Abstract

WWC1 is a scaffolding protein in the evolutionarily conserved Hippo signaling network and is genetically linked to human memory and synaptic plasticity. In the archives of Science Signaling , Stepan et al. demonstrate the translational potential of modulating WWC1 through pharmacological inhibition of Hippo-pathway kinases to enhance cognition.

Published

2024

2. Genetic variation is associated with PTSD risk and aversive memory: Evidence from two trauma-Exposed African samples and one healthy European sample.

Author

Wilker S, Schneider A, Conrad D, Pfeiffer A, Boeck C, Lingenfelder B, Freytag V, Vukojevic V, Vogler C, Milnik A, Papassotiropoulos A, J-F de Quervain D, Elbert T, Kolassa S, and Kolassa IT

Subjects

Adult, Female, Follow-Up Studies, Humans, Male, Narrative Therapy methods, Polymorphism, Single Nucleotide, Resilience, Psychological, Risk, Rwanda, Switzerland, Uganda, Young Adult, Emotions physiology, Genocide, Genome-Wide Association Study, Implosive Therapy methods, Memory physiology, Outcome Assessment, Health Care, Stress Disorders, Post-Traumatic genetics, Stress Disorders, Post-Traumatic physiopathology, Stress Disorders, Post-Traumatic therapy, Survivors, War Exposure

Abstract

The probability to develop posttraumatic stress disorder (PTSD), characterized by vivid, intrusive emotional memories of the encountered traumatic events, depends - among other factors - on the number of previous traumatic experiences (traumatic load) and individual genetic vulnerability. So far, our knowledge regarding the biological underpinnings of PTSD is relatively sparse. Genome-wide association studies (GWAS) followed by independent replication might help to discover novel, so far unknown biological mechanisms associated with the development of traumatic memories. Here, a GWAS was conducted in N = 924 Northern Ugandan rebel war survivors and identified seven suggestively significant single nucleotide polymorphisms (SNPs; p ≤ 1 × 10 -5 ) for lifetime PTSD risk. Of these seven SNPs, the association of rs3852144 on chromosome 5 was replicated in an independent sample of Rwandan genocide survivors (N = 370, p < .01). While PTSD risk increased with accumulating traumatic experiences, the vulnerability was reduced in carriers of the minor G-allele in an additive manner. Correspondingly, memory for aversive pictures decreased with higher number of the minor G-allele in a sample of N = 2698 healthy Swiss individuals. Finally, investigations on N = 90 PTSD patients treated with Narrative Exposure Therapy indicated an additive effect of genotype on PTSD symptom change from pre-treatment to four months after treatment, but not between pre-treatment and the 10-months follow-up. In conclusion, emotional memory formation seems to decline with increasing number of rs3852144 G-alleles, rendering individuals more resilient to PTSD development. However, the impact on therapy outcome remains preliminary and further research is needed to determine how this intronic marker may affect memory processes in detail.

Published

2018

3. A peripheral epigenetic signature of immune system genes is linked to neocortical thickness and memory.

Author

Freytag V, Carrillo-Roa T, Milnik A, Sämann PG, Vukojevic V, Coynel D, Demougin P, Egli T, Gschwind L, Jessen F, Loos E, Maier W, Riedel-Heller SG, Scherer M, Vogler C, Wagner M, Binder EB, de Quervain DJ, and Papassotiropoulos A

Subjects

Adult, Aged, Aged, 80 and over, CpG Islands genetics, Depressive Disorder, Major genetics, Female, Genetic Variation genetics, Humans, Immune System cytology, Male, Middle Aged, Switzerland, Young Adult, Aging genetics, DNA Methylation genetics, Epigenesis, Genetic genetics, Immune System immunology, Memory physiology, Neocortex physiology

Abstract

Increasing age is tightly linked to decreased thickness of the human neocortex. The biological mechanisms that mediate this effect are hitherto unknown. The DNA methylome, as part of the epigenome, contributes significantly to age-related phenotypic changes. Here, we identify an epigenetic signature that is associated with cortical thickness (P=3.86 × 10 -8 ) and memory performance in 533 healthy young adults. The epigenetic effect on cortical thickness was replicated in a sample comprising 596 participants with major depressive disorder and healthy controls. The epigenetic signature mediates partially the effect of age on cortical thickness (P<0.001). A multilocus genetic score reflecting genetic variability of this signature is associated with memory performance (P=0.0003) in 3,346 young and elderly healthy adults. The genomic location of the contributing methylation sites points to the involvement of specific immune system genes. The decomposition of blood methylome-wide patterns bears considerable potential for the study of brain-related traits.

Published

2017

4. Computational dissection of human episodic memory reveals mental process-specific genetic profiles.

Author

Luksys G, Fastenrath M, Coynel D, Freytag V, Gschwind L, Heck A, Jessen F, Maier W, Milnik A, Riedel-Heller SG, Scherer M, Spalek K, Vogler C, Wagner M, Wolfsgruber S, Papassotiropoulos A, and de Quervain DJ

Subjects

Adult, Female, Healthy Volunteers, Humans, Magnetic Resonance Imaging, Male, Young Adult, Computational Biology, Memory, Mental Processes

Abstract

Episodic memory performance is the result of distinct mental processes, such as learning, memory maintenance, and emotional modulation of memory strength. Such processes can be effectively dissociated using computational models. Here we performed gene set enrichment analyses of model parameters estimated from the episodic memory performance of 1,765 healthy young adults. We report robust and replicated associations of the amine compound SLC (solute-carrier) transporters gene set with the learning rate, of the collagen formation and transmembrane receptor protein tyrosine kinase activity gene sets with the modulation of memory strength by negative emotional arousal, and of the L1 cell adhesion molecule (L1CAM) interactions gene set with the repetition-based memory improvement. Furthermore, in a large functional MRI sample of 795 subjects we found that the association between L1CAM interactions and memory maintenance revealed large clusters of differences in brain activity in frontal cortical areas. Our findings provide converging evidence that distinct genetic profiles underlie specific mental processes of human episodic memory. They also provide empirical support to previous theoretical and neurobiological studies linking specific neuromodulators to the learning rate and linking neural cell adhesion molecules to memory maintenance. Furthermore, our study suggests additional memory-related genetic pathways, which may contribute to a better understanding of the neurobiology of human memory.

Published

2015

5. Sex-dependent dissociation between emotional appraisal and memory: a large-scale behavioral and fMRI study.

Author

Spalek K, Fastenrath M, Ackermann S, Auschra B, Coynel D, Frey J, Gschwind L, Hartmann F, van der Maarel N, Papassotiropoulos A, de Quervain D, and Milnik A

Subjects

Adolescent, Adult, Female, Humans, Magnetic Resonance Imaging, Male, Mental Recall physiology, Recognition, Psychology physiology, Sex Characteristics, Young Adult, Arousal physiology, Brain physiology, Emotions physiology, Memory physiology

Abstract

Extensive evidence indicates that women outperform men in episodic memory tasks. Furthermore, women are known to evaluate emotional stimuli as more arousing than men. Because emotional arousal typically increases episodic memory formation, the females' memory advantage might be more pronounced for emotionally arousing information than for neutral information. Here, we report behavioral data from 3398 subjects, who performed picture rating and memory tasks, and corresponding fMRI data from up to 696 subjects. We were interested in the interaction between sex and valence category on emotional appraisal, memory performances, and fMRI activity. The behavioral results showed that females evaluate in particular negative (p < 10(-16)) and positive (p = 2 × 10(-4)), but not neutral pictures, as emotionally more arousing (pinteraction < 10(-16)) than males. However, in the free recall females outperformed males not only in positive (p < 10(-16)) and negative (p < 5 × 10(-5)), but also in neutral picture recall (p < 3.4 × 10(-8)), with a particular advantage for positive pictures (pinteraction < 4.4 × 10(-10)). Importantly, females' memory advantage during free recall was absent in a recognition setting. We identified activation differences in fMRI, which corresponded to the females' stronger appraisal of especially negative pictures, but no activation differences that reflected the interaction effect in the free recall memory task. In conclusion, females' valence-category-specific memory advantage is only observed in a free recall, but not a recognition setting and does not depend on females' higher emotional appraisal., (Copyright © 2015 the authors 0270-6474/15/350920-16$15.00/0.)

Published

2015

6. Epigenetic modification of the glucocorticoid receptor gene is linked to traumatic memory and post-traumatic stress disorder risk in genocide survivors.

Author

Vukojevic V, Kolassa IT, Fastenrath M, Gschwind L, Spalek K, Milnik A, Heck A, Vogler C, Wilker S, Demougin P, Peter F, Atucha E, Stetak A, Roozendaal B, Elbert T, Papassotiropoulos A, and de Quervain DJ

Subjects

Adolescent, Adult, Brain blood supply, Brain pathology, DNA Methylation, Female, Genetic Association Studies, Genotype, Humans, Image Processing, Computer-Assisted, Male, Neuropsychological Tests, Oxygen blood, Promoter Regions, Genetic genetics, Psychiatric Status Rating Scales, Risk, Rwanda, Switzerland, Young Adult, Epigenesis, Genetic genetics, Genocide psychology, Memory, Receptors, Glucocorticoid genetics, Stress Disorders, Post-Traumatic genetics, Stress Disorders, Post-Traumatic pathology, Stress Disorders, Post-Traumatic psychology, Survivors psychology

Abstract

Recent evidence suggests that altered expression and epigenetic modification of the glucocorticoid receptor gene (NR3C1) are related to the risk of post-traumatic stress disorder (PTSD). The underlying mechanisms, however, remain unknown. Because glucocorticoid receptor signaling is known to regulate emotional memory processes, particularly in men, epigenetic modifications of NR3C1 might affect the strength of traumatic memories. Here, we found that increased DNA methylation at the NGFI-A (nerve growth factor-induced protein A) binding site of the NR3C1 promoter was associated with less intrusive memory of the traumatic event and reduced PTSD risk in male, but not female survivors of the Rwandan genocide. NR3C1 methylation was not significantly related to hyperarousal or avoidance symptoms. We further investigated the relationship between NR3C1 methylation and memory functions in a neuroimaging study in healthy subjects. Increased NR3C1 methylation-which was associated with lower NR3C1 expression-was related to reduced picture recognition in male, but not female subjects. Furthermore, we found methylation-dependent differences in recognition memory-related brain activity in men. Together, these findings indicate that an epigenetic modification of the glucocorticoid receptor gene promoter is linked to interindividual and gender-specific differences in memory functions and PTSD risk., (Copyright © 2014 the authors 0270-6474/14/3310274-11$15.00/0.)

Published

2014

7. Forgetting is regulated via Musashi-mediated translational control of the Arp2/3 complex.

Author

Hadziselimovic N, Vukojevic V, Peter F, Milnik A, Fastenrath M, Fenyves BG, Hieber P, Demougin P, Vogler C, de Quervain DJ, Papassotiropoulos A, and Stetak A

Subjects

Actin-Related Protein 2-3 Complex metabolism, Actins metabolism, Amino Acid Sequence, Animals, Caenorhabditis elegans metabolism, Caenorhabditis elegans Proteins genetics, Molecular Sequence Data, Mutation, Nerve Tissue Proteins genetics, Protein Biosynthesis, RNA, Messenger metabolism, RNA-Binding Proteins genetics, Sequence Alignment, Synapses, Actin-Related Protein 2-3 Complex genetics, Caenorhabditis elegans Proteins metabolism, Interneurons metabolism, Memory, Nerve Tissue Proteins metabolism, RNA, Helminth metabolism, RNA-Binding Proteins metabolism

Abstract

A plastic nervous system requires the ability not only to acquire and store but also to forget. Here, we report that musashi (msi-1) is necessary for time-dependent memory loss in C. elegans. Tissue-specific rescue demonstrates that MSI-1 function is necessary in the AVA interneuron. Using RNA-binding protein immunoprecipitation (IP), we found that MSI-1 binds to mRNAs of three subunits of the Arp2/3 actin branching regulator complex in vivo and downregulates ARX-1, ARX-2, and ARX-3 translation upon associative learning. The role of msi-1 in forgetting is also reflected by the persistence of learning-induced GLR-1 synaptic size increase in msi-1 mutants. We demonstrate that memory length is regulated cooperatively through the activation of adducin (add-1) and by the inhibitory effect of msi-1. Thus, a GLR-1/MSI-1/Arp2/3 pathway induces forgetting and represents a novel mechanism of memory decay by linking translational control to the structure of the actin cytoskeleton in neurons., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published

2014

8. BAIAP2 is related to emotional modulation of human memory strength.

Author

Luksys G, Ackermann S, Coynel D, Fastenrath M, Gschwind L, Heck A, Rasch B, Spalek K, Vogler C, Papassotiropoulos A, and de Quervain D

Subjects

Adolescent, Adult, Brain Mapping, Female, Gene Expression, Genome-Wide Association Study, Genotype, Healthy Volunteers, Humans, Magnetic Resonance Imaging, Male, Models, Neurological, Nerve Tissue Proteins metabolism, Parahippocampal Gyrus physiology, Polymorphism, Single Nucleotide, RNA, Messenger genetics, Task Performance and Analysis, Young Adult, Emotions physiology, Memory physiology, Nerve Tissue Proteins genetics

Abstract

Memory performance is the result of many distinct mental processes, such as memory encoding, forgetting, and modulation of memory strength by emotional arousal. These processes, which are subserved by partly distinct molecular profiles, are not always amenable to direct observation. Therefore, computational models can be used to make inferences about specific mental processes and to study their genetic underpinnings. Here we combined a computational model-based analysis of memory-related processes with high density genetic information derived from a genome-wide study in healthy young adults. After identifying the best-fitting model for a verbal memory task and estimating the best-fitting individual cognitive parameters, we found a common variant in the gene encoding the brain-specific angiogenesis inhibitor 1-associated protein 2 (BAIAP2) that was related to the model parameter reflecting modulation of verbal memory strength by negative valence. We also observed an association between the same genetic variant and a similar emotional modulation phenotype in a different population performing a picture memory task. Furthermore, using functional neuroimaging we found robust genotype-dependent differences in activity of the parahippocampal cortex that were specifically related to successful memory encoding of negative versus neutral information. Finally, we analyzed cortical gene expression data of 193 deceased subjects and detected significant BAIAP2 genotype-dependent differences in BAIAP2 mRNA levels. Our findings suggest that model-based dissociation of specific cognitive parameters can improve the understanding of genetic underpinnings of human learning and memory.

Published

2014

9. Human genome-guided identification of memory-modulating drugs.

Author

Papassotiropoulos A, Gerhards C, Heck A, Ackermann S, Aerni A, Schicktanz N, Auschra B, Demougin P, Mumme E, Elbert T, Ertl V, Gschwind L, Hanser E, Huynh KD, Jessen F, Kolassa IT, Milnik A, Paganetti P, Spalek K, Vogler C, Muhs A, Pfeifer A, and de Quervain DJ

Subjects

Adult, Cross-Over Studies, Data Mining methods, Diphenhydramine pharmacology, Female, Fluorometry, Genotype, Humans, Interviews as Topic, Logistic Models, Male, Memory physiology, Oligonucleotides genetics, Polymerase Chain Reaction, Polymorphism, Single Nucleotide genetics, Switzerland, Young Adult, Drug Discovery methods, Genome, Human genetics, Memory drug effects, Stress Disorders, Post-Traumatic drug therapy, Stress Disorders, Post-Traumatic genetics, Survivors psychology

Abstract

In the last decade there has been an exponential increase in knowledge about the genetic basis of complex human traits, including neuropsychiatric disorders. It is not clear, however, to what extent this knowledge can be used as a starting point for drug identification, one of the central hopes of the human genome project. The aim of the present study was to identify memory-modulating compounds through the use of human genetic information. We performed a multinational collaborative study, which included assessment of aversive memory--a trait central to posttraumatic stress disorder--and a gene-set analysis in healthy individuals. We identified 20 potential drug target genes in two genomewide-corrected gene sets: the neuroactive ligand-receptor interaction and the long-term depression gene set. In a subsequent double-blind, placebo-controlled study in healthy volunteers, we aimed at providing a proof of concept for the genome-guided identification of memory modulating compounds. Pharmacological intervention at the neuroactive ligand-receptor interaction gene set led to significant reduction of aversive memory. The findings demonstrate that genome information, along with appropriate data mining methodology, can be used as a starting point for the identification of memory-modulating compounds.

Published

2013

10. Associations between basal cortisol levels and memory retrieval in healthy young individuals.

Author

Ackermann S, Hartmann F, Papassotiropoulos A, de Quervain DJ, and Rasch B

Subjects

Adolescent, Adult, Analysis of Variance, Data Interpretation, Statistical, Female, Humans, Male, Memory, Short-Term physiology, Psychomotor Performance physiology, Saliva chemistry, Saliva metabolism, Visual Perception physiology, Young Adult, Hydrocortisone metabolism, Hydrocortisone physiology, Memory physiology, Mental Recall physiology

Abstract

Cortisol is known to affect memory processes. On the one hand, stress-induced or pharmacologically induced elevations of cortisol levels enhance memory consolidation. On the other hand, such experimentally induced elevations of cortisol levels have been shown to impair memory retrieval. However, the effects of individual differences in basal cortisol levels on memory processes remain largely unknown. Here we tested whether individual differences in cortisol levels predict picture learning and recall in a large sample. A total of 1225 healthy young women and men viewed two different sets of emotional and neutral pictures on two consecutive days. Both sets were recalled after a short delay (10 min). On Day 2, the pictures seen on Day 1 were additionally recalled, resulting in a long-delay (20 hr) recall condition. Cortisol levels were measured three times on Days 1 and 2 via saliva samples before encoding, between encoding and recall as well as after recall testing. We show that stronger decreases in cortisol levels during retrieval testing were associated with better recall performance of pictures, regardless of emotional valence of the pictures or length of the retention interval (i.e., 10 min vs. 20 hr). In contrast, average cortisol levels during retrieval were not related to picture recall. Remarkably during encoding, individual differences in average cortisol levels as well as changes in cortisol did not predict memory recall. Our results support previous findings indicating that higher cortisol levels during retrieval testing hinders recall of episodic memories and extend this view onto interindividual changes in basal cortisol levels.

Published

2013

11. The BclI polymorphism of the glucocorticoid receptor gene is associated with emotional memory performance in healthy individuals.

Author

Ackermann S, Heck A, Rasch B, Papassotiropoulos A, and de Quervain DJ

Subjects

Adolescent, Adult, Arousal physiology, Female, Genotype, Humans, Male, Neuropsychological Tests, Emotions physiology, Memory physiology, Polymorphism, Single Nucleotide, Receptors, Glucocorticoid genetics

Abstract

Glucocorticoids, stress hormones released from the adrenal cortex, are important players in the regulation of emotional memory. Specifically, in animals and in humans, glucocorticoids enhance memory consolidation of emotionally arousing experiences, but impair memory retrieval. These glucocorticoid actions are partly mediated by glucocorticoid receptors in the hippocampus, amygdala and prefrontal cortex, key brain regions for emotional memory. In a recent study in patients who underwent cardiac surgery, the BclI polymorphism of the glucocorticoid receptor gene (NR3C1) was associated with traumatic memories and posttraumatic stress disorder symptoms after intensive care therapy. Based on this finding, we investigated if the BclI polymorphism is also associated with emotional memory in healthy young subjects (N=841). We used a picture-learning task consisting of learning and recalling neutral and emotional photographs on two consecutive days. The BclI variant was associated with short-delay recall of emotional pictures on both days, with GG carriers showing increased emotional memory performance as compared to GC and CC carriers. We did not detect a genotype-dependent difference in recall performance for neutral pictures. These findings suggest that the Bcll polymorphism contributes to inter-individual differences in emotional memory also in healthy humans., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2013

12. Testosterone levels in healthy men are related to amygdala reactivity and memory performance.

Author

Ackermann S, Spalek K, Rasch B, Gschwind L, Coynel D, Fastenrath M, Papassotiropoulos A, and de Quervain DJ

Subjects

Adolescent, Adult, Arousal physiology, Female, Functional Neuroimaging, Humans, Magnetic Resonance Imaging, Male, Neuropsychological Tests, Saliva chemistry, Testosterone analysis, Amygdala physiology, Memory physiology, Testosterone metabolism

Abstract

Testosterone is a steroid hormone thought to influence both emotional and cognitive functions. It is unknown, however, if testosterone also affects the interaction between these two domains, such as the emotional arousal-induced enhancement of memory. Healthy subjects (N=234) encoded pictures taken from the International Affective Picture System (IAPS) during functional magnetic resonance imaging (fMRI) and underwent a free recall test 10 min after memory encoding. We show that higher endogenous testosterone levels at encoding were associated with higher arousal ratings of neutral pictures in men. fMRI analysis revealed that higher testosterone levels were related to increased brain activation in the amygdala during encoding of neutral pictures. Moreover, endogenous testosterone levels were positively correlated with the number of freely recalled neutral pictures. No such relations were found in women. These findings point to a male-specific role for testosterone in enhancing memory by increasing the biological salience of incoming information., (Copyright © 2012 Elsevier Ltd. All rights reserved.)

Published

2012

13. PKCα is genetically linked to memory capacity in healthy subjects and to risk for posttraumatic stress disorder in genocide survivors.

Author

de Quervain DJ, Kolassa IT, Ackermann S, Aerni A, Boesiger P, Demougin P, Elbert T, Ertl V, Gschwind L, Hadziselimovic N, Hanser E, Heck A, Hieber P, Huynh KD, Klarhöfer M, Luechinger R, Rasch B, Scheffler K, Spalek K, Stippich C, Vogler C, Vukojevic V, Stetak A, and Papassotiropoulos A

Subjects

Adolescent, Adult, Aged, Brain pathology, Brain physiopathology, Female, Genotype, Homicide psychology, Humans, Magnetic Resonance Imaging, Male, Mental Recall physiology, Middle Aged, Photic Stimulation, Psychomotor Performance physiology, Risk Factors, Rwanda ethnology, Stress Disorders, Post-Traumatic psychology, Survivors psychology, Uganda, Young Adult, Memory physiology, Polymorphism, Single Nucleotide, Protein Kinase C-alpha genetics, Stress Disorders, Post-Traumatic genetics, Stress Disorders, Post-Traumatic physiopathology

Abstract

Strong memory of a traumatic event is thought to contribute to the development and symptoms of posttraumatic stress disorder (PTSD). Therefore, a genetic predisposition to build strong memories could lead to increased risk for PTSD after a traumatic event. Here we show that genetic variability of the gene encoding PKCα (PRKCA) was associated with memory capacity--including aversive memory--in nontraumatized subjects of European descent. This finding was replicated in an independent sample of nontraumatized subjects, who additionally underwent functional magnetic resonance imaging (fMRI). fMRI analysis revealed PRKCA genotype-dependent brain activation differences during successful encoding of aversive information. Further, the identified genetic variant was also related to traumatic memory and to the risk for PTSD in heavily traumatized survivors of the Rwandan genocide. Our results indicate a role for PKCα in memory and suggest a genetic link between memory and the risk for PTSD.

Published

2012

14. A role for α-adducin (ADD-1) in nematode and human memory.

Author

Vukojevic V, Gschwind L, Vogler C, Demougin P, de Quervain DJ, Papassotiropoulos A, and Stetak A

Subjects

Actins metabolism, Adult, Animals, Caenorhabditis elegans, Caenorhabditis elegans Proteins genetics, Caenorhabditis elegans Proteins metabolism, Chromosome Pairing genetics, Chromosome Pairing physiology, Female, Genetic Variation, Humans, Learning physiology, Male, Neurons metabolism, Receptors, AMPA metabolism, Young Adult, Memory physiology, Sterol Regulatory Element Binding Protein 1 genetics, Sterol Regulatory Element Binding Protein 1 metabolism

Abstract

Identifying molecular mechanisms that underlie learning and memory is one of the major challenges in neuroscience. Taken the advantages of the nematode Caenorhabditis elegans, we investigated α-adducin (add-1) in aversive olfactory associative learning and memory. Loss of add-1 function selectively impaired short- and long-term memory without causing acquisition, sensory, or motor deficits. We showed that α-adducin is required for consolidation of synaptic plasticity, for sustained synaptic increase of AMPA-type glutamate receptor (GLR-1) content and altered GLR-1 turnover dynamics. ADD-1, in a splice-form- and tissue-specific manner, controlled the storage of memories presumably through actin-capping activity. In support of the C. elegans results, genetic variability of the human ADD1 gene was significantly associated with episodic memory performance in healthy young subjects. Finally, human ADD1 expression in nematodes restored loss of C. elegans add-1 gene function. Taken together, our findings support a role for α-adducin in memory from nematodes to humans. Studying the molecular and genetic underpinnings of memory across distinct species may be helpful in the development of novel strategies to treat memory-related diseases.

Published

2012

15. Genetics of human episodic memory: dealing with complexity.

Author

Papassotiropoulos A and de Quervain DJ

Subjects

Brain anatomy & histology, Brain physiology, Epistasis, Genetic genetics, Humans, Phenotype, Genetics, Behavioral, Genome-Wide Association Study, Memory

Abstract

Episodic memory is a polygenic behavioral trait with substantial heritability estimates. Despite its complexity, recent empirical evidence supports the notion that behavioral genetic studies of episodic memory might successfully identify trait-associated molecules and pathways. The development of high-throughput genotyping methods, of elaborated statistical analyses and of phenotypic assessment methods at the neural systems level will facilitate the reliable identification of novel memory-related genes. Importantly, a necessary crosstalk between behavioral genetic studies and investigation of causality by molecular genetic studies will ultimately pave the way towards the identification of biologically important, and hopefully druggable, genes and molecular pathways related to human episodic memory., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2011

16. Statistical epistasis and functional brain imaging support a role of voltage-gated potassium channels in human memory.

Author

Heck A, Vogler C, Gschwind L, Ackermann S, Auschra B, Spalek K, Rasch B, de Quervain D, and Papassotiropoulos A

Subjects

Humans, Magnetic Resonance Imaging, Polymorphism, Single Nucleotide, Brain physiology, Epistasis, Genetic, Ion Channel Gating, Memory, Potassium Channels physiology

Abstract

Despite the current progress in high-throughput, dense genome scans, a major portion of complex traits' heritability still remains unexplained, a phenomenon commonly termed "missing heritability." The negligence of analytical approaches accounting for gene-gene interaction effects, such as statistical epistasis, is probably central to this phenomenon. Here we performed a comprehensive two-way SNP interaction analysis of human episodic memory, which is a heritable complex trait, and focused on 120 genes known to show differential, memory-related expression patterns in rat hippocampus. Functional magnetic resonance imaging was also used to capture genotype-dependent differences in memory-related brain activity. A significant, episodic memory-related interaction between two markers located in potassium channel genes (KCNB2 and KCNH5) was observed (P(nominal combined)=0.000001). The epistatic interaction was robust, as it was significant in a screening (P(nominal)=0.0000012) and in a replication sample (P(nominal)=0.01). Finally, we found genotype-dependent activity differences in the parahippocampal gyrus (P(nominal)=0.001) supporting the behavioral genetics finding. Our results demonstrate the importance of analytical approaches that go beyond single marker statistics of complex traits., (© 2011 Heck et al.)

Published

2011

17. Fine-mapping at the HTR2A locus reveals multiple episodic memory-related variants.

Author

Sigmund JC, Vogler C, Huynh KD, de Quervain DJ, and Papassotiropoulos A

Subjects

Adolescent, Adult, Brain anatomy & histology, Brain physiology, Case-Control Studies, Female, Genotype, Histidine genetics, Humans, Linkage Disequilibrium, Male, Neuropsychological Tests, Receptor, Serotonin, 5-HT2A genetics, Tyrosine genetics, Verbal Learning physiology, Young Adult, Brain Mapping, Memory physiology, Polymorphism, Genetic, Polymorphism, Single Nucleotide genetics

Abstract

A functional polymorphism (His452Tyr) in the gene encoding the serotonin 2A receptor (HTR2A) has been previously associated with human episodic memory performance and with differences in brain volume in memory-related brain regions. Here we present data obtained through imputation and fine-mapping showing that multiple loci within HTR2A are significantly associated with human memory performance independently of the His452Tyr polymorphism. Our data support the existence of multiple memory-related loci within HTR2A.

Published

2008

18. Prion protein M129V polymorphism affects retrieval-related brain activity.

Author

Buchmann A, Mondadori CR, Hänggi J, Aerni A, Vrticka P, Luechinger R, Boesiger P, Hock C, Nitsch RM, de Quervain DJ, Papassotiropoulos A, and Henke K

Subjects

Adult, Analysis of Variance, Female, Genetic Variation genetics, Genotype, Heterozygote, Humans, Intelligence Tests statistics & numerical data, Learning physiology, Magnetic Resonance Imaging, Male, Methionine genetics, Neocortex anatomy & histology, Neuropsychological Tests statistics & numerical data, Parahippocampal Gyrus anatomy & histology, Parahippocampal Gyrus physiology, Pattern Recognition, Visual physiology, Polymorphism, Single Nucleotide, Psychomotor Performance physiology, Time Factors, Valine genetics, Brain physiology, Memory physiology, Neocortex physiology, Polymorphism, Genetic, Prions genetics

Abstract

The prion protein Met129Val polymorphism has recently been related to human long-term memory with carriers of either the 129MM or the 129MV genotype recalling 17% more words than 129(VV) carriers at 24h following learning. Here, we sampled genotype differences in retrieval-related brain activity at 30min and 24h following learning. Furthermore, genotype groups were compared regarding grey matter concentrations and cognitive profiles. We used event-related functional magnetic resonance imaging (fMRI) during a word recognition task on 12 Met/Met carriers, 12 Val/Met carriers, and 12 Val/Val carriers. These groups were matched for retrieval performance, gender, age, education, and other memory-related genetic polymorphisms. Although retrieval performance was matched, Val carriers exhibited enhanced retrieval-related brain activity at 30min and 24h following learning. At both time lags, correlations between retrieval-related brain activity and retrieval success were negative for Val homozygotes (the more activity, the worse retrieval success), while correlations showed no significance or were positive for Met homozygotes and heterozygotes. These results suggest a less economic use of retrieval-related neural resources in Val relative to Met carriers. Furthermore, Val carriers exhibited higher neocortical grey matter concentrations compared to Met carriers. When controlling for grey matter concentration, genotype effects in retrieval-related brain activity remained significant. Val and Met carriers yielded comparable brain activations for correct rejections of non-studied words and for working memory, which speaks to the specificity of the genotype effect. Findings suggest that the prion protein Met129Val polymorphism affects neural plasticity following learning at a time-scale of minutes to hours.

Published

2008

19. A deletion variant of the alpha2b-adrenoceptor is related to emotional memory in Europeans and Africans.

Author

de Quervain DJ, Kolassa IT, Ertl V, Onyut PL, Neuner F, Elbert T, and Papassotiropoulos A

Subjects

Analysis of Variance, Glutamic Acid genetics, Humans, Neuropsychological Tests, Black People genetics, Emotions physiology, Gene Deletion, Memory physiology, Receptors, Adrenergic, alpha-2 genetics, White People genetics

Abstract

Emotionally arousing events are recalled better than neutral events. This phenomenon, which helps us to remember important and potentially vital information, depends on the activation of noradrenergic transmission in the brain. Here we show that a deletion variant of ADRA2B, the gene encoding the alpha2b-adrenergic receptor, is related to enhanced emotional memory in healthy Swiss subjects and in survivors of the Rwandan civil war who experienced highly aversive emotional situations.

Published

2007

20. Better memory and neural efficiency in young apolipoprotein E epsilon4 carriers.

Author

Mondadori CR, de Quervain DJ, Buchmann A, Mustovic H, Wollmer MA, Schmidt CF, Boesiger P, Hock C, Nitsch RM, Papassotiropoulos A, and Henke K

Subjects

Adult, Alleles, Apolipoprotein E4 genetics, Association Learning physiology, Data Interpretation, Statistical, Female, Heterozygote, Humans, Intelligence genetics, Intelligence physiology, Magnetic Resonance Imaging, Male, Psychomotor Performance physiology, Space Perception physiology, Verbal Learning physiology, Apolipoprotein E4 physiology, Memory physiology, Neurons physiology

Abstract

The apolipoprotein E (APOE) epsilon4 allele is the major genetic risk factor for Alzheimer's disease, but an APOE effect on memory performance and memory-related neurophysiology in young, healthy subjects is unknown. We found an association of APOE epsilon4 with better episodic memory compared with APOE epsilon2 and epsilon3 in 340 young, healthy persons. Neuroimaging was performed in a subset of 34 memory-matched individuals to study genetic effects on memory-related brain activity independently of differential performance. E4 carriers decreased brain activity over 3 learning runs, whereas epsilon2 and epsilon3 carriers increased activity. This smaller neural investment of epsilon4 carriers into learning reappeared during retrieval: epsilon4 carriers exhibited reduced retrieval-related activity with equal retrieval performance. APOE isoforms had no differential effects on cognitive measures other than memory, brain volumes, and brain activity related to working memory. We suggest that APOE epsilon4 is associated with good episodic memory and an economic use of memory-related neural resources in young, healthy humans.

Published

2007

21. Calmodulin-binding transcription activator 1 (CAMTA1) alleles predispose human episodic memory performance.

Author

Huentelman MJ, Papassotiropoulos A, Craig DW, Hoerndli FJ, Pearson JV, Huynh KD, Corneveaux J, Hänggi J, Mondadori CR, Buchmann A, Reiman EM, Henke K, de Quervain DJ, and Stephan DA

Subjects

Adolescent, Adult, Animals, Brain anatomy & histology, Brain metabolism, Calcium-Binding Proteins metabolism, Cohort Studies, Female, Genome, Genotype, Humans, Magnetic Resonance Imaging, Male, Mental Recall physiology, Mice, Middle Aged, Polymorphism, Single Nucleotide, Trans-Activators metabolism, Alleles, Calcium-Binding Proteins genetics, Memory, Trans-Activators genetics

Abstract

Little is known about the genes and proteins involved in the process of human memory. To identify genetic factors related to human episodic memory performance, we conducted an ultra-high-density genome-wide screen at > 500 000 single nucleotide polymorphisms (SNPs) in a sample of normal young adults stratified for performance on an episodic recall memory test. Analysis of this data identified SNPs within the calmodulin-binding transcription activator 1 (CAMTA1) gene that were significantly associated with memory performance. A follow up study, focused on the CAMTA1 locus in an independent cohort consisting of cognitively normal young adults, singled out SNP rs4908449 with a P-value of 0.0002 as the most significant associated SNP in the region. These validated genetic findings were further supported by the identification of CAMTA1 transcript enrichment in memory-related human brain regions and through a functional magnetic resonance imaging experiment on individuals matched for memory performance that identified CAMTA1 allele-specific upregulation of medial temporal lobe brain activity in those individuals harboring the 'at-risk' allele for poorer memory performance. The CAMTA1 locus encodes a purported transcription factor that interfaces with the calcium-calmodulin system of the cell to alter gene expression patterns. Our validated genomic and functional biological findings described herein suggest a role for CAMTA1 in human episodic memory.

Published

2007

22. Common Kibra alleles are associated with human memory performance.

Author

Papassotiropoulos A, Stephan DA, Huentelman MJ, Hoerndli FJ, Craig DW, Pearson JV, Huynh KD, Brunner F, Corneveaux J, Osborne D, Wollmer MA, Aerni A, Coluccia D, Hänggi J, Mondadori CR, Buchmann A, Reiman EM, Caselli RJ, Henke K, and de Quervain DJ

Subjects

Adolescent, Adult, Alleles, Animals, Attention, Brain Chemistry, Calcium-Binding Proteins genetics, Cohort Studies, Female, Gene Expression, Genotype, Haplotypes, Hippocampus chemistry, Humans, Intracellular Signaling Peptides and Proteins, Magnetic Resonance Imaging, Male, Membrane Proteins genetics, Mice, Middle Aged, Phosphoproteins, Proteins analysis, Reverse Transcriptase Polymerase Chain Reaction, Switzerland, United States, Brain physiology, Hippocampus physiology, Memory, Polymorphism, Single Nucleotide, Proteins genetics, Proteins physiology

Abstract

Human memory is a polygenic trait. We performed a genome-wide screen to identify memory-related gene variants. A genomic locus encoding the brain protein KIBRA was significantly associated with memory performance in three independent, cognitively normal cohorts from Switzerland and the United States. Gene expression studies showed that KIBRA was expressed in memory-related brain structures. Functional magnetic resonance imaging detected KIBRA allele-dependent differences in hippocampal activations during memory retrieval. Evidence from these experiments suggests a role for KIBRA in human memory.

Published

2006

23. Identification of a genetic cluster influencing memory performance and hippocampal activity in humans.

Author

de Quervain DJ and Papassotiropoulos A

Subjects

Adult, Animals, Female, Genetic Variation, Genotype, Humans, Magnetic Resonance Imaging, Male, Signal Transduction, Hippocampus physiology, Memory physiology, Multigene Family

Abstract

Experimental work in animals has shown that memory formation depends on a cascade of molecular events. Here we show that variability of human memory performance is related to variability in genes encoding proteins of this signaling cascade, including the NMDA and metabotrobic glutamate receptors, adenylyl cyclase, CAMKII, PKA, and PKC. The individual profile of genetic variability in these signaling molecules correlated significantly with episodic memory performance (P < 0.00001). Moreover, functional MRI during memory formation revealed that this genetic profile correlated with activations in memory-related brain regions, including the hippocampus and parahippocampal gyrus. The present study indicates that genetic variability in the human homologues of memory-related signaling molecules contributes to interindividual differences in human memory performance and memory-related brain activations.

Published

2006

24. The prion gene is associated with human long-term memory.

Author

Papassotiropoulos A, Wollmer MA, Aguzzi A, Hock C, Nitsch RM, and de Quervain DJ

Subjects

Adult, Female, Genetic Heterogeneity, Genotype, Haplotypes, Humans, Male, Memory, Short-Term physiology, Polymorphism, Single Nucleotide, Prion Proteins, Amyloid genetics, Genetic Variation, Memory physiology, Prions genetics, Protein Precursors genetics

Abstract

Human cognitive processes are highly variable across individuals and are influenced by both genetic and environmental factors. Although genetic variations affect short-term memory in humans, it is unknown whether genetic variability has also an impact on long-term memory. Because prion-like conformational changes may be involved in the induction of long-lasting synaptic plasticity, we examined the impact of single-nucleotide polymorphisms (SNPs) of the prion protein gene (PRNP) on long-term memory in healthy young humans. SNPs in the genomic region of PRNP were associated with better long-term memory performance in two independent populations with different educational background. Among the examined PRNP SNPs, the common Met129Val polymorphism yielded the highest effect size. Twenty-four hours after a word list-learning task, carriers of either the 129MM or the 129MV genotype recalled 17% more information than 129VV carriers, but short-term memory was unaffected. These results suggest a role for the prion protein in the formation of long-term memory in humans.

Published

2005

25. Age-dependent effects of the 5-hydroxytryptamine-2a-receptor polymorphism (His452Tyr) on human memory.

Author

Papassotiropoulos A, Henke K, Aerni A, Coluccia D, Garcia E, Wollmer MA, Huynh KD, Monsch AU, Stähelin HB, Hock C, Nitsch RM, and de Quervain DJ

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Female, Genotype, Humans, Male, Middle Aged, Statistics as Topic, Time Factors, Aging physiology, Histidine genetics, Memory physiology, Polymorphism, Genetic, Receptor, Serotonin, 5-HT2A genetics, Tyrosine genetics

Abstract

A polymorphism (His452Tyr) of the 5-hydroxytryptamine (5-HT)2a receptor is associated with episodic memory in healthy young humans. Because 5-HT2a-receptor density decreases with increasing age, we tested whether the 5-HT2a receptor genotype effect on memory is influenced by age. We investigated the association of the His452Tyr genotype with memory performance in 622 healthy study participants aged from 18 to 90 years. In young to middle-aged participants, age significantly influenced genotype effects on episodic memory: the His452Tyr genotype exerted a significant influence on memory only in young participants. In the group of elderly cognitively healthy participants, the His452Tyr genotype did not affect memory performance. We conclude that age strongly modulates the effect of the 5-HT2a receptor polymorphism at residue 452 on episodic memory.

Published

2005

26. A functional genetic variation of the 5-HT2a receptor affects human memory.

Author

de Quervain DJ, Henke K, Aerni A, Coluccia D, Wollmer MA, Hock C, Nitsch RM, and Papassotiropoulos A

Subjects

Case-Control Studies, Genotype, Histidine genetics, Mutation, Polymorphism, Genetic, Receptor, Serotonin, 5-HT2A genetics, Tyrosine genetics, Verbal Learning, Genetic Variation, Memory physiology, Receptor, Serotonin, 5-HT2A physiology

Abstract

Human memory capacity is highly variable across individuals and is influenced by both genetic and environmental factors. A roughly 50% heritability estimate indicates that naturally occurring genetic variations have an important impact on this cognitive ability. Therefore, we investigated a functional variation of a memory-related serotonin receptor in 349 healthy young volunteers, and found 21% poorer memory performance in subjects with the rare variant.

Published

2003

27. NTRK2 methylation is related to reduced PTSD risk in two African cohorts of trauma survivors

Author

Vukojevic, Vanja, Coynel, David, Ghaffari, Navid R, Freytag, Virginie, Elbert, Thomas, Kolassa, Iris-Tatjana, Wilker, Sarah, McGaugh, James L, Papassotiropoulos, Andreas, and de Quervain, Dominique J-F

Subjects

Biological Psychology, Psychology, Brain Disorders, Post-Traumatic Stress Disorder (PTSD), Anxiety Disorders, Mental Health, Prevention, Clinical Research, Neurosciences, Genetics, Mental health, Adult, Aged, Brain, DNA Methylation, Epigenesis, Genetic, Female, Glucocorticoids, Humans, Male, Membrane Glycoproteins, Memory, Middle Aged, Polymorphism, Single Nucleotide, Receptor, trkB, Receptors, Glucocorticoid, Risk Factors, Rwanda, Stress Disorders, Post-Traumatic, Survivors, Uganda, PTSD, glucocorticoids, memory, epigenetics, NTRK2

Abstract

Extensive pharmacologic, genetic, and epigenetic research has linked the glucocorticoid receptor (GR) to memory processes, and to risk and symptoms of posttraumatic stress disorder (PTSD). In the present study we investigated the epigenetic pattern of 12 genes involved in the regulation of GR signaling in two African populations of heavily traumatized individuals: Survivors of the rebel war in northern Uganda (n = 463) and survivors of the Rwandan genocide (n = 350). The strongest link between regional methylation and PTSD risk and symptoms was observed for NTRK2, which encodes the transmembrane receptor tropomyosin-related kinase B, binds the brain-derived neurotrophic factor, and has been shown to play an important role in memory formation. NTRK2 methylation was not related to trauma load, suggesting that methylation differences preexisted the trauma. Because NTRK2 methylation differences were predominantly associated with memory-related PTSD symptoms, and because they seem to precede traumatic events, we next investigated the relationship between NTRK2 methylation and memory in a sample of nontraumatized individuals (n = 568). We found that NTRK2 methylation was negatively associated with recognition memory performance. Furthermore, fMRI analyses revealed NTRK2 methylation-dependent differences in brain network activity related to recognition memory. The present study demonstrates that NTRK2 is epigenetically linked to memory functions in nontraumatized subjects and to PTSD risk and symptoms in traumatized populations.

Published

2020

28. Noradrenergic activation of the basolateral amygdala maintains hippocampus-dependent accuracy of remote memory

Author

Atucha, Erika, Vukojevic, Vanja, Fornari, Raquel V, Ronzoni, Giacomo, Demougin, Philippe, Peter, Fabian, Atsak, Piray, Coolen, Marcel W, Papassotiropoulos, Andreas, McGaugh, James L, de Quervain, Dominique J-F, and Roozendaal, Benno

Subjects

Mental Health, Behavioral and Social Science, Neurosciences, Basic Behavioral and Social Science, Aetiology, 1.1 Normal biological development and functioning, Underpinning research, 2.1 Biological and endogenous factors, Mental health, Adrenergic alpha-Agonists, Animals, Avoidance Learning, Basolateral Nuclear Complex, Cell Adhesion Molecules, Neuronal, DNA Methylation, Discrimination, Psychological, Extracellular Matrix Proteins, GABA-A Receptor Agonists, Hippocampus, Male, Memory, Long-Term, Muscimol, Nerve Tissue Proteins, Norepinephrine, Rats, Sprague-Dawley, Reelin Protein, Serine Endopeptidases, Transcriptome, basolateral amygdala, norepinephrine, memory accuracy, hippocampus, systems consolidation

Abstract

Emotional enhancement of memory by noradrenergic mechanisms is well-described, but the long-term consequences of such enhancement are poorly understood. Over time, memory traces are thought to undergo a neural reorganization, that is, a systems consolidation, during which they are, at least partly, transferred from the hippocampus to neocortical networks. This transfer is accompanied by a decrease in episodic detailedness. Here we investigated whether norepinephrine (NE) administration into the basolateral amygdala after training on an inhibitory avoidance discrimination task, comprising two distinct training contexts, alters systems consolidation dynamics to maintain episodic-like accuracy and hippocampus dependency of remote memory. At a 2-d retention test, both saline- and NE-treated rats accurately discriminated the training context in which they had received footshock. Hippocampal inactivation with muscimol before retention testing disrupted discrimination of the shock context in both treatment groups. At 28 d, saline-treated rats showed hippocampus-independent retrieval and lack of discrimination. In contrast, NE-treated rats continued to display accurate memory of the shock-context association. Hippocampal inactivation at this remote retention test blocked episodic-like accuracy and induced a general memory impairment. These findings suggest that the NE treatment altered systems consolidation dynamics by maintaining hippocampal involvement in the memory. This shift in systems consolidation was paralleled by time-regulated DNA methylation and transcriptional changes of memory-related genes, namely Reln and Pkmζ, in the hippocampus and neocortex. The findings provide evidence suggesting that consolidation of emotional memories by noradrenergic mechanisms alters systems consolidation dynamics and, as a consequence, influences the maintenance of long-term episodic-like accuracy of memory.

Published

2017

29. Human cerebellum and corticocerebellar connections involved in emotional memory enhancement.

Author

Fastenrath, Matthias, Spalek, Klara, Coynel, David, Loos, Eva, Milnik, Annette, Egli, Tobias, Schicktanz, Nathalie, Geissmann, L(eonie, Roozendaal, Benno, Papassotiropoulos, Andreas, and de Quervain, Dominique J.-F.

Subjects

CEREBELLUM, EPISODIC memory, FUNCTIONAL magnetic resonance imaging, CINGULATE cortex, MEMORY

Abstract

Emotional information is better remembered than neutral information. Extensive evidence indicates that the amygdala and its interactions with other cerebral regions play an important role in the memory-enhancing effect of emotional arousal.While the cerebellum has been found to be involved in fear conditioning, its role in emotional enhancement of episodic memory is less clear. To address this issue, we used a wholebrain functional MRI approach in 1,418 healthy participants. First, we identified clusters significantly activated during enhanced memory encoding of negative and positive emotional pictures. In addition to the well-known emotional memory–related cerebral regions, we identified a cluster in the cerebellum. We then used dynamic causal modeling and identified several cerebellar connections with increased connection strength corresponding to enhanced emotional memory, including one to a cluster covering the amygdala and hippocampus, and bidirectional connections with a cluster covering the anterior cingulate cortex. The present findings indicate that the cerebellum is an integral part of a network involved in emotional enhancement of episodic memory. [ABSTRACT FROM AUTHOR]

Published

2022

30. Visual Exploration at Higher Fixation Frequency Increases Subsequent Memory Recall.

Author

Fehlmann, Bernhard, Coynel, David, Schicktanz, Nathalie, Milnik, Annette, Gschwind, Leo, Hofmann, Pascal, Papassotiropoulos, Andreas, and de Quervain, Dominique J.-F.

Subjects

EPISODIC memory, EYE tracking, TASK performance, OPTICAL information processing, BRAIN imaging, FUNCTIONAL magnetic resonance imaging

Abstract

Only a small proportion of what we see can later be recalled. Up to date it is unknown how far differences in visual exploration during encoding affect the strength of episodic memories. Here, we identified individual gaze characteristics by analyzing eye tracking data in a picture encoding task performed by 967 healthy subjects during fMRI. We found a positive correlation between fixation frequency during visual exploration and subsequent free recall performance. Brain imaging results showed a positive correlation of fixation frequency with activations in regions related to vision and memory, including the medial temporal lobe. To investigate if higher fixation frequency is causally linked to better memory, we experimentally manipulated visual exploration patterns in an independent population of 64 subjects. Doubling the number of fixations within a given exploration time increased subsequent free recall performance by 19%. Our findings provide evidence for a causal relationship between fixation frequency and episodic memory for visual information. [ABSTRACT FROM AUTHOR]

Published

2020

31. Hippocampal activation, memory performance in young and old, and the risk for sporadic Alzheimer’s disease converge genetically to calcium signaling

Author

Heck, Angela, Fastenrath, Matthias, Coynel, David, Auschra, Bianca, Bickel, Horst, Freytag, Virginie, Gschwind, Leo, Hartmann, Francina, Jessen, Frank, Kaduszkiewicz, Hanna, Maier, Wolfgang, Milnik, Annette, Pentzek, Michael, Riedel-Heller, Steffi G., Spalek, Klara, Vogler, Christian, Wagner, Michael, Weyerer, Siegfried, Wolfsgruber, Steffen, de Quervain, Dominique F., and Papassotiropoulos, Andreas

Subjects

Adult, Aged, 80 and over, Male, Functional Neuroimaging, Memory, Episodic, Age Factors, Middle Aged, Hippocampus, Magnetic Resonance Imaging, Article, Cohort Studies, Young Adult, Alzheimer Disease, Memory, Case-Control Studies, Humans, Female, Calcium Signaling, Prospective Studies, Aged

Abstract

Human episodic memory performance is linked to the function of specific brain regions, including the hippocampus; declines as a result of increasing age; and is markedly disturbed in Alzheimer disease (AD), an age-associated neurodegenerative disorder that primarily affects the hippocampus. Exploring the molecular underpinnings of human episodic memory is key to the understanding of hippocampus-dependent cognitive physiology and pathophysiology.To determine whether biologically defined groups of genes are enriched in episodic memory performance across age, memory encoding-related brain activity, and AD.In this multicenter collaborative study, which began in August 2008 and is ongoing, gene set enrichment analysis was done by using primary and meta-analysis data from 57 968 participants. The Swiss cohorts consisted of 3043 healthy young adults assessed for episodic memory performance. In a subgroup (n = 1119) of one of these cohorts, functional magnetic resonance imaging was used to identify gene set-dependent differences in brain activity related to episodic memory. The German Study on Aging, Cognition, and Dementia in Primary Care Patients cohort consisted of 763 elderly participants without dementia who were assessed for episodic memory performance. The International Genomics of Alzheimer's Project case-control sample consisted of 54 162 participants (17 008 patients with sporadic AD and 37 154 control participants). Analyses were conducted between January 2014 and June 2015. Gene set enrichment analysis in all samples was done using genome-wide single-nucleotide polymorphism data.Episodic memory performance in the Swiss cohort and German Study on Aging, Cognition, and Dementia in Primary Care Patients cohort was quantified by picture and verbal delayed free recall tasks. In the functional magnetic resonance imaging experiment, activation of the hippocampus during encoding of pictures served as the phenotype of interest. In the International Genomics of Alzheimer's Project sample, diagnosis of sporadic AD served as the phenotype of interest.In the discovery sample, we detected significant enrichment for genes constituting the calcium signaling pathway, especially those related to the elevation of cytosolic calcium (P = 2 × 10-4). This enrichment was replicated in 2 additional samples of healthy young individuals (P = .02 and .04, respectively) and a sample of healthy elderly participants (P = .004). Hippocampal activation (P = 4 × 10-4) and the risk for sporadic AD (P = .01) were also significantly enriched for genes related to the elevation of cytosolic calcium.By detecting consistent significant enrichment in independent cohorts of young and elderly participants, this study identified that calcium signaling plays a central role in hippocampus-dependent human memory processes in cognitive health and disease, contributing to the understanding and potential treatment of hippocampus-dependent cognitive pathology.

Published

2015

32. Prenatal programming of newborn and infant telomere length

Author

Entringer, Sonja, Epel, Elissa S., Lin, Jue, Buss, Claudia, Blackburn, Elizabeth H., Simhan, Hyagriv N., Wadhwa, Pathik D., Shalev, Idan, Moffitt, Terrie E., Caspi, Avshalom, Wolkowitz, Owen M., Mellon, Synthia H., Reus, Victor I., Dhabhar, Firdaus S., Su, Yali, Puterman, Eli, Reynolds, Rebecca M., O'Reilly, James, Forbes, Shareen, Denison, Fiona C., Norman, Jane E., Labad, Javier, Davis, Elysia Poggi, Hobel, Calvin J., Swanson, James M., Sandman, Curt A., Ghaemmaghami, Pearl, Dainese, Sara M., La Marca, Roberto, Zimmermann, Roland, Ehlert, Ulrike, Räikkönen, Katri, Pesonen, Anu-Katriina, Kajantie, Eero, Villa, Pia, Laivuori, Hannele, Hämäläinen, Esa, Seckl, Jonathan R., Spiegel, David, Hahm, Bong-Jim, Talbot, Lisa, Richards, Anne, Inslicht, Sabra S., O'Donovan, Aoife, Neylan, Thomas C., Jo, Booil, Neri, Eric, Zeitzer, Jamie, Tillie, Jean M., Bricker, Nicole M., Nouriani, Bita, Jessup, David, Kalin, Ned H., Fox, Andrew S., Oler, Jonathan A, Fawcett, Gloria, Rogers, Jeff, Pandey, Ghanshyam N., Schatzberg, Alan, Belanoff, Joseph K., Ishitobi, Yoshinobu, Nakayama, Shinya, Yamaguchi, Kana, Kanehisa, Masayuki, Higuma, Haruka, Maruyama, Yoshihiro, Ninomiya, Taiga, Okamoto, Shizuko, Tanaka, Yoshihiro, Tsuru, Jusen, Hanada, Hiroaki, Isogawa, Koichi, Akiyoshi, Jotaro, Wotjak, Carsten T., Hill, Matthew N., Roozendaal, Benno, Schelling, Gustav, Neumeister, Alexander, Sobin, Sean, Diamond, David, Roth, Tania L., Fleshner, Monika, Zoladz, Phillip R., Liberzon, Israel, Pitman, Roger K., Brunet, Alain, Bolshakov, Vadim, Gamache, Karine, Nader, Karim, Daskalakis, Nikolaos P., Buxbaum, Joseph, Flory, Janine D., Cai, Guiqing, Shen, Li, Bierer, Linda M., Cohen, Hagit, Yehuda, Rachel, Rayman, Joseph B., Kandel, Eric R., Abercrombie, Heather C., Wirth, Michelle M., Jahn, Allison L., Hoks, Roxanne M., Ackermann, Sandra, Hartmann, Francina, Heck, Angela, Rasch, Björn, Papassotiropoulos, Andreas, de Quervain, Dominique J.-F., van Ast, Vanessa A., Cornelisse, Sandra, Meeter, Martijn, Joëls, Marian, Kindt, Merel, Garfinkel, Sarah N., Shaun Ho, S., Wang, Xin, Abelson, James L., Taylor, Stephen F., Gonzalez, Richard, Smith, Edward E., Marin, Marie-France, Lupien, Sonia J., Rimmele, Ulrike, Besedovsky, Luciana, Wilhelm, Ines, Lange, Tanja, Born, Jan, de Kloet, E. Ronald, Nederhof, Esther, Parker, Karen J., Bagot, Rosemary C., Vinkers, Christian H., van Gastel, Willemijn, Luykx, Jurjen J., Schubart, Chris, Kahn, René S., Boks, Marco P.M., Kubzansky, Laura D., Bradley, Bekh, Ellenbogen, Mark A., Cardoso, Christopher, Orlando, Mark Anthony, Brown, Christopher A., Bacon, Simon L., Joober, Ridha, Bartz, Jennifer A., Yee, Jason R., Blaze, Jennifer, Danese, Andrea, Dove, Rosamund, Moog, Nora, Gaffey, Allison E., Nuttall, Amy K., Valentino, Kristin, Payne, Jessica D., Slopen, Natalie, McLaughlin, Katie A., Koenen, Karestan C., Wingenfeld, Katja, Cohen, Beth E., Bertenthal, Dan, Margaretten, Mary, Seal, Karen, Desarnaud, Frank, Makotkine, Iouri, Siddique, Ashik, Marmar, Charles, Golier, Julia A., Caramanica, Kimberly, Schmeidler, James, Harvey, Philip D., Mehta, Divya, Moeller-Bertram, Tobias, Strigo, Irina, Simmons, Alan, Patel, Piyush, Baker, Dewleen G., McFarlane, Alexander C., van Zuiden, Mirjam, Geuze, Elbert, Vermetten, Eric, Kavelaars, Annemieke, Heijnen, Cobi, Risbrough, Victoria, Nievergelt, Caroline, Litz, Brett, Nash, William, Perez, J., Geyer, Mark, Steudte, Susann, Kirschbaum, Clemens, Gao, Wei, Schönfeld, Sabine, Hoyer, Jürgen, and Stalder, Tobias

Subjects

early psychosis, positron emission tomography, placental CRH, childhood maltreatment, exposure therapy, brain imaging, cumulative stress exposure, primate, patients, autoimmune disorders, TSST, stress, newborn, panic disorder, genes, emotional memories, youth, transgenerational effects, fMRI, cortisone, PTSD, temperament, memory consolidation, birthweight, depression, novel treatments, oxidation, prospective cohort, substance use, emotion, cortisol, leptin, FKBP-5, lipids, hormone levels, monkeys, corticotropin-releasing factor (CRF), Cushing syndrome, traumatization, Fatty acid amide hydrolase, stress inoculation, CB2 receptor, glucocorticoid receptors, animal study, cytokines, BDNF, BclI, intranasal oxytocin, agency, prognosis, dose–response, context processing, GR antagonists, cognition, obesity, CB1 receptor, stressful life events, mifepristone, vulnerability, fear responses, Glucocorticoid receptor, longitudinal course, startle, violence, Glucocorticoid, mineralocorticoid, gender, pain, retrieval, dose-response, reconsolidation blockade, health, MHPG, salivary cortisol, 2-arachidonoylglycerol, social bonding, psychiatric disorders, arthritis, posttraumatic stress disorder, biomarker, pregnancy, allostatic load, cardiovascular risk, mice, neuropeptide Y, SNP, anadamide, PTSD, methlylation, BMI, children, Supplement 1, 2012, immunoprotection, sleep, endocannabinoids, saliva, therapy, aging, depressive, endocannabinoid, cortical thickness, CRHR1, inflammation, CRHR2, prolonged exposure, genetic model, MDD, hippocampus, child abuse, stress regulation, susceptibility, sensitization, trauma susceptibility, military, learning, DNA methylation, teleomere erosion, progesterone blockade, glucocorticoids, exercise, gene environment interaction, 24 IU, socioeconomic position, chronic inflammatory disease, trauma, CRH, psychotic depression, teleomere length, metastatic breast cancer, cortisol/cortisone ratio, 48 IU, prospective study, emotional memory, avoidance, classical conditioning, immune cells, anxiety disorders, cognitive disorder, oxytocin, ADHD, glucocorticoid regulation, early programming, resilience, attachment, animal model, HPA axis, interleukin-6, gestational weight, amniotic fluid, stress response, mortality, fear conditioning, signaling pathways, teleomere biology, fear extinction, traumatic stress, executive function, behavioral adaptation, Gulf War veterans, glucocorticoid regulation synaptic plasticity, morbidity, trait negative affect, brain development, capsaicin, diurnal rhythm, memory, pre-pulse inhibition, chronic multisymptom illness, mismatch hypothesis, adolescents, prefrontal cortex, early adversity, Japanese population, treatment, neurobiology, autobiographical memory, resiliency, anxiety, cumulative stress, FKBP5, HPA-axis, psychophysiological risk, early life separation, maternal care, early life trauma, mRNA, early life stress, dexamethasone, corticotropin-releasing hormone, survival, safety learning, salivary cortisone, social behavior, C-reactive protein, cognitive testing, cancer, veterans, suicide, IL-6, childhood stress, communion, childhood trauma, psychobiological stress reactivity, major depressive disorder, Prenatal stress, systemic drugs, hair, social support, CRF-R1, declarative memory, maternal life course history, gene expression, post-traumatic stress disorder, methylation, metabolism

Abstract

Rationale/statement of the problem Substantial evidence suggests conditions in intrauterine life may play a critical role in subsequent health and disease susceptibility related outcomes (i.e., the concept of fetal or developmental programming of health and disease). The elucidation of biological mechanisms underlying these effects is an area of active investigation. We suggest that telomere biology may represent a novel mechanism underlying the effects of a disparate set of suboptimal intrauterine exposures on various health and disease risk phenotypes. From an evolutionary-developmental perspective, energy substrate availability (i.e., nutrition) and challenges that have the potential to impact the structural or functional integrity and survival of the organism (i.e., stress) likely represent the most important environmental considerations underlying natural selection and developmental plasticity. Maternal stress and nutrition in pregnancy therefore represent attractive candidate processes in the context of fetal programming of telomere biology. Our previous work has established an important role for prenatal stress and stress-related processes in adult telomere biology Methods In two longitudinal birth cohorts, stress- and nutrition-related processes were assessed during pregnancy and telomere length (TL) was subsequently measured in newborns (cord blood) and infants (buccal cells). Results (1) Among the nutrition-related factors, maternal lower folate levels (an essential methyl donor) and higher triglyceride concentrations in early pregnancy were significantly and independently associated with shorter newborn TL. (2) Among psychosocial stress-related measures, higher maternal pregnancy-specific stress was associated with shorter newborn TL. (3) Maternal estrogen (E3) levels during early pregnancy were associated with longer infant TL. Conclusion Taken together, our findings provide the first evidence in humans that maternal nutrition and stress-related processes during pregnancy may exert a programming effect on the newborn and infant telomere biology system. In utero telomere biology represents a potential molecular mechanism whereby different exposures in this critical developmental period before birth could impact subsequent health and disease susceptibility related outcomes over the life span, including aging and longevity, Rationale/statement of the problem Stress in early life is known to have a powerful direct effect on poor health in later life. This direct effect requires one or more underlying mechanisms that can maintain it across the life-course. It is therefore essential to characterize the biological mechanisms through which children may acquire such lasting vulnerability to disease, namely, the mechanisms of biological embedding. One plausible mechanism may lie in changes to DNA. New research suggests that stress exposures can accelerate the erosion of DNA segments called telomeres. In the past 2 years, six studies provided support for an association between telomere length (TL) and childhood stress. Although these studies advance understanding of the link between childhood stress and TL, almost all studies have relied on adult measures of TL and retrospective recall of stress years after the stress was experienced raising important questions about the true nature of these findings. Interpretation of findings from cross-sectional studies of TL is ambiguous in light of recent longitudinal analyses of repeated TL measurements. These recent findings indicate that the temporal process of telomere erosion is more complex than initially assumed, and that repeated measures (not just length at one time point) are needed to measure true telomere erosion in individuals who are experiencing stress. Moreover, given the elapsed time between the putative stress exposure and the measurement of TL, it has not been clear whether telomeres began eroding during stress exposure or whether erosion occurred years later, possibly promoted by the sequelae of childhood stress or other intervening variables. In our study, we used a longitudinal design to test the effects of violence exposure during childhood on telomere erosion in a cohort of young children. We tested the hypothesis that cumulative violence exposure would accelerate telomere erosion in children while they experienced stress. Method Participants were 236 children (49% females; 42% with one or more violence exposures) recruited from the Environmental Risk (E-Risk) Longitudinal Twin Study, a nationally representative UK 1994–1995 birth cohort. Each child's mean relative telomere length was measured simultaneously in baseline and follow-up DNA buccal cells, using the quantitative PCR method for T/S ratio. Violence was assessed as exposure to maternal domestic violence, frequent bullying victimization and physical maltreatment by an adult. We interviewed mothers (or the primary caregiver) about each exposure when the children were 5, 7, and 10 years of age and compiled a cumulative record of each child's exposure to violence. Nearly 54.2% (N=128) of the children were not violence exposed, 29.2% (N=69) were exposed to 1 type of violence, and 16.5% (N=39) were exposed to 2 or more types of violence. To test the main hypothesis that violence exposure would accelerate telomere erosion between ages 5 and 10 years, we conducted ordinary least squares multiple regression analysis. The outcome variable was age-10 TL, controlling for baseline TL at age 5 years and sex, SES, and body mass index as covariates. Results We first examined the effect of each type of violence exposure on TL separately. Children exposed to domestic violence showed slightly accelerated telomere erosion from age 5 to 10, compared with children who had not been exposed to domestic violence, but this change was not statistically significant (β= −.059, SE=.045, p=0.196). Children exposed to frequent bullying victimization also showed slight but nonsignificant accelerated telomere erosion from age 5 to 10, compared with children who had not been exposed to bullying victimization (β = −0.041, SE=0.037, p=0.274). Children who were physically maltreated did show significantly accelerated telomere erosion from age 5 to 10, compared with children who had not been exposed to physical maltreatment (β= −0.085, SE= 0.037, p= 0.022). Next, we tested the main hypothesis that cumulative exposure to violence will be associated with accelerated TL erosion. Children who experienced two or more kinds of violence exposure showed significant TL erosion from baseline to follow-up measurement compared with children who had one or no kinds of violence exposures (β = −0.054, SE=0.023, p=0.020). Conclusion This finding provides the first evidence that stress-related accelerated telomere erosion in buccal cells can be observed already at young age while children are experiencing stress. Children who experienced two or more types of violence exposure between age-5 baseline and age-10 follow-up measurements showed significantly more telomere erosion, even after adjusting for confounding factors. The results of the present study add weight to the hypothesis that exposure to stress in childhood can alter biological processes in relation to telomere erosion. Methodological strengths of this study include a longitudinal design with reliable and valid prospective assessments of multiple violence exposures during childhood and repeated measurements of TL during this same developmental period., Rationale/statement of the problem Major depressive disorder (MDD) and other serious mental illnesses are associated with high rates of comorbid medical illnesses. Many of these comorbid conditions are more typically seen in the aged, raising the possibility that these psychiatric illnesses are associated with accelerated aging. An emerging biomarker of cell aging and of increased risk of medical illness is leukocyte telomere length, and several studies have now characterized leukocyte telomere length in MDD and other psychiatric illnesses. Fewer psychiatric studies have characterized the activity of telomerase, an enzyme that can elongate and preserve telomeric DNA, or have investigated the biochemical mediators of accelerated telomere shortening. Methods Seven studies examining telomere length in MDD, three studies in schizophrenia, two studies in bipolar illness, two studies in PTSD, and one study in generalized anxiety disorder were reviewed, as were one study of telomerase activity in MDD and one study in schizophrenia. Additional studies in chronically stressed individuals and in individuals with histories of childhood adversity were also reviewed. Results Shortened leukocyte telomeres have been demonstrated in MDD, bipolar illness, schizophrenia, anxiety disorders, and post-traumatic stress disorder, although in some studies, only subgroups of patients (e.g., those with longer lifetime exposure to the illness, those with poor responses to treatment, or those with preexisting histories of childhood adversity) showed shortened telomeres. Leukocyte telomere shortening is correlated with peripheral indices of increased oxidative stress and increased immune activation. Two studies (one in caregivers with high depression ratings and one in unmedicated patients with MDD) reported elevated peripheral blood mononuclear cell (PBMC) telomerase activity, perhaps representing a compensatory attempt by the body to preserve endangered telomeres. Preliminary data in MDD suggest that relatively low telomerase activity before treatment, and greater treatment-associated increases in telomerase activity, are associated with better antidepressant responses. This, plus the preliminary observation that PBMC telomerase activity is directly correlated with hippocampal volume (by MRI) in MDD, support emerging preclinical data that telomerase has intrinsic neurotrophic and antidepressant effects. Conclusion Telomere shortening in MDD and certain other psychiatric conditions may, at least partially, reflect chronic exposure to inflammation and oxidation. As such, it may be a bellwether of increased medical risk, or it may play a more direct causal role in accelerated aging. The interplay of telomere integrity and telomerase activity may be an important determinant of psychiatric and medical outcome. Overall, the data are consistent with the view that MDD and certain other psychiatric illnesses have systemic manifestations beyond the brain and call into question the dichotomy of “mental” vs. “physical” illnesses., Rationale/statement of the problem Chronic stressors across the life course predict accelerated pathogenesis of diseases of aging and early mortality. Telomere length, the DNA-based biomarker indicating cellular aging, is a mechanism of disease development, and shortens in a dose response fashion by duration and severity of life stressor exposures. Telomere length provides an important window in understanding a life span model of the accumulation of stress on aging. Self-reported perceived chronic stress and exposure to stressful life experiences during childhood and adulthood are related to short telomeres. While the expectation that the accumulation of life stress leads to cellular senescence, most studies indicate cross-sectional associations between life stressors and telomere length. Findings suggesting longitudinal associations between life stressors and telomere shortening are best represented in studies associating self-reported early childhood traumatic experiences with short telomeres in adulthood. Adults reporting moderate-to-severe childhood maltreatment and stressful experiences, such as divorce and parental separation, are more likely to have significantly shorter telomeres than those reporting no childhood maltreatment. To date, only one study has prospectively demonstrated associations between traumatic experiences and telomere shortening. Five-year-old children exposed to two or more traumatic stressors, including maternal domestic violence, frequent bullying victimization and physical maltreatment by an adult, have shorter telomeres at age 10 compared with children exposed to less or no violent stressors. No studies, however, indicate prospective effects of adulthood stressors on telomere shortening over time. Perhaps, as we suggest elsewhere, chronic stressor effects on biological pathways are rarely main effects, but rather an intricate interplay between life adversity and resiliency factors. Our work, and that of others, is increasing our understanding of how psychological stress resilience, social connections, and lifestyle may moderate relationships between life stressors and health. Here, we present evidence from two studies that support our proposed model that behavioral and psychosocial resiliency can buffer the effects of stress on telomere length, both cross-sectionally and prospectively. Cross-sectionally, we tested whether multisystem resiliency – defined as a composite of healthy emotion regulation, strong social connections, and being physically active – mitigates previously demonstrated associations between concurrent depression diagnosis and telomere length. We found support for this model, which will be presented. In a second study we examined how a lifestyle composite might buffer stress-induced telomere shortening prospectively. Methods Two hundred sixty-one non-smoking women between the ages of 50 and 65 were recruited for a prospective study on telomere length change over the course of the year. Leukocyte telomere length (LTL) was assayed at baseline and 12-month follow-up. Perceived stress, typical dietary practices, sleep quality, and exercise levels were self-reported at baseline, 4 months, 8 months, and 12 month follow-up. Seventeen questions about life events that may have occurred in the previous year were asked at follow-up, including events such as divorce, death of a family member, and job loss. Health events were not included as they may confound effects of stressors on telomere biology. Women with histories of cancer, who were premenopausal, or did not have complete self-report data were excluded from these analyses, leaving a final sample of 196 women. Results Results indicated that perceived stress at baseline, perceived stress accumulated over the year, or accumulation of stressors over the year were unrelated to 12-month LTL, covarying baseline telomere length, age, BMI, and income level. However, findings do suggest significant interactions between markers of stress and a healthy lifestyle over the year composed of healthy dietary practices, sleep quality, and exercising. For those at one standard deviation below mean healthy lifestyle, baseline perceived stress (b=−8.51, SE=4.05, p=.04) and accumulation of life stressors over the year (b=−34.51, SE=15.21, p=.02), were significantly associated with shorter LTL at follow-up, covarying baseline telomere length, age, BMI, and income level. On the contrary, at one standard deviation above the mean of healthy lifestyle, stress markers were unrelated to telomere shortening over the year. Conclusion In summary, healthy lifestyle factors and psychosocial resiliency may interrupt a cascade of harmful effects that accelerate cellular aging, diminishing the impact that chronic psychological or objective life stress has on health. From conception to death, we are exposed to stressors. And while stressors may shape the manifestation of resiliency factors, leading to an interrelated cluster, our work suggests that psychosocial resources and lifestyle factors can add up to multisystem resiliency, providing increasing cellular buffering from life stress. Without attending to such interactions, stress effects are often masked and missed., Rationale/statement of the problem Obesity is associated with increased symptoms of anxiety and depression. We hypothesised that severe obesity in pregnancy would be associated with adverse psychological health, with effects on gestational weight gain (GWG) and baby birthweight (BWT). We aimed to study mood and birth outcomes among participants in a longitudinal study of severe obesity in pregnancy. Methods In this study, 140 severely obese (body mass index [BMI] (mean (SD)) 44.1 (4.1) kg/m2) and 96 lean (BMI 22.6 (1.6) kg/m2) pregnant women were recruited. Ethical approval and written, informed consent were obtained. Obese women were advised about healthy eating and weight maintenance. Serial weights were recorded and GWG calculated between 16 and 36 weeks’ gestation. Women were asked to complete validated questionnaires to assess mood, including ‘satisfaction with life’, Hospital Anxiety and Depression Scale (HADS) and Spielberger State and Trait Anxiety in early (12–20 weeks’ gestation) and late pregnancy (28–32 weeks’ gestation). Term BWT (>37 weeks’ gestation) was recorded (n=234). Results Obese women were significantly less satisfied with life than lean women and had higher HADS depression and anxiety scores, and state and trait anxiety scores at both time points (all p, Rationale/statement of the problem Although heritability is an important factor related to the onset of psychotic disorders, environmental factors also play a role. Early-life stress, which includes both prenatal stressful exposures and childhood maltreatment, has been suggested to have an impact on the developing brain. Cognitive alterations in schizophrenia and psychotic disorders have been described in several neuropsychological domains: attention, memory (verbal, visual and working memory), processing speed, reasoning and social cognition. Recent studies suggest that the hypothalamic–pituitary–adrenal (HPA) axis modulates cognitive functioning in patients with psychosis but that this association does not seem to be related to increased exposure to stressful events. We aimed to study whether early-life stress and the HPA axis are associated with a poorer cognitive performance in subjects with a psychotic disorder. Methods We studied 46 subjects with an early psychosis (aged 18–35 years), who were attending the Early Psychosis Program from Reus (HPU Institut Pere Mata, Spain). These subjects included three clinical populations: (1) first episode of psychosis (FEP, N=17); (2) critical period (CP, defined as a psychotic disorder >1 year of duration of illness, N=17); and (3) ultra high risk (UHR, subjects with prodromal psychotic symptoms, N=12). All subjects were assessed using a structured clinical interview (Schedules for Clinical Assessment in Neuropsychiatry and Comprehensive Assessment of at Risk Mental States) to obtain a clinical diagnosis. Obstetric history and perinatal stress were assessed retrospectively by parental recall, usually from the mother. Childhood maltreatment was assessed with the Childhood Trauma Questionnaire. The MATRICS Consensus Cognitive Battery was administered to explore neuropsychological functioning in seven domains: attention/vigilance, speed of processing, working memory, verbal learning, visual learning, reasoning and problem solving, and social cognition. This cognitive battery gives T-scores corrected for age, sex and education level. Salivary samples at different times were obtained to determine cortisol levels. Three samples were obtained the same day of the neuropsychological assessment (before, during and after the battery). The area under the curve during these three assessments was calculated. Participants were also asked to collect salivary samples on a different day at home, on waking, 30’ post-waking, 60’ post-waking, 10.00 h, 23.00 h and at 10.00 h post-administration of 0.25 mg of dexamethasone the prior evening. The cortisol awakening response was calculated. Statistical analyses were performed with SPSS v.19.0. Spearman correlation was used to explore the association between CTQ scores, cortisol measures and cognitive domains. Wilcoxon test was used to compare ordinal and continuous data between groups. A p value, Rationale/statement of the problem Increasing evidence suggests exposure to adverse conditions in intrauterine life may increase the risk of developing attention-deficit/hyperactivity disorder (ADHD) in childhood. High maternal pre-pregnancy body mass index (BMI) has been shown to predict child ADHD symptoms; however, the neurocognitive processes underlying this relationship are not known. The aim of the present study was to test the hypothesis that this association is mediated by alterations in child executive function and cortical development. Methods A population-based cohort of 174 children (mean age=7.3±0.9 (SD) years, 55% girls) was evaluated for ADHD symptoms, using the Child Behavior Checklist, and for neurocognitive function, using the Go/No-go Task. This cohort had been followed prospectively from early gestation and birth through infancy and childhood with serial measures of maternal and child prenatal and postnatal factors. In 108 children, a structural MRI scan was acquired and the association between maternal obesity and child cortical thickness was investigated using Freesurfer software. Results Maternal pre-pregnancy BMI was a significant predictor of child ADHD symptoms (F (1,158)=4.80, p=0.03) and of child performance on the Go/No-go Task (F (1,157)=8.37, p=0.004) after controlling for key potential confounding variables. A test of the mediation model revealed that the association between higher maternal pre-pregnancy BMI and child ADHD symptoms was mediated by impaired executive function (inefficient/less attentive processing; Sobel test: t=2.39 (±0.002, SEM); p=0.02). Interestingly, after controlling for key potential confounding variables pre-pregnancy obesity was furthermore associated with region-specific thinner cortices, including regions previously reported to be thinner in children with ADHD, like the prefrontal cortex. Conclusion To the best of our knowledge, this is the first study to report the neurocognitive underpinnings of maternal pre-pregnancy BMI-related effects on child ADHD risk. These results add further evidence to the growing awareness that neurodevelopmental disorders such as ADHD may have their foundations very early in life., Rationale/statement of the problem Scientific evidence indicating that excessive stress during human pregnancy can have long-lasting effects on mother and child is increasing. But the underlying biological mechanisms remain elusive. Recent findings suggest a key role of the hypothalamic–pituitary–adrenal axis and the placental enzyme 11β-hydroxysteroid dehydrogenase Type 2 (11β-HSD2). This enzyme inactivates cortisol (F) to cortisone (E), thereby protecting the foetus from maternal F overexposure. Studies on pregnant rats show that placental 11β-HSD2 is up-regulated following acute maternal stress but impaired after chronic stress. Whether a similar mechanism exists in humans is unclear. Therefore, we investigated the acute stress response of salivary F (SalF) in second-trimester pregnant women undergoing amniocentesis and compared this response with amniotic fluid F, E, and the E/(E+F) ratio as an index of placental 11β-HSD2 activity. Since 11β-HSD2 is also present in the adult salivary glands, we determined salivary E (SalE) and the SalE/(SalE+SalF) ratio, as a marker for salivary 11β-HSD2 activity as well and examined the association of these parameters with the amniotic fluid markers of stress. Methods Repeated saliva samples and an aliquot of amniotic fluid were collected from 34 healthy pregnant women (mean age=37.5, SD=3.9 years) undergoing amniocentesis for karyotyping. Changes in stress perception and state anxiety were monitored using questionnaires. Participants were re-invited for a control condition after receiving the inconspicuous test results of the amniocentesis. Results Compared to the control condition, the pregnant participants showed significant increases in psychological distress during the amniocentesis. SalF and SalE increased correspondingly while SalE/(SalE+SalF) decreased. SalF correlated positively with amniotic fluid E (r=.38, p=.048), and a stronger decrease in SalE/(SalE+SalF) was associated with increased amniotic fluid E/(E+F) (r=.44, p=.02). Conclusions The present results further our understanding of the maternal–foetal stress response considerably and suggest that during acute stress, maternal F is converted to E within the foeto-placental unit. This is most probably due to the activity of placental 11β-HSD2. Further investigation of the influence of chronic stress on the enzyme activity is essential., Rationale/statement of the problem Lower socioeconomic position is associated with increased risk of morbidity and premature mortality from physical and mental disorders and confers similar “transgenerational” consequences on the offspring. The effects on the offspring appear initiated prenatally as lower socioeconomic position also increases risk of prematurity and small/large body size at birth. The biological mechanisms remain, however, elusive. We hypothesized that fetoplacental stress (glucocorticoid) hormone exposure might mediate the link, as we have found in first and second generation exposures to glucocorticoids in rodent pregnancy. We therefore examined associations between socioeconomic position and placental expression of placental genes involved in glucocorticoid exposure and transfer between the mother and fetus. Methods Biopsies of placental tissue were obtained from 62 healthy (mothers age 32.2±[SD] years), singleton, term pregnancies (37–42 gestational weeks) a maximum of 90 min after (vaginal or caesarian) delivery, snap frozen in liquid nitrogen, and stored at −80°C. Placental mRNAs encoding glucocorticoid receptor (GR) and 11-beta hydroxysteroid dehydrogenase 1 (HSD1) and 2 (HSD2), which regenerate and inactivate glucocorticoids respectively, were determined by real-time PCR. Level of education and occupational status of the mother, indices of socioeconomic position, were obtained from hospital birth records. Results Placental GR and HSD1 mRNAs increased with decreasing maternal education (unadjusted p values for linear trend=0.04 and 0.02, respectively; p values adjusted for maternal age at delivery, fetal birth weight, and length of gestation=0.08 and 0.02, respectively). Mothers with secondary education (n=23) had 52.9% (95% CI=6.2 to 99.6, p=0.03, adjusted p=0.04) higher placental GR mRNA and 81.9% (95% CI=6.9 to 156.9, p=0.03, adjusted p=0.03) higher HSD1 mRNA compared with mothers with tertiary education (n=39). The associations were similar with occupational status. Level of education and occupational status of the mothers were not associated with placental HSD2 mRNA (unadjusted/adjusted p-values>0.58). Conclusions Lower socioeconomic position is associated with higher placental GR and HSD1 gene expression. This combination will both regenerate active glucocorticoids in placenta (with potential impact locally in placental cells and by spill-over on the fetus) and increase placental sensitivity to glucocorticoids. By analogy with preclinical mechanistic studies, this may have immediate offspring and transgenerational effects on cardiometabolic and neuropsychiatric risk but adds placental glucocorticoid sensitivity and regeneration as novel processes involved., Rationale In previous research, we found that flattened diurnal cortisol predicted early mortality with breast cancer, independent of other known risk factors, and this has since been confirmed among patients with lung cancer. In that study, loss of diurnal variation in cortisol was associated with self-reported awakenings during the night, implying an interaction with sleep disruption. This suggested that objective measures of sleep would clarify the relationship between disruption of circadian cortisol rhythms and sleep disturbance. Methods Here we recruited 101 women with metastatic breast cancer and 16 age- and socioeconomic status-matched controls. We measured sleep using full electroencephalographic (EEG), electro-oculographic, and electromyographic recordings in the clinical research center, where we were also able to draw blood samples throughout the night using a long IV line through a hole in the wall. Sleep measures were confirmed with two nights of home EEG recordings and 2 weeks of actigraphy. Results Among 63 for whom complete cortisol and sleep data are now available, we observed a phase shift in the relationship between the peak of cortisol and wake time such that patients woke earlier than their cortisol peak. Controls woke on average 1 h 20 min before the cortisol peak, whereas patients woke 1 h 54 min before. This control–patient difference was not statistically significant. However, among all subjects, there was a significant .38 correlation between diurnal cortisol slope and time from waking to the cortisol peak, such that those who woke earlier in relation to the cortisol peak had flatter cortisol slopes. Among the patients alone, the correlation was .43. This suggests that flattening of diurnal cortisol is associated with early morning waking. In the sample of 101, we found a relationship between misalignment of preferred and actual bedtimes and disease-free interval (DFI), the time from initial breast cancer diagnosis to date of metastasis. Shorter DFI is a strong predictor of reduced survival time. Going to bed earlier or later than preferred bedtime was associated with shorter DFIs, compared with aligned bedtime (HR=3.25, 95%CI=1.17–8.98, p=.023, and HR=3.55, 95%CI=1.33–9.45, p=.011, respectively). Mean DFI was 92.1 months (preferred), 39.8 months (earlier than preferred), and 54.1 months (later than preferred; Log Rank p=.002). Conclusions Thus waking ahead of the normal morning cortisol peak was related to flatter diurnal cortisol, and misalignment of preferred and actual sleep times was also associated with poor prognosis., Background Sleep disturbances are among the most common symptoms of posttraumatic stress disorder (PTSD). There is growing evidence that sleep fragmentation and short sleep duration are risk factors for hyperlipidemia, diabetes, obesity, and other risk factors for vascular disease. No work has examined the association of sleep with lipid metabolism in PTSD. Methods A cross-sectional 2×2 design (PTSD/control × male/female) included medication-free, nonobese, medically healthy subjects. The sample was comprised of 42 individuals with current chronic PTSD (52% female; M age=30.81, SD=6.55) and 45 age-and gender-matched controls without PTSD (51% female; M age=30.04, SD=8.07), ranging in age from 20 to 50 years. Sleep was monitored by diary for 1 week, and ambulatory polysomnography was performed over three nights on a research inpatient unit. Morning fasting lipids and adiponectin were measured after the second night of sleep. Results PTSD subjects had significantly elevated total cholesterol, very-low-density lipoprotein (VLDL) cholesterol, and triglycerides relative to controls (all p's, Rationale The peak number of protective immune cells measured in the blood at the zenith of their diurnal rhythm is a measure of their overall capacity for immunoprotection. Rhythmic diurnal changes in blood immune cell numbers reflect a redistribution of cells from the blood to other body compartments, and back into the blood. This redistribution may be critical for leukocyte maintenance and for the surveillance and effector functions of the immune system. Methods We investigated diurnal changes in absolute numbers of NK cells in patients with metastatic breast cancer (MBC) (n=48) and controls (n=19). Sleep quality was measured by home actigraphy. Leukocyte differentials were combined with flow cytometry to calculate NK cell numbers in whole blood samples obtained every 4h, starting 12 h (T1) after the midpoint of sleep on day 1 and ending 12 h (T7) after the midpoint of sleep on day 2. Results In agreement with the literature, control subjects showed peak blood NK cell numbers at T1, with a decrease to their diurnal trough at around the sleep midpoint (T4), followed by a return to diurnal peak numbers 12 h later. Compared to controls, patients with MBC showed significantly lower peak NK cell numbers (p=0.039), suggesting an overall decrease in NK-cell-mediated immunoprotection for patients. Interestingly, among patients, higher peak NK cell numbers were associated with a longer disease-free interval (p=0.036) and higher Karnofsky Performance Rating (p=0.083, trend), collectively indicating an association between higher peak NK cell numbers and better health and functional status. Compared to controls, patients with MBC also showed a smaller peak to trough decrease (p=0.006) that suggests reduced diurnal NK cell redistribution among different immune compartments which could also decrease immunoprotection. We further investigated the relationship between sleep disruption and damped NK cell rhythms in MBC patients. Higher average wake time after sleep onset was associated with a smaller peak to trough decrease (R=−0.38, p=0.006). The average number of awakenings was also associated with a smaller peak to trough decrease (R=−0.36, p=0.014). In contrast, average sleep efficiency was associated with a larger peak to trough decrease (R=−0.40, p=0.005), indicating a positive association between better sleep and a healthier diurnal NK cell rhythm. Conclusion These results suggest that patients with MBC have reduced NK-cell-mediated immunoprotection compared to controls and that among patients, higher NK cell numbers are related to longer disease-free interval and better Karnofsky status. Patients with MBC also show decreased diurnal NK cell redistribution compared to controls, and among patients, reduced diurnal NK cell redistribution is associated with increased sleep disruption., Background Joint stiffness in rheumatoid arthritis (RA) is worse in the morning and has been associated with increased secretion of the pro-inflammatory cytokine IL-6 and with decreased secretion of cortisol, suggesting that clinical symptoms may be related to hormonal and immune circadian variations. We measured 24-h blood profiles of IL-6 and cortisol in patients with RA to determine any changes in IL-6 and cortisol following a 2-week course of prednisone administered orally in a specially designed timed-release tablet (TRT). Methods Nine patients with active RA were clinically assessed and had 24-h blood sampling before and after a 2-week course of TRT prednisone (5 mg per day). Patients took the TRT orally at 2200 h, and the prednisone was released at 0200 h. Changes in circadian variation in cortisol and IL-6 and clinical measures were compared using random coefficient regression modelling and Wilcoxon matched-pairs signed-rank test. Results IL-1ra, IL-1β, IL-4 and TNF showed no circadian variation prior to TRT prednisone. Significant alterations in circadian profiles and concentrations of IL-6 and cortisol were observed following TRT prednisone. The peak value of IL-6 fell from 42.5 to 21.3 pg/ml and occurred earlier (0134 h compared to 0827 h) (p < 0.005). Following TRT prednisone, the peak value of cortisol increased from 14.1 to 19.3 µg/dl, and the trough fell from 2.9 to 2.1 µg/dl (p < 0.001). There was a close correlation between reduction of IL-6 and improvement in morning joint stiffness following TRT. Conclusions These experiments cast new light on circadian patterns of cytokines and hormones in a chronic inflammatory disease. We propose that these changes in IL-6 and cortisol, prior to the onset of morning joint stiffness, are functionally important in mediating the improvement in joint stiffness following prednisone in patients with RA., Background Using a well-established non-human primate model of anxious temperament (AT) we characterized alterations in the neural circuit that underlie the dispositional risk to develop anxiety and depression. Genetic variation encoding the CRHR1 and CRHR2 receptors was determined to examine the extent to which putative functional variants in the expression of these receptors may contribute to the expression of the risk phenotype as well as its underlying neural substrate. In a subset of monkeys, we sampled tissue from the central nucleus of the amygdala (Ce) to quantitate mRNA expression patterns. Methods In a large cohort of young rhesus monkeys (n>300), all part of a multigenerational family pedigree, we characterized AT with threat-related behavioral and cortisol measures and its underlying neural circuit with FDG-PET. In all animals, all exons from these genes were sequenced and SNPs with potential functional significance were tested for their relation to AT and brain metabolism in regions underlying AT. Rhesus Affymetrix microarrays were used to determine Ce gene expression patterns. Results Regarding CRHR1, we found that SNPs affecting exon 6 of CRHR1 influence both AT and metabolic activity in the anterior hippocampus and Ce. Data will also be presented regarding variation in CRHR2 in relation to AT, cortisol, and underlying brain function. Gene expression data from the Ce demonstrated alterations in diverse systems, including neuroplasticity. Conclusions These data suggest that genetic variation in CRHR1 and CRHR2 affects the risk for anxiety and affective disorders by influencing the function of the neural circuit underlying AT, and that differences in gene expression or the protein sequence involving CRHR1 exon 6 may be important. Exon 6 is of particular interest because its expression in primates is very different than that in non-primate species. In addition, Ce mRNA data implicate neuroplasticity systems in the development and maintenance of AT. These data suggest novel treatment approaches for early life interventions with the potential to decrease the risk of children with AT to develop anxiety and depressive disorders., Rationale Abnormalities of hypothalamic–pituitary–adrenal (HPA) axis in depression and suicide are among the most consistent findings in biological psychiatry. However, the specific molecular mechanism associated with HPA axis abnormality in the brain of depressed or suicidal subjects is not clear. It is believed that abnormal HPA axis is caused by increased levels of corticotropin-releasing factor (CRF) and decreased levels of glucocorticoid receptor (GR) in the brain of depressed or suicide subjects. To study their role in teenage suicide, we determined the protein and gene expression of CRF, CRF receptors, and GR in the prefrontal cortex (PFC), hippocampus, and amygdala of teenage suicide victims and teenage normal control subjects. Methods The postmortem brain samples were obtained from the Maryland Brain Collection at the Maryland Psychiatric Research Center, Baltimore, MD, USA. Samples were obtained from 24 teenage suicide victims and 24 normal teenage control subjects. Psychological autopsy was performed and the subjects were diagnosed according to the DSM-IV (SCID). Protein expression was determined using Western blot and gene expression (mRNA) was determined using real-time RT-polymerase chain reaction (qPCR) technique. Results We observed that the protein and gene expression of the CRF was significantly increased in the PFC (Brodmann area 9) and in amygdala, but not in the hippocampus, of teenage suicide victims compared with normal control subjects. The protein and gene expression of CRF-R1 was significantly decreased in the PFC and amygdala, but not in the hippocampus, of suicide victims. We also observed a significant decrease in the protein and mRNA expression of GR in the PFC and amygdala, but not in the hippocampus, of teenage suicide victims compared with control subjects. Conclusion These results thus indicate that suicidal behavior is associated with increased CRF and decreased GR in certain specific areas of the brain of suicide victims compared with controls., Background Hypothalamic-pituitary-adrenal (HPA) axis activity remains a major focus for the study of the pathophysiology of anxiety and depressive disorders. Recent developments in genetics allow for potential new avenues for assessing risk and for developing new treatments. We will address recent studies on genetics of HPA axis dysregulation in a preclinical model of anxiety/depression, the brains of suicide victims, and severely ill delusional and nondelusional depressives. Last, the development of new glucocorticoid receptor (GR) antagonists that may prove useful as therapeutics in major psychiatric disorders is reviewed. Methods Ned Kalin will first present data on a stress model of anxiety/depression in rhesus monkeys. Over 400 monkeys were characterized on behavior and positron emission tomography imaging in response to an intruder and were genotyped for alleles for both corticotropin-releasing hormone receptors (CRH-R1 and CRH-R2). Shyam Pandey will report on gene expression for CRH-R1, CRH-R2, GR, and the mineralocorticoid receptor (MR) in multiple brain regions of adolescents who committed suicide and in matched controls who did not. In a sample of 122 subjects, Alan Schatzberg will present data on genetic variation differences in GR and CRH-R1 between severely depressed patients (delusional and nondelusional) and healthy controls as well as on the relationship of CRH and GR alleles to mean cortisol activity collected hourly from 6 PM to 1 AM as well as from 1 AM to 9 AM. Finally, Joseph Belanoff of Corcept Therapeutics will discuss the application of medicinal stereochemistry in the development of GR antagonists with greater GR specificity and organ selectivity than those currently available. Results Associations between allelic variations in HPA axis genes and behavior were observed for CRH-R1 and CRH-R2 alleles in the rhesus monkey. Decreased message expression for GR and CRH-R1 was observed in key brain regions in suicide victims. Allelic variation for CRH_R1 and GR was associated with risk for severe depression and psychosis, and GR alleles were associated with elevated cortisol levels. A number of nonsteroidal GR antagonists have been synthesized and are active in various animal models. Conclusions HPA axis remains a potential source of diagnostic tests and innovative treatment., Background Major depressive disorder (MDD) and panic disorder (PD) are common and disabling medical disorders with stress and genetic components. Dysregulation of the stress response of the hypothalamic–pituitary–adrenal axis, including the corticotrophin-releasing hormone (CRH) signaling via primary receptors (CRHR1 and CRHR2), is considered to play a major role for onset and recurrence in MDD and PD. Methods To confirm the association of CRHR1 and CRHR2 with MDD and PD, we investigated 12 single nucleotide polymorphisms (SNPs) in MDD patients (n=173), PD patients (n=180) and healthy controls (n=285). Results The SNP rs110402 and rs242924 in the CRHR1 gene and the rs3779250 in the CRHR2 gene were associated with MDD. The SNP rs242924 in the CRHR1 gene was also associated with PD. The T-A-T-G-G haplotype consisting of rs7209436 and rs173365 in CRHR1 was positively associated with MDD. The T-A haplotype consisting of rs7209436 and rs110402 in CRHR1 was positively associated with MDD. The C-C haplotype consisting of rs4722999 and rs37790 in CRHR1 was associated with PD. Conclusion These results provide support for an association of CRHR1 and CRHR2 with MDD and PD., Background/Methods Mifepristone, a potent glucocorticoid receptor (GR) and progesterone receptor (PR) antagonist, has recently become the first medication approved for the treatment of Cushing's syndrome, the archetypal illness of cortisol excess. Mifepristone is also being studied for the treatment of psychotic depression in a Phase 3 study and in numerous academic studies on diseases in which GR antagonism is thought to be potentially useful. In all cases, mifepristone utility is generated by its ability to block GR and its antagonism of PR is either irrelevant or troublesome. A selective GR antagonist may confer the same benefits of mifepristone while removing an important liability. Results Data are provided from animal and human studies of mifepristone and animal studies of novel, selective GR antagonists in metabolic and psychiatric diseases. Conclusions Pre-clinical studies indicate that selective GR antagonists may potentially have the same clinical utility as mifepristone in blocking cortisol while eliminating the unwanted effects of progesterone blockade., Rationale Generalized avoidance belongs to the core symptoms of a variety of anxiety disorders such as panic disorder or posttraumatic stress disorder. However, therapy for avoidance behavior still bears many obstacles. Even though exposure-based approaches are the method of choice, they suffer from inferior patient compliance. This can be ascribed to patients’ inability to stand the high emotional load experienced during the therapeutic sessions. The situation could be much improved if (1) learning about the safety of a feared situation could be enforced, while (2) the negative effect inherent to the exposure is decreased. This would allow for the number/duration of the exposure sessions to be restricted to a minimum, and at the same time, the emotional load of the therapeutic sessions could be dampened, with direct consequences on compliance rates. So far, however, most of the treatments with anxiolytic capabilities (e.g., benzodiazepines) lead to state-dependency or amnesia, with the consequence that safety learning is attenuated, if not completely blocked. Methods The role of the endocannabinoid system in fear relief and safety learning was investigated in numerous animal studies employing pharmacological and genetic approaches. Behavioral experiments involved classical fear conditioning and inhibitory avoidance learning, followed by extinction training and safety learning. Mice were treated with the CB1 receptor antagonist/inverse agonist SR141716 (3 mg/kg) or the endocannabinoid uptake/degradation inhibitor AM404 (3 mg/kg). Parts of the experiments were performed with conventional and conditional mice lacking expression of CB1 receptors either in the entire brain or in distinct neuronal populations. Results Our studies revealed the following key findings: (1) Endocannabinoids play an essential role in acute fear relief, once the averseness of the test situation exceeded a certain threshold. (2) These effects are mediated via CB1 on glutamatergic nerve terminals. (3) The capacity of the endocannabinoid system is limited in highly aversive situations but can be reestablished by blocking of endocannabinoid uptake/degradation. (4) At the same time, signaling via CB1 on dopamine D1 receptor positive neurons contributes not only to acute fear relief but also to safety learning in an inhibitory avoidance task. (5) The efficiency of safety learning in this task can be improved and the risk of relapse of avoidance behavior can be reduced by pharmacological enhancement of endocannabinoid signaling. Conclusion Drugs promoting endocannabinoid signaling via CB1 receptors may represent a new class of compounds that combine the advantages of “happy pills” (in terms of fear and stress relief) with those of “smart drugs” (i.e., facilitated safety learning), thus increasing compliance rates and success of exposure-based therapies in anxiety disorders., Rationale Endocannabinoids have been shown to be important for the regulation of multiple aspects of the stress response, although the neural circuits underlying this phenomenon are not well characterized. The amygdala is rich in cannabinoid receptors and endocannabinoid content and is well seated to integrate the role of endocannabinoid signaling to the regulation of the stress response. This series of studies sought to determine the roles of the endocannabinoids anandamide (AEA) and 2-arachidonoylglycerol (2-AG) in the amygdala with respect to both activation and adaptation of the stress response. Methods For the first two experiments, male Sprague-Dawley rats were employed. For acute activation of the stress response, a 30 min exposure to restraint stress was employed, while 9 days of 30 min restraint was employed to examine adaptation of the stress response. In the third study, C57Bl/6 mice (both wild type and those deficient in the AEA degrading enzyme fatty acid amide hydrolase, FAAH) were employed. Results Exposure to acute restraint stress increased the hydrolytic activity of FAAH and decreased AEA content within the amygdala. Local administration of a FAAH inhibitor (10 ng) into the basolateral amygdala (BLA) reduced stress-induced corticosterone secretion, indicating that a FAAH-mediated loss of AEA signaling in the BLA contributes to activation of the stress response. Following 9 days of repeated restraint, the corticosterone response to stress habituated, and this adaptive response was reversed by local administration of AM251 (1 µg), a CB1 receptor antagonist, into the BLA. Consistent with this, repeated restraint stress caused an increase in 2-AG content within the amygdala, indicating that a recruitment of amygdalar 2-AG signaling is required for stress adaptation. Chronic stress exposure caused an increase in FAAH activity and a reduction in AEA content within the amygdala. FAAH deficient mice did not exhibit this reduction in AEA content and were similarly protected against the ability of chronic stress to cause dendritic expansion and spine growth within the BLA, as well as heightened indices of anxiety. Conclusion These findings indicate that AEA and 2-AG signaling at the CB1 receptor within the amygdala both serve to inhibit activation of the stress response. AEA appears to serve more of a tonic, gatekeeper role, the loss of which promotes activation of the stress response. Prevention of this loss of AEA signaling, through a blockade of FAAH activity, is capable of dampening the effects of acute and chronic stress. On the other hand, 2-AG signaling is recruited by repeated restraint stress to promote habituation and adaptation of the stress response. As such, a ying-yang model exists within the amygdala with the two endocannabinoid ligands serving different roles to regulate the stress response., Rationale There is extensive evidence that glucocorticoid hormones impair the retrieval of memory of emotionally arousing experiences. Although it is known that glucocorticoid effects on memory retrieval impairment depend on rapid interactions with arousal-induced noradrenergic activity, the neurobiological mechanism underlying this presumably nongenomically mediated glucocorticoid action remains to be elucidated. Here, we show that the hippocampal endocannabinoid system, a rapidly activated retrograde messenger system, is involved in mediating glucocorticoid effects on retrieval of contextual fear memory. Methods For all three experiments, male Sprague-Dawley rats were trained on a hippocampus-dependent contextual fear-conditioning (CFC) task and retention was tested 24 h later. All drugs were administered 60 min before retention testing. Results Systemic injections of corticosterone (3.0 mg/kg) impaired memory retrieval of CFC training (P < 0.05) whereas lower doses (0.3 or 1.0 mg/kg) were ineffective. The retrieval-impairing dose of corticosterone significantly increased hippocampal levels of the endocannabinoid 2-arachidonoylglycerol (2-AG) (p, Rationale The endocannabinoid system has been shown to be an important regulator of the stress response and adaptation to stressful situations and environments in animals. Little is known, however, about the role of this system in acutely and chronically stressed humans. Methods We developed an HPLC-MS-MS-based method to measure plasma concentrations of the ECs anandamide (ANA), 2-arachidonoylglycerol (2-AG), the N-acyl-ethanolamides palmitoylethanolamide (PEA), oleoylethanolamide (OEA), stearoylethanolamine (SEA), and N-oleoyldopamine (OLDA), determined leucocyte cannabinoid (CB) receptor mRNA and genotyped the CB receptor genes (CB1/CB2) for known single nucleotide polymorphisms in critically ill patients. Results We used these methods in a number of studies in healthy volunteers, critically ill patients, and individuals with PTSD to delineate the relationship between peripheral EC signaling and the intensity of acute and chronic traumatic stress. In a first series of experiments, we exposed healthy volunteers (n=21) to acute kinetic stress during a parabolic flight experiment. Stress-tolerant participants (n=14) showed a significant increase in plasma EC concentrations and unchanged plasma cortisol concentrations whereas highly stressed individuals (n=7) showed an absent EC response, a reduced expression of leukocyte CB1 mRNA, and a massive activation of the hypothalamic-pituitary-adrenal axis. Physical stress in trained and physically fit individuals (n=12) induced by hard exercise during mountaineering or cycling also resulted in elevated EC concentrations, which returned to baseline after termination of the stressful activity. In contrast, chronically stressed individuals with traumatic memories from war and torture experiences with (n=10) and without PTSD (n=18) showed persistent elevations of plasma EC concentrations when compared to non-traumatized controls (n=20). EC plasma levels correlated with scores on the clinician-administered PTSD scale. Analogous findings came from an earlier study in patients with heart disease awaiting cardiac surgery (n=90). In this study, patients with traumatic memories and evidence of PTSD from previous life-threatening experiences associated with cardiac disease (n=57) and evidence of PTSD (n=8) had significantly higher EC plasma concentrations than patients without traumatic memories and PTSD symptoms. Furthermore, a very recent study in patients after cardiac surgery (n=95) found an association between a single nucleotide polymorphisms of the gene encoding the CB2 receptor and the intensity of post-traumatic stress symptoms after surgery. Conclusion These findings point to a possible involvement of the EC system in acutely and chronically stressed humans with traumatic memories and PTSD. Additional studies of EC signaling in PTSD patients before and after therapeutic interventions could lead to novel biomarkers and to further progress in the understanding of PTSD and the multiple biological and behavioral sequelae of this complex disorder., Background Combat-related posttraumatic stress disorder (PTSD) is increasingly recognized as a primary challenge to the fitness of American military personnel and represents a significant military and national public health concern (Hoge et al. 2004; Thomas et al. 2010). A few available drugs (e.g., selective serotonin reuptake inhibitors and serotonin–norepinephrine reuptake inhibitors) provide some benefit in the management of PTSD symptoms and have been approved by the Food and Drug Administration for the treatment of PTSD, but most meta-analytic reviews (Stein et al., 2006) have concluded that the benefits are minimal and there may be relatively less benefit for combat veterans (Friedman et al., 2007). Popular augmentation strategies using second-generation antipsychotic medication were also recently shown to be ineffective in the treatment PTSD (Krystal et al., 2011). Deficits in CB1 receptor–mediated eCB signaling may play a key role in the etiology of PTSD and may mediate important components of the PTSD phenotype. Therefore, we propose to enhance eCB signaling as a novel, evidence-based treatment for PTSD with the potential to prevent both the behavioral (anxiety, impaired extinction) and molecular adaptations to trauma (increased CB1 receptor expression; Suarez et al., 2009) associated with PTSD. Methods Using radioligands and positron emission tomography (PET) imaging on a high-resolution PET scanner, we tested novel models of the etiology of PTSD involving these systems and their associated receptors. Results Four main lines of translational evidence implicate a defect in CB1 receptor–mediated eCB signaling in the pathogenesis of PTSD. In initial experiments, we found that (a) plasma AEA levels are decreased in PTSD patients (0.72±0.12 pmol/ml) relative to healthy control subjects without trauma history (HC 2.74±0.85 pmol/ml, t=2.47, df=17, p=.024) or controls with trauma history (TC 2.67±0.36, t=2.81, df = 10, p=0.018); (b) there are statistically detectable correlations between earlier age at first trauma and lower AEA levels in PTSD (r=0.45, p=0.073) and between magnitude of the decrease with a longer duration of PTSD (r=−0.48, p=0.059); (c) there are elevated [11C]OMAR volume of distribution (V T) levels (corresponding to elevated CB1 receptor density) in the fear circuit in PTSD relative to healthy people. This upregulation develops to compensate for the existing eCB deficit in PTSD and causes impaired fear processing, increased stress sensitivity and anxiety in PTSD as supported by (d) a statistically detectable positive correlation between amygdala [11C]OMAR V T and anxiety symptoms (r=0.56, p=0.09), perceived stress (r=0.57, p=0.018), and abnormal fear processing measured during fear conditioning tests (r=0.69, p=0.003). Conclusions These first data in PTSD provide evidence for abnormal CB1 receptor–mediated endocannabinoid signaling in PTSD and also provide a basis for evidence-based treatment development for this patient population. Inhibition of fatty acid amid hydrolase, the endocannabinoid degrading enzyme, appears to be an attractive candidate for such an undertaking., Rationale/statement of the problem There is an insufficient understanding of the neurobiology of post-traumatic stress disorder (PTSD). Therefore, the development of an animal model of PTSD that takes into account clinical features of the disorder is of value toward enhancing our understanding of the mechanisms, and in the development of novel treatments, of emotional trauma. Methods Adult male rats were administered chronic psychosocial stress composed of two 1-hour periods of inescapable exposure to a cat, in conjunction with daily unstable pair housing, over a 31 day period. The rats were then given a battery of tests, including measures of behavior (anxiety testing, startle response), cognition (predator-based fear memory and new memory testing), hormone levels (basal and evoked glucocorticoids), responses to pharmacological agents (dexamethasone and yohimbine) and cardiovascular activity (blood pressure/heart rate). In addition, we measured epigenetic alterations (methylation) of the brain-derived neurotrophic factor (BDNF) gene. Results Psychosocially stressed rats exhibited a PTSD-like phenotype. The stressed rats exhibited a strong fear-conditioned memory of the two cat exposures, an increase in behavioral signs of anxiety, an exaggerated startle response, increased blood pressure, greater sensitivity to yohimbine and a hippocampus-dependent memory impairment, relative to controls. In addition, stressed rats exhibited reduced basal glucocorticoid levels, greater sensitivity to dexamethasone and hypermethylation of the BDNF gene in the hippocampus. Conclusion These findings demonstrate that intense psychosocial stress produced dramatic changes in physiology and behavior in rats which are comparable to those observed in people diagnosed with PTSD. This rat model, therefore, may enhance our understanding of the mechanisms underlying human trauma and in the development of more effective pharmacotherapy for people with PTSD., Background Context processing imbues appropriate salience to the stimuli that is encountered. This ability enables us to hide from a predator in the wild, but to enjoy a visit to the zoo, although the lion may look the same in both contexts. Failures in contextual processing can lead to inappropriate fear responses rooted in failures to use safety cues, consider internal states, anticipate events, or appraise them properly. Posttraumatic stress disorder (PTSD) is associated with exaggerated fear, unwanted recollection, and inappropriate emotional and social responses. We proposed that PTSD pathophysiology involves deficits in context processing and examined this hypothesis using PTSD animal model and fMRI studies in patients with PTSD. Methods Using validated animal model of PTSD, we examined fear conditioning, fear extinction and context-dependent extinction recall, and fear renewal in single prolonged stress (SPS)-exposed animals. We further examined the relationships between glucocorticoid receptors (GRs) upregulation in SPS, and fear renewal deficits were observed. Using 3T fMRI paradigm, we examined fear conditioning, fear extinction, extinction recall, and fear reinstatement in PTSD patients and trauma-exposed control subjects. Results In humans, we found that fear-conditioning procedures activated fear-associated brain regions, but PTSD patients had similar fMRI activation maps to trauma-exposed controls during fear conditioning and extinction. However, they exhibited decreased responses to contextual signals of safety and danger. In animal work, we found that the SPS-exposed animals exhibited normal levels of conditioning and extinction, but specific deficits in context-dependent extinction recall and fear renewal. In “dismantling” studies, only animals exposed to full SPS and that demonstrated largest upregulation of GR in hippocampus and prefrontal cortex exhibited fear renewal deficits. Conclusions These results demonstrate contextualization deficits in PTSD subjects. PTSD animal model findings mirror those observed in PTSD patients and further implicate specific molecular targets in defined brain regions in contextualization deficits. Together, this set of studies demonstrates the combined power of translational research into trauma psychopathology., Rationale/statement of the problem Animal research has challenged the permanency of memory by suggesting that reactivation (retrieval) of a specific memory may return it to a labile state from which it must be “re-consolidated” if it is to persist. Pharmacologically blocking reconsolidation offers the therapeutic possibility of weakening traumatic memories in post-traumatic stress disorder (PTSD). Methods We have been testing the above hypothesis using systemic drugs approved for human use. In rats we employ classical conditioning consisting of pairing a tone CS with a shock US on Day 1 (acquisition), presenting the tone without shock on Day 2 (reactivation) followed by drug, and then re-presenting the CS alone on Days 3 and 10 (tests). We have also used slice electrophysiology to measure the increase in cortico- and thalamo-lateral amygdala synaptic efficacy as a result of the tone-shock association, and then decrement in this efficacy following reconsolidation blockade. In PTSD subjects, we have administered oral drug along with verbal or written narration of the traumatic event (reactivation) and subsequently measured the strength of the traumatic memory via psychophysiological recording during script-driven imagery, and/or symptom report. Results In animal work, we have found that the antiglucocorticoid receptor mifepristone, the protein synthesis inhibitor rapamycin, and the alpha-2-adrenergic autoreceptor agonist clonidine all block partially reconsolidation of conditioned fear. Clonidine does so in a dose-dependent manner. Additionally, rapamycin reverses the synaptic enhancement described above, providing an underlying physiological basis for reconsolidation blockade. In humans, we have found that traumatic memory reactivation plus double-blind, placebo-controlled propranolol reduce physiologic responding during script-driven imagery, and that six weekly open-label propranolol plus memory reactivation sessions reduce PTSD symptoms to a similar degree as current cognitive behavioral treatments. A double-blind clinical trial is underway. Conclusion The above results show progress toward a clinical application of reconsolidation blockade, but much more needs to be done before efficacy is demonstrated., Background The identification of molecular post-traumatic stress disorder (PTSD) susceptibility pathways associated with different patterns of behavioral response to trauma is essential to an understanding of the neurobiology of PTSD and can pave the design for new treatments. Although several genes have been reported to be differentially expressed in PTSD, methodological constraints have limited the interpretation, for example, variation in the type or magnitude of trauma exposure, inter-individual genetic variation, and tissue specificity of response. Animal models are useful in delineating some of these issues. In this study, we used a unique animal model of PTSD with ecological and population validity. Adult rats were exposed briefly to predator scent stress, which mimics a threatening situation. Rats respond heterogeneously to this type of traumatic stress behaviorally and physiologically, similar to human response variability. In this model, two behavioral extremes can be studied – vulnerable and resistant ‘subtypes’. Methods Sprague-Dawley rats were exposed to the scent of cat urine. The outcome measures included behavior in an elevated plus-maze and the acoustic startle response 7 days after exposure. Cut-off behavioral criteria classified exposed rats according to their behavioral response as those with ‘extreme behavioral response’ and ‘minimal behavioral response’ (MBR), with unexposed rats as controls. From the tissue obtained 24 h after the behavioral tests, basal gene expression using Illumina BeadArrays was evaluated for whole blood and three brain areas: amygdala, anterior cortex and hippocampus. For data quality control and differential expression analysis, we used R and LIMMA (as included in MeV software), respectively. Pathway analysis was performed with ingenuity. Results There was only minimal overlap in gene expression across brain regions and gender demonstrating the existence of distinct tissue-specific susceptibility pathways in male and female rats. Among the differentially expressed genes, the ones regulated by the glucocorticoid receptor (e.g., FKBP5, Per-1, and NPY) were particularly over-represented (especially in blood and hippocampus), indicating that glucocorticoid regulation is involved in vulnerability and resistance to trauma. The observed gene expression profiles may also indicate the over-representation of discrete functional biological clusters and pathways (e.g., MAPK signaling and circadian rhythm). Conclusions Glucocorticoid-related gene expression is underlying the different response pattern following trauma, with distinct regional/structural differences between male and female rats., Rationale/statement of the problem Post-traumatic stress disorder (PTSD) arises from the interaction of genetic and environmental factors. Thus, a better understanding of the molecular etiology of PTSD would be greatly facilitated by the development of animal models that explore gene×environment interaction in the context of traumatic stress. To this end, we have identified a new mouse genetic model for stress vulnerability that may provide novel insight into the neurobiology of PTSD. Our studies focus on mice that are deficient for TIA-1, a prion-related RNA binding protein that regulates the expression of multiple target genes in the mammalian brain. Methods TIA-1 KO mice and wild-type littermates are generated from TIA-1 heterozygous crosses. All behavioral (fear conditioning, open field, elevated-plus maze, forced-swim test) and electrophysiological (hippocampal field recordings) experiments are conducted in accordance with standard protocols. Results Under baseline conditions, TIA-1 KO mice are indistinguishable from wild-type controls in all behavioral and neuroendocrinological measures evaluated thus far. However, several weeks after exposure to contextual fear conditioning, TIA-1 KO mice demonstrate increased anxiety and despair-like behavior, as well as abnormal glucocorticoid production. Moreover, these phenotypes are observed predominantly in female animals. Electrophysiological studies reveal aberrant synaptic plasticity in the ventral hippocampus of knockout animals in response to corticosterone treatment, consistent with a critical role for TIA-1 in normal emotional memory formation in the hippocampus during stress. Finally, molecular data suggest that TIA-1 may regulate alternative splicing of the glucocorticoid receptor, which is known to be important for both hypothalamic–pituitary–adrenal (HPA) axis function and hippocampal synaptic plasticity during stress. Conclusion TIA-1 KO mice recapitulate several key features of chronic PTSD observed in humans. Thus, our studies demonstrate that TIA-1-deficient mice represent a useful model in the study of gene×environment interaction during traumatic stress, and may contribute to our knowledge of the molecular basis of PTSD. Finally, because individuals with PTSD are also susceptible to substance abuse, we, therefore, discuss the utility of TIA-1 knockout mice in the study of PTSD and comorbid substance use disorders., Background Relatively little is known about how lasting qualities of the individual (e.g., traits and/or one's past history) moderate the effects of cortisol on emotional learning. We hypothesized that cortisol would have more pronounced effects on memory formation in individuals who show greater levels of trait negative affect (Trait NA) or who experienced early life separation (ELS). Methods In Study 1, involving 42 healthy adults (22 women), we examined how Trait NA moderated the effects of cortisol administration (IV-administered 0.1 mg/kg/30 min hydrocortisone; CORT) vs. placebo on memory formation for unpleasant and neutral photographs. In a preliminary study (Study 2), in 18 depressed adults (10 women), we examined how ELS (because of parental divorce or permanent separation) moderated the effects of CORT (15 mg orally administered hydrocortisone) vs. placebo on memory formation for positive and negative words. Results In Study 1, we found that in women with higher Trait NA, CORT facilitated memory formation. In women with lower levels of Trait NA, CORT had no effects of memory formation. Study 2 revealed that in depressed women with ELS, CORT facilitated memory formation for negative words. Specifically, CORT (vs. placebo) biased memory in a negative direction by an average of 4.2 (SD=0.73) words in women with ELS. In depressed women without ELS, CORT had no effect on memory formation. In both studies, 1 & 2, effects were less robust in men or trended in the opposite direction, which may represent true sex differences or may be because of confounding factors, such as differences in cortisol elevations for men vs. women. Conclusions In summary, our data suggest that lasting qualities of individuals, such as Trait NA or history of early separation, moderate cortisol's effects on emotional memory. Further investigation into how variation in personal traits and past experiences moderate cortisol's effects on emotional cognition is one important step in elucidating why some individuals are more sensitive than others to the detrimental (e.g., negatively biasing) effects of stress on emotional cognition and memory. These data may also inform research regarding the use of corticosteroid receptor ligands in treatment for psychopathology. Individual differences in affective style or past experiences may predict therapeutic response to corticosteroid receptor ligands., Background Enhanced memory for emotional events is a well-known phenomenon. From an evolutionary perspective, it is an adaptive mechanism, as it helps to remember threatening as well as pleasurable experiences. Stress hormones are important players in the regulation of emotional memory. Specifically, in animals and in humans, glucocorticoids enhance memory consolidation of emotionally arousing experiences but impair memory retrieval. Glucocorticoid actions are partly mediated by glucocorticoid receptors in the hippocampus, amygdala and prefrontal cortex, key brain regions for emotional memory. Here, we investigated whether the BclI polymorphism of the glucocorticoid receptor gene is associated with emotional memory in healthy young subjects. This polymorphism has been previously related to traumatic memories and posttraumatic stress disorder (PTSD) symptoms in patients who underwent heart surgery (Hauer et al., 2011). Methods To assess memory performance, we used a picture-learning task consisting of learning and recalling emotional and neutral photographs on two consecutive days in 841 healthy young subjects. Genotyping of the BclI polymorphism was done with Pyrosequencing on a PyroMark ID System. Results The BclI variant was associated with short-delay recall of emotional pictures: GG-carriers showed increased emotional memory performance as compared to CG- and CC-carriers. We did not find a genotype-dependent difference in recall performance for neutral pictures. Conclusion These findings indicate that the BclI polymorphism contributes to inter-individual differences in emotional memory in healthy young subjects and suggest a genetic link between emotional memory in healthy humans and traumatic memory in patients who underwent cardiac surgery., Background The inability to store fearful memories into their original encoding context may be an important vulnerability factor for developing anxiety disorders like posttraumatic stress disorder (PTSD). Such altered memory contextualization may develop through the effects of the well-known stress hormone cortisol on underlying memory neurocircuitry, rich in corticosteroid receptors. By binding to these receptors, cortisol induces rapid non-genomic effects followed by slower genomic effects that are thought to modulate cognitive function in various ways. Here, we tested these time-dependent effects of cortisol on the contextualization of negative versus neutral memories. Methods In a double blind, placebo-controlled design, 60 men were randomly assigned to one out of three possible groups. 1) In the rapid cortisol group, participants received 10mg hydrocortisone 30 min before completing the “associative imagination task” (AIT), 2) while the slow cortisol group received the drug 240 min before the task. 3) A third group received placebo at both times. During the AIT task, participants were instructed to vividly imagine 30 neutral and 30 negative words in unique background pictures. Approximately, 24 h later, participants completed two surprise memory tests: cued retrieval and recognition. Crucially, to assess memory contextualization, half of the negative and neutral words were tested in intact contexts, whereas the other half of the words were tested in rearranged context combinations. Results Recognition data showed that negative memories were generally less context-bound than neutral memories. Moreover, cortisol exerted time-dependent effects on contextual dependency of negative memories: Cortisol’ rapid effects impaired contextualization, whereas cortisols’ slow effects enhanced negative memory contextualization. In contrast, neutral memory contextualization remained unaltered by cortisol irrespective of the timing of the drug. Conclusions This study shows distinct time-dependent effects of cortisol on the contextualization of negative memories. These results suggest that non-genomic effects of cortisol may underlie impaired memory contextualization observed in PTSD, whereas genomic effects of cortisol may open avenues for cortisol as a protective agent against (traumatic) fear memory generalization., Background Stress and stress hormones (e.g., cortisol) modulate memory processes in both facilitative and deleterious ways, but mechanisms of memory enhancement are not yet fully understood. Specific effects of cortisol may be of particular interest, given its importance in a range of stress-related illness that is associated with cognitive changes. Methods To elucidate potential mechanisms of memory facilitation via pharmacological manipulation; healthy participants underwent functional magnetic resonance imaging after oral-administration of 100 mg of hydrocortisone (N=14) or placebo (N=12). Participants viewed compound pictures consisting of faces superimposed upon buildings. A surprise memory test was administered 24 h later. Results Cortisol at encoding enhanced subsequent memory only for face-building combinations but not for faces or buildings alone. Cortisol increased anterior hippocampal activation and a mediation analysis suggests that cortisol enhancement of conjunctive memory was at least partially mediated through this enhanced hippocampal activity. Cortisol memory enhancement was also associated with increased hippocampal interconnectivity. Conclusions These results support the hypothesis that the hippocampus may be an integral participant in cortisol's memory facilitation effects, with potential implications for psychopathologies like posttraumatic stress disorder, that involve stress-axis, hippocampal, and memory abnormalities., Background The stress hormone cortisol is known to modulate different memory processes. In general, high levels of cortisol increase memory consolidation, especially for emotional material. For a long time, memories were thought to be stable and resistant to changes after their consolidation was completed. However, recent evidence suggests that consolidated memories are subject to modulation upon their recall (reactivation). This suggests that memory reactivation opens a window of opportunity allowing the memory trace to be modulated in a lasting manner. Given that cortisol is an important modulator of memory, we were interested in investigating how it could modulate reactivated memories. Methods In the first study, 32 healthy men and women encoded a slideshow containing neutral and negative segments. Two days later, all participants recalled the slideshow (reactivation) and were randomly assigned to a stressor, the Trier Social Stress Test (TSST) or a control condition. Memory was reassessed immediately after that, as well as 5 days later. For the second study, 33 healthy men were exposed to the slideshow (as described above). Three days later, they were either administered with a placebo or metyrapone (a cortisol synthesis inhibitor). All participants had to recall the slideshow when the medication was active, and 4 days later. The third study assessed the impact of real negative news from the media. Fifty-six healthy men and women who were media consumers were either exposed to real negative news or to real neutral ones. Subsequently, they were all exposed to the TSST and their memory for the news was assessed 24h later. Results Study 1 demonstrated that emotional memory was enhanced following stress and this effect was still observed 5 days later. Study 2 results showed that memory reactivation of the emotional material was lower in the metyrapone group and this deficit was still present 4 days later. Study 3 demonstrated that women who were exposed to real negative news remembered this news more and were more stress reactive to a subsequent stressor. Conclusions Memory is an active process that can be updated upon its reactivation and cortisol can act as a modulator of this process. Results of our studies will be discussed with regards to their relevance to the clinical domain, more particularly for posttraumatic stress disorder., Background Memory functions involve three stages: encoding, consolidation, and retrieval. Modulating effects of glucocorticoids (GCs) have been consistently observed for encoding and retrieval. However, little is known on how GCs affect consolidation. Methods In Study I, after encoding emotional and neutral texts, cortisol or placebo was intravenously infused while participants were either awake (N=16) or napped (N=16). Study II and III investigate the mechanisms underlying the fact that memory retrieval is impaired at very low as well as very high cortisol levels but not at intermediate levels. Using specific receptor antagonists, we examined the role of mineralocorticoid receptors (MRs) and glucocorticoid receptors (GRs) in memory retrieval. Using a double-blind within-subject, cross-over design, participants retrieved emotional and neutral material (learnt 3 days earlier) between 7:45 a.m. and 9:15 a.m. after administration of 400 mg of the MR blocker spironolactone vs. placebo (200 mg at 22:30 p.m. and 200mg at 4 a.m., Study II) or the GR blocker mifepristone vs. placebo (200 mg at 23:00 p.m., Study III). Results In Study I, retention of temporal order within the texts was enhanced when cortisol was infused during the wake phase but impaired when it was infused during sleep. In Study II, blockade of MRs impaired free recall of both texts and pictures, especially for emotional material. In contrast, blockade of GRs resulted in better memory retrieval. Conclusions Study I points toward fundamentally different mechanisms of cortisol on hippocampal memory consolidation, depending on the brain state. Study II and III indicate opposing roles of MRs and GRs in memory retrieval., Rationale/statement of the problem Stressful experiences during early life can remodel brain circuitry underlying behavioral adaptation with consequences for resilience and vulnerability to emotional and cognitive disorders. At least in the rodent this apparent permanent outcome of early adversity can be modulated by maternal influences and depends on the later life environmental context with the stress hormones of the hypothalamus-pituitary-adrenal axis in the driver's seat. A frequently investigated model is the animal that has experienced as pup reduced maternal care. Such a period of early neglect enhances the pup's responsivity to adverse emotional experiences, an effect that can even be detected within families and was found to advance prematurely the development of emotional and fear circuitry. Alternatively, enhanced care is capable of overridingthe lasting impact of neurotoxicity in early life. For instance, the frequently reported adverse effect of early life treatment with dexamethasone (as life-saving treatment of prematurely born infants) is strikingly attenuated by enhanced maternal care induced by daily handling. Methods Dr. Nederhof will review recent animal and human studies supporting the cumulative stress and mismatch hypotheses. Dr. Parker will present behavioral and neuroendocrine data from monkey studies supporting the idea of stress inoculation following early exposure to moderate stressors. Dr. Bagot will address the importance of later-life context when investigating the effects of early-life experience using rats exposed as pups to varying levels of maternal care and ex-vivo electrophysiology. Dr. Vinkers will demonstrate in healthy volunteers a modulation by genotype and gender of the accumulating effects of stress on psychiatric outcome, Rationale/statement of the problem The cumulative stress hypothesis states that aversive experiences early in life predispose individuals to be more vulnerable to aversive challenges later in life. Indeed, adversity has consistently been associated with psychopathology; however, it is neither a determinative nor a sufficient explanation. The mismatch hypothesis provides an alternative explanation; adverse experiences early in life trigger adaptive processes, thereby rendering an individual to be better adapted to adversity later in life. Methods A review of both the animal and human literature on the interaction between early and later adversity and its relation with psychopathology. Results In the animal literature, support for both the cumulative stress hypothesis and the mismatch hypothesis was found. The human literature is characterized by a general paucity of interaction studies. Convincing evidence for individual differences in sensitivity to early programming suggests that both hypotheses might be true but applicable to different individuals. Conclusion The cumulative stress hypothesis is proposed to apply to individuals who were not or only to a small extent programmed by their early environment, the mismatch hypothesis to individuals who experienced strong programming effects., Early exposure to severe stress in childhood increases the incidence of mood and anxiety disorders in adulthood. Far less researched, but of equal importance, is the theory that moderate early stress exposure instead of increasing vulnerability results in subsequent resilience. Variously described as inoculating, immunizing, steeling, or toughening, the notion that moderate postnatal stress exposure strengthens resistance to subsequent stressors has far-reaching implications for understanding the pathogenesis and prevention of stress-related affective disorders. Although the psychobiology of stress-inoculation-induced resilience in humans is largely unknown, new insights have emerged from seven studies of monkeys previously exposed to moderate postnatal stress compared to no-stress control-rearing conditions. Evidence from these studies indicates that early exposure to moderate stressors that temporarily stimulate anxiety and activate the hypothalamic-pituitary-adrenal (HPA) axis leads subsequently to diminished negative arousal, prosocial tendencies, enhanced cognitive control, increased curiosity, larger prefrontal cortical volumes, and attenuated HPA axis activation. In contrast to rodents, rearing differences in the development of neuroendocrine stress resistance in monkeys are more closely related to differences in prior stress exposure than to differences in maternal care. In addition, unlike in rodents, no rearing differences in glucocorticoid feedback sensitivity were observed in monkeys, suggesting that the neural basis of stress resistance in primates may differ from that in rodents. Finally, results from a pharmacological study, which further support the key role of acute early anxiety exposure in promoting the development of subsequent behavioral indications of resilience, will be presented. Findings from these non-human primate studies support the intriguing hypothesis that moderate early stress exposure may likewise provide a pathway to resilience in humans., Rationale Variations in maternal care in the rat associate with robust differences in hippocampal synaptic plasticity and learning in the offspring. In addition, differences in stress reactivity associate with variations in maternal care. However, the potential influence of stress on hippocampal function is often overlooked in studies of effects of early life experience. Previously, we found differential modulation of hippocampal function and plasticity by stress in adult offspring exposed to varying levels of maternal care. N-methyl-D-aspartate receptors (NMDAR) regulate synaptic plasticity, and NMDAR function is modulated by stress and CORT. We hypothesised that altered NMDAR function underlies the interaction of maternal and stress effects on hippocampal synaptic plasticity. Methods We used electrophysiology to examine NMDAR-dependent LTP and NMDAR synaptic function in adult offspring of mothers that varied in the frequency of pup licking/grooming (LG), i.e., High or Low LG. Results Under basal conditions, long-term potentiation (LTP) was impaired in the hippocampal dentate gyrus of Low LG offspring relative to High LG offspring. Synaptic NMDAR function was enhanced in Low LG offspring with no change in α-amino-3-hydroxy-methyl-4-isoxazole propionic acid receptor function (AMPAR). NMDAR antagonism by low concentration APV rescued the basal LTP deficit in Low LG offspring and inhibited LTP in High LG offspring. Stress-level CORT (100nM) rapidly enhanced LTP in offspring of Low LG rats and impaired LTP in offspring of High LG rats. CORT robustly increased NMDAR function in High LG offspring, eliminating the maternal effect. CORT did not affect NMDAR function in Low LG offspring. Thus, Low LG offspring exhibit basally elevated NMDAR function coupled with insensitivity to CORT modulation indicative of a chronic alteration of NMDAR. Conclusion These results suggest that low maternal care exerts a lasting effect on hippocampal plasticity through enhanced function of NMDAR in synapses. The blunted effect of CORT on synaptic NMDAR in Low LG rats could be adaptive in promoting cognitive functioning in challenging conditions, such as the improved contextual fear conditioning previously observed in these rats., Rationale/statement of the problem Stress exposure increases the risk for the development of depression. The leading hypothesis is that stress exposure only increases the risk in individuals combining a vulnerable genetic background with (repeated) stress exposure. However, it is currently unknown which (combination) of stressful life events are the most etiologically relevant to predict depressive symptoms. Preliminary evidence suggests that repeated cumulative stress may have the highest impact. Methods We aimed to determine the effects of repeated stress exposure on depressive symptoms (Beck Depression Inventory) in a cross-sectional sample of healthy subjects (n=563). Repeated stress exposure was operationalized as exposure to three stressors: early life stress (Childhood Trauma Questionnaire), later life stress (Life Stressor Checklist) and daily hassles. Because of the importance of the mineralocorticoid receptor (MR) for HPA axis responsivity, we investigated whether the MR haplotype (rs5522 and rs2070951) modified stress-induced depressive symptoms. For genetic analyses, we divided subjects into a low stress exposure group (0–1 positive stress domains) and high stress exposure group (2–3 positive three stress domains). Gender and cannabis use were included as covariates. Results Childhood trauma, later life stressors, and current daily hassles independently and cumulatively contributed to depressive symptoms (continuous and dichotomized). High cumulative stress exposure was associated with depressive symptoms (p=5.4xe−20). This effect was moderated by the MR haplotype (p=0.009) and was more pronounced in female subjects (p=3.0xe−6). Conclusion Cumulative exposure to three independent stressors contributed to the development of depressive symptoms in a healthy sample. Thus, our data implicate the existence of a multiple hit model in which independent but cumulative stress exposure leads to increased depressive symptoms. Multiple assessments across various stress domains may increase the validity and reliability of stress exposure compared to a single assessment. Importantly, the MR haplotype moderated the cumulative effects of stress on depressive symptoms, confirming and extending earlier studies, which showed that the MR haplotype 2 is associated with reduced optimism and a blunted stress response., Rationale/statement of the problem Animal research has indicated that oxytocin is involved in social bonding, stress regulation, and positive physiologic adaptations that may be linked with greater longevity and successful aging. Because of its potential role in promoting positive human social behavior, recent research has focused on whether oxytocin may lead to improved social and emotional functioning for various mental disorders. Moreover, given its apparent anti-stress effects, some investigators have posited that oxytocin may provide the basis for the observed beneficial effects of positive social relationships on health. While knowledge of the effects of oxytocin in healthy humans remains limited, the emerging research has raised some doubt as to whether effects are uniformly prosocial or stress-reducing. Moreover, gender differences in these stress-related effects have been speculated but not tested in humans. In this study, we examine whether oxytocin enhances salutary responses to social stress and compare effects between men and women. Methods Hypotheses were tested with a placebo-controlled, double-blind experiment, using a between subjects 2 (male vs. female)×2 (oxytocin vs. placebo) design. Participants (n=99) were randomized to receive either intranasal oxytocin spray or placebo (saline) nasal spray. Social stress was induced using the Trier Social Stress Test (TSST). Baseline measures of estradiol were obtained via saliva samples. Primary outcomes were cardiovascular (CV) reactivity, objective behavior during the stress task coded by observers unaware of the oxytocin condition, and self-reported affective responses. Results Analyses were conducted using two-way analysis of variance models (or ANCOVA if covariates such as age or estradiol were included). Participants given oxytocin, relative to placebo, responded to social stress with a challenge orientation characterized by a benign pattern of cardiovascular reactivity. For example, participants given oxytocin, compared to placebo participants, exhibited a trend toward greater increases in cardiac output [F(1, 68)=3.31, p=0.07, d=0.47] and ventricular contractility [indicating more sympathetic activation; F(1, 71)=2.98, p=0.09, d=0.45]. Gender differences also emerged. Men given oxytocin reported less negative affect (e.g., mean change between baseline and social stress task, men=0.26 vs. women=2.14) and had greater vagal rebound. However, women given oxytocin reported more anger (e.g., mean change men=−0.62 vs. women=0.71) and had better math performance following social stress. Conclusion Findings indicated that oxytocin stimulates an approach-oriented cardiovascular profile during social stress, suggesting mechanisms by which oxytocin might influence health. However, before considering oxytocin as therapeutic or uniformly beneficial, greater understanding of possible gender dimorphic effects is needed., Background Oxytocin is associated with both social cognition/perception and affiliation and with stress response regulation. Both stress response regulation and social factors influence response to trauma. While some social/interpersonal factors may mitigate response to trauma (e.g., social support), others can contribute to trauma-related symptoms (e.g., interpersonal avoidance). While most research on the effects of oxytocin shows a positive influence on social cognition/affiliation, other research suggests that this influence varies with context (e.g., oxytocin is associated with decreased trust/affiliation in the context of social threat). Furthermore, some studies of endogenous oxytocin levels show positive relationship between with symptoms of trauma related disorders (e.g., depression and posttraumatic stress disorder (PTSD)). Methods and results We present data from a sample (n=90) of highly traumatized adults living in an urban environment. Our data show a significant, positive relationship between plasma oxytocin levels and social support from family members (p, Rationale/statement of the problem We previously found that the intranasal administration of oxytocin positively altered self-reported personality. Changes in self-perception may represent one mechanism by which oxytocin facilitates prosocial behavior. To follow up this finding, we explored the acute effects of two doses of intranasal oxytocin (24 IU or 48 IU) on autobiographical memory. We predicted that oxytocin would decrease participants’ recall of overgeneral autobiographical memories (non-specific memories of the past) in a dose-dependent fashion. Since depressed individuals recall more overgeneral memories for past events, we hypothesized that the relation between oxytocin and autobiographical memory would be moderated by depressive symptoms. Methods Seventeen males self-administered a placebo or oxytocin on three separate occasions in a placebo-controlled, double-blind, and within-subjects experiment. Participants were administered the Autobiographical Memory Test (AMT) 110 min after drug administration. Results Participants recalled fewer overgeneral memories following the administration of 24 IU, but not 48 IU, of intranasal oxytocin relative to placebo [pr 2=.23, b=−0.824, t(15)=−2.426, p=.026], and individuals with higher depressive symptoms exhibited this effect in greater magnitude [pr 2=.20, b=−0.148, t(15)=−2.285, p=0.037]. Conclusions The findings suggest that a 24 IU dose of intranasal oxytocin alters the recall of personal past memories, which may be a mechanism by which oxytocin changes self-perceptions. This is one of the first dose-response studies on intranasal oxytocin, and our findings suggest lower doses of oxytocin may have greater beneficial effects in young adults presenting with high depressive symptoms., Rationale/statement of the problem Intranasal oxytocin attenuates cortisol levels during social stress inductions. However, no research to date has documented the dose–response relationship between intranasal oxytocin administration and cortisol, and researchers examining intranasal oxytocin have not examined the cortisol response to physical stress. We, therefore, examined the effects of 24 and 48 IU of intranasal oxytocin on the cortisol response to vigorous exercise. Methods Seventeen males participated in a randomized, placebo-controlled, double-blind, and within-subject experiment. Participants engaged in vigorous exercise for 60 minutes following the administration of placebo or intranasal oxytocin on three occasions. Saliva samples and mood ratings were collected at 8 intervals across each session. Results Salivary cortisol concentrations changed over time, peaking after 60 minutes of exercise [Quadratic: F(1,16)=7.349, p=0.015, partial η2=0.32]. The 24 IU dose of oxytocin attenuated cortisol levels relative to placebo [F(1,16)=4.496, p=0.05, partial η2=0.22) and the 48 IU dose, although the latter fell just short of statistical significance [F(1,16)=3.054, p=0.10, partial η2=0.16). There was no difference in the cortisol response to exercise in participants who were administered 48 IU of intranasal oxytocin relative to placebo. Intranasal oxytocin had no effect on mood. Conclusion This is the first study to demonstrate that the effect of intranasal oxytocin on salivary cortisol is dose-dependent, and that intranasal oxytocin attenuates cortisol levels in response to physical stress. Future research using exogenous oxytocin will need to consider the possibility of dose–response relations., Background Accumulating research indicates that oxytocin (OT) plays a key role in human social cognition and behavior. Inspection of the data, however, suggests that the social effects of OT often depend on contextual factors, including person characteristics. For example, some studies show that OT is helpful for avoidantly attached individuals, who are less socially engaged, whereas other studies show that OT exacerbates chronic interpersonal insecurities in anxiously attached individuals, who are preoccupied with closeness. Such variability raises questions about the mechanism by which OT influences human social behavior. Drawing upon animal research on OT and the other-directed (e.g., maternal) behavior, we propose that OT induces a similar shift in focus away from self and toward others in humans. This theory would explain some of the person-specific effects of OT since becoming more other- and less self-oriented should be helpful for avoidant individuals who are excessively focused on the self to the exclusion of others, but could be hurtful for anxious individuals who are already overly other focused and have no sense of self. Methods Thirty-one males received 24 IU intranasal OT/placebo in a randomized, double-blind, crossover trial and then completed tasks assessing the implicit cognitive accessibility and explicit self perceptions of agency (self orientation) and communion (other orientation). Individual differences in attachment were assessed at baseline. Results OT significantly decreased the cognitive accessibility of agency (self) and increased the cognitive accessibility of communion (other). Similarly, OT significantly decreased the endorsement of agency traits (arrogant) and increased the endorsement of communal traits (kind, warm, caring). Critically, this OT-induced shift from self to other differentially affected avoidant and anxiously attached participants, with avoidant individuals, who are generally low in communion, showing the largest increase in communion following OT, but anxious individuals, who are generally low in agency, showing even further reduction in agency/sense of self. Conclusions These data shed light on the variability in extant research on the social effects of oxytocin in humans and help explain both the beneficial and potentially harmful effects of OT., Background The neuropeptide oxytocin (OT) is well known for its positive effects on dampening stress responses and increasing prosocial behavior. This view of OT has led to increased interest in its application for the treatment of a wide range of disorders that include autism, anxiety, trauma, and schizophrenia. However, paradoxical findings in recent work have revealed that OT may play a more nuanced role in regulating physiology and behavior. This work is beginning to shed new light on contextual factors that may influence the direction of OT's effects. Methods In the present study, we used female prairie voles (Microtus ochrogaster) to study the mechanisms through which OT pretreatment and a familiar social context interact to influence the response to a naturalistic stressor. Prairie voles were chosen as a model to examine interactions between stress and sociality because, such as humans, they exhibit vagal cardioregulatory dominance and selective preferences for familiar social partners. Results We found that OT pretreatment prior to a stressor was associated with changes in behavior, plasma hormone concentrations, and patterns of functional coupling between brain areas known to be critically involved in stress responses and social cognition. Conclusion This talk will discuss recent work, from our lab and others, that examines the role of OT at the interface of stress and social behavior., Rationale/statement of the problem Childhood maltreatment negatively impacts brain development, often producing transgenerational continuity of abusive parenting and increased risk for a range of psychiatric disorders. The biological basis for these far-reaching effects is not currently understood, but evidence suggests traumatic events could affect behavioral trajectories through changes in gene expression that are mediated by DNA methylation. Methods To explore this, we exposed male and female infant rats to nurturing or adverse caregiving environments. We measured changes in DNA methylation and gene expression in developing and adult animals. Candidate genes were selected according to their role in brain plasticity, responsiveness to stress, and association with several psychiatric disorders. Results Exposure to adverse caregiving environments induced long-lasting changes in cortical DNA methylation and expression of the brain-derived neurotrophic factor (BDNF) gene. In addition, females exposed to adverse caregiving environments later mistreated their own offspring, and their offspring likewise displayed altered DNA methylation. We are currently investigating the impact of nurturing vs. adverse caregiving environments on epigenetic gene regulation within a larger behaviorally relevant brain network (the medial prefrontal cortex, central/basolateral amygdala, dorsal vs. ventral hippocampus). Preliminary biochemistry data indicate caregiving experiences trigger epigenetic changes that differ between brain regions, sexes, and gene locus. Conclusions These findings demonstrate the remarkable ability of early-life caregiving environments to produce distinct epigenetic modifications across behaviorally relevant brain regions. Our work as well as that of others suggests that DNA methylation serves as a biological pathway linking early-life adversity to long-term (and perhaps multigenerational) changes in neurobiology and behavior., Background Childhood maltreatment is linked to multiple metabolic and immunological abnormalities. Experimental research in animal models showed that stressful experiences in early life may also be associated with impaired leptin response to physiological stimuli, such as adiposity and inflammation. Therefore, we tested if maltreated children showed leptin deficiency. Methods We assessed leptin and C-reactive protein in dried blood spots and anthropometric measures from 170 twelve-year-old participants of the Environmental Risk (E-Risk) Study. Childhood maltreatment was prospectively assessed through repeated interviews with mothers in the first decade of study participants’ life. Results Maltreated children showed a trend towards lower leptin levels than non-maltreated children. Furthermore, maltreated Children showed reduced leptin response to increasing inflammation and adiposity levels. These findings could not be explained by key potential confounders or pre-existing abnormalities in energy homeostasis. Conclusions Childhood maltreatment is associated with leptin deficiency, which could contribute to previously reported metabolic and immune abnormalities. Exposure to childhood trauma among pregnant women is associated with increased placental CRH production over gestation., Rationale Exposure to traumatic events, particularly during sensitive periods in childhood, is known to have persisting effects on health and disease risk in adult life. A few studies that have examined the course and outcome of later pregnancies in women with early trauma history bring up the intriguing possibility of transgenerational transmission of the effect of maternal childhood trauma on her developing fetus. However, the mechanism(s) underlying this effect have yet to be clarified. In humans and other higher primates, a stress-related system that is particularly relevant for key gestational processes, fetal development, and birth outcomes is placental corticotropin-releasing hormone (pCRH). In this study, we address the hypothesis that history of early life trauma is associated with variation in the level and trajectory of pCRH production over the course of human gestation. Methods A study population of sociodemographically and ethnically diverse women with singleton pregnancies (N=333) provided information about childhood abuse and neglect (Childhood Trauma Questionnaire, or CTQ). Placental CRH levels were assessed prospectively at 1–5 time points over gestation (T1: mean=15.0 weeks, SD=.72 until T5: mean=36.5 weeks, SD=.78). Because of the expected exponential increase of pCRH production over gestation, pCRH values were log-transformed and Generalized Estimating Equation modeling was employed. Results One hundred thirty-seven women (41.1%) reported having experienced at least one type of trauma during childhood, and 75 (22.5%) reported exposure to multiple traumas. A higher childhood trauma score was significantly associated with higher pCRH levels over the entire period of gestation (Wald χ 2(1)=4.68, p =.030, β=.005). With the exception of physical and sexual abuse, this relationship was observed for all trauma subscales. The effect was dose dependent, with a higher number of different types of traumas being related to higher concentrations of pCRH. Conclusion To the best of our knowledge, this is the first report linking exposure to traumatic events in childhood with subsequent placental physiology, thus identifying a possible mechanism of transgenerational transmission. Given the importance of placental CRH in primate pregnancy, this finding also may have appreciable clinical significance., Background Early life stress restructures the nervous system. In rodents, the level of maternal care causes lifelong differences in central glucocorticoid (GC) sensitivity and memory. Furthermore, human adults with a history of child abuse have decreased hippocampal GC receptor gene expression and lower cortisol responses to stress. As GCs modulate memory, hypothalamic–pituitary–adrenal (HPA) axis functions altered by atypical care may influence memory. Methods Participants were women (N=55) reporting no-to-minimal abuse (no maltreatment group) on the Child Trauma Questionnaire and those reporting clinically significant sexual or physical abuse (abuse group). Participants completed the Beck Depression Inventory (BDI), as depression is more prevalent in child abuse survivors and is known to impact cortisol levels. Participants then completed the Emotional Picture Memory Task. During encoding, participants viewed pictures composed of negative or neutral emotionally valenced objects and backgrounds. In a surprise retrieval test, participants indicated if objects and backgrounds presented separately were the same, similar, or new to those viewed earlier. Saliva samples were collected to measure basal (unstressed) cortisol levels. Analyses focused on “gist” memory, and the percentage of responses when an object viewed previously was classified as similar or the same. Higher cortisol has been tied to better gist memory. Results Abuse history moderated cortisol's effect on gist memory, β=−0.557, SE=0.212, p, Rationale/statement of the problem Retrospective studies show that childhood adversity is associated with systemic inflammation in adulthood. Few prospective studies have examined whether childhood adversity influences inflammation in an observable manner during childhood or adolescence and whether these effects are sustained over time. Methods Using longitudinal data from the Avon Longitudinal Study of Parents and Children, we examined associations between acute adverse events at seven time points prior to age 8 and inflammation at ages 10 and 15. Inflammatory markers at age 10 included interleukin-6 (IL-6; N=4,655) and C-reactive protein (CRP; N=4,647), and CRP was measured again at age 15 (N=3,286). We further evaluated whether body mass index (BMI), depression, or cigarette smoking mediated associations between adverse events and inflammation. Results Adverse events in middle childhood (occurring between ages 6 and 8), as well as cumulative adversity between the ages of 1.5 and 8 years, were associated with higher levels of IL-6 and CRP at age 10. Adverse events occurring in early childhood (age 1.5) or middle childhood (age 8), and cumulative adversity between the ages of 1.5 through 8 years predicted increased levels of CRP at age 15, and these associations persisted after adjustment for CRP at age 10. Some, but not all, of these associations were mediated by BMI. Conclusions This study documents that exposure to adverse events prior to age 8 is associated with elevated inflammation at age 10 and in mid-adolescence. These findings provide prospective evidence for a biological mechanism by which early experiences may shape long-term health., Rationale/statement of the problem In posttraumatic stress disorder (PTSD), enhanced negative feedback of the hypothalamic–pituitary–adrenal axis is a prominent finding, which has often been interpreted in the context of enhanced glucocorticoid receptor sensitivity. Neuropsychological alterations are also an important feature in PTSD. Problems particularly with learning and memory have been found, including deficits in verbal declarative memory as well as autobiographical memory. In healthy humans, most studies suggest impairing effects of glucocorticoids on memory retrieval. Up to now, studies that investigate the effects of cortisol administration on memory in patients with PTSD are rare and yielded inconclusive results. Methods In a placebo controlled cross-over study, we compared the effect of exogenous cortisol on memory retrieval in patients with PTSD (N=44) with the effects in healthy controls (N=65). Results Opposing effects of cortisol on memory were observed when comparing patients with controls. In controls, cortisol had impairing effects on memory retrieval, whereas in patients with PTSD cortisol had enhancing effects on memory retrieval. Conclusion The present results suggest beneficial effects of acute cortisol elevations on hippocampal mediated memory processes in PTSD. Possible neurobiological mechanisms underlying these findings are discussed., Rationale Accumulating evidence links posttraumatic stress disorder (PTSD) with elevated inflammatory activity. However, the clinical significance of this association is unclear. Although inflammation could increase the risk of autoimmune disease, little is known about whether patients with PTSD are at increased risk of developing autoimmune disorders. Methods We conducted a retrospective cohort study of 673,277 Iraq and Afghanistan veterans younger than 55 years, who received VA healthcare from October 1, 2005, to March 31, 2012, with at least 1 year of follow-up. Department of Veterans Affairs administrative data were used to identify ICD-9 codes for mental health and autoimmune disorders and to obtain sociodemographic, military service, and health service utilization information. Generalized linear models were used to ascertain the association of PTSD with subsequent autoimmune diagnoses after adjusting for age, race, and number of primary care visits. Results The sample was 88% male and 49% white with a mean age of 31.3 years (±8.7). PTSD was diagnosed in 206,623 (31%) veterans, and mental health disorders other than PTSD were diagnosed in an additional 132,242 (20%) veterans. Compared to veterans with no mental health diagnoses, those diagnosed with PTSD had increased risk for subsequent diagnosis with thyroiditis (adjusted relative risk [ARR]=1.74; 95% CI 1.67, 1.82), rheumatoid arthritis (ARR=1.92; 95% CI 1.67, 2.20), inflammatory bowel disease (ARR=1.32; 95% CI, 1.20, 1.46), multiple sclerosis (ARR=2.23; 95% CI, 1.88, 2.64), systemic lupus erythematous (ARR=1.81; 95% CI, 1.48, 2.23), and any of these disorders alone or in combination (ARR=1.50; 95% CI, 1.45, 1.56). Moreover, while there was an increased risk for each of these disorders in veterans with mental health disorders other than PTSD, the risk was consistently higher in those diagnosed with PTSD. Women had significantly higher risk for autoimmune disorders overall, but the pattern of results was similar in men and women. Conclusion Veterans with PTSD appear to be at increased risk for autoimmune disorders compared to those with no or other mental health diagnoses. Future prospective longitudinal cohort studies are needed to establish causality, measure inflammatory markers in conjunction with PTSD, and evaluate whether successful treatment of PTSD reduces risk of autoimmune disorders., Rationale/statement of the problem Neuropeptide Y (NPY) is a peptide with behaviorally relevant effects on the hippocampus and is thought to function as an endogenous anxiolytic. In prior work, we reported that veterans who had recovered from combat-related post-traumatic stress disorder (PTSD) had higher levels than those who were not combat exposed. NPY levels were significantly associated with the extent of symptom improvement, suggesting that plasma NPY levels may represent a biological correlate of resilience to, and/or recovery from, the adverse effects of trauma exposure. Cytosine methylation of the glucocorticoid gene (GR methylation) has been associated with PTSD risk and/or symptom expression. GR methylation is influenced by environmental factors that can result in enduring differences in function, including neuroendocrine regulation. As the NPY gene has glucocorticoid response elements, levels of circulating NPY represent a potential indicator of alterations in GR responsivity. Methods The relationship of NPY to PTSD and GR methylation was examined in two samples. In the first sample, veterans who developed PTSD following combat exposure were compared to those who did not develop PTSD. In a second sample, veterans with combat-related PTSD were assessed prior to and following a course of prolonged exposure (PE). Results In the cross-sectional study, veterans with PTSD had higher NPY levels than those who never developed PTSD (t (62)=−1.99, p=0.05; 95.8±45.6 pm/l vs. 73.9±41.5 pm/l). NPY associated with number of GR methylated sites in the full sample (r=0.35, n=64, p=0.005), but not with average percent methylation (r=−0.05). When the associations were examined separately by PTSD group status, results showed a positive association between NPY and number of methylated sites (r=0.36) as well as percent methylation (r=0.38) in veterans with PTSD. However, NPY was only associated with the number of methylated sites (r=0.35) in the subjects who did not develop PTSD following combat exposure. In the treatment study, plasma NPY levels increased among veterans who responded to treatment (who no longer met diagnostic criteria for PTSD following PE), compared to treatment non-responders, as indicated by a significant group æ time interaction (F1,14=5.48, p=0.035). While plasma NPY was comparable in the two groups at pretreatment (responders: 71.4±20.3 pm/l, non-responders: 71.0±16.0 pm/l), responders had higher plasma NPY (84.0±24.2 pm/l) relative to non-responders (61.0±15.4 pm/l). Both pretreatment number of GR methylated sites (r=0.53, n=16, p=0.04) and average percent GR methylation (r=0.75, n=15, p=0.001) were associated with higher plasma NPY at post-treatment. Conclusion To the extent that improvement from symptomatic PTSD may involve a mobilization of endogenous mechanisms to reduce hyperarousal and other post-trauma sequellae, the results of these studies are consistent in suggesting a role for NPY. NPY was elevated in a sample of combat veterans with PTSD, and increased in association with PTSD improvement in response to trauma-focused treatment. GR methylation was associated with combat-related PTSD in a cross-sectional study, and with treatment associated improvement in PTSD. These findings suggest that epigenetic modification of the GR gene may be associated with resilience in PTSD., Background Nearly 34–65% of Gulf War veterans (GWV) continue to suffer from chronic multisymptom illness (CMI); novel pharmacological treatment approaches are needed to improve the health of these veterans. This study aims to determine whether mifepristone, a glucocorticoid receptor antagonist, can reverse the neuroendocrine alterations described in GWV and improve the physical health, mental health, and neurocognitive functioning of GWV with CMI. Methods Sixty-five GWV were enrolled into the study; 36 eligible GWV who met criteria for CMI and did not have any exclusionary medical or psychiatric conditions were randomized to receive mifepristone (200 mg/day) or matched placebo first in this crossover study. Both treatment phases lasted 6 weeks and were separated by a 4-week wash-out period. The primary clinical outcome measure was the change from treatment baseline to treatment endpoint in the physical health component score (PCS) of the veterans SF-36 health survey. Primary neurocognitive outcome measures included change in spatial working memory and verbal declarative memory as measured by the MATRICS Consensus Cognitive Battery. Additional outcome measures included change in the mental health components score (MCS) of the SF-36 and self-reported symptoms of fatigue, depression, and PTSD. Cortisol and ACTH levels and a measure of glucocorticoid sensitivity (lysozyme IC50-DEX) were also obtained to characterize the neuroendocrine response to mifepristone in GWV with CMI. Results Data collection is complete; results regarding the primary and secondary clinical, neuropsychological, and neuroendocrine outcome measures will be presented. Conclusion If this study shows that mifepristone improves physical health or cognition or reduces constituent symptoms of CMI in GWV, it would suggest that mifepristone may be of therapeutic value in this population., Rationale/statement of the problem Evidence for distinct biological perturbations in posttraumatic stress disorder (PTSD) with severe child abuse versus no child abuse: consequences for robust biomarkers for PTSD. The identification of biomarkers for PTSD has been difficult, likely due to inter-individual differences in genetic risk factors and environmental exposures. The aim of the current study was to interrogate the influences of the environment on gene expression profiles by characterizing biological differences in PTSD after severe child abuse versus PTSD after adult trauma. Methods A total of 396 trauma-exposed individuals were included in this study. The PTSD symptomatic scale (PSS), clinician-administered PTSD scales (CAPS), childhood trauma questionnaire, and trauma events inventory were used to assess current clinical PTSD and childhood and adult trauma severity. Whole blood gene expression and DNA methylation was measured on Illumina Human-HT12v3 and Human Methylation 450k arrays. Analysis was performed by using R software. Results Of 741 transcripts significantly associated with current PTSD severity, only 2% was associated with PTSD in both, individuals exposed to child abuse and adult trauma (N=32) and individuals exposed to adult trauma only (N=29), after accounting for adult trauma severity. Expression differences were also reflected in DNA methylation differences between the groups. Functional annotations revealed distinct biological pathways enriched among the expression profiles associated with PTSD in these two groups. Conclusion These data suggest that PTSD occurring after severe child abuse is biologically distinct from PTSD after adult trauma, therefore, accounting for different environmental variables is crucial for identification of biomarkers for PTSD., Statement of the Problem Pain and posttraumatic stress disorder (PTSD) are highly comorbid conditions. Patients with chronic pain have higher rates of PTSD. Likewise, patients with PTSD are often diagnosed with numerous chronic pain conditions. Despite the high pain-PTSD comorbidity, the pathophysiologic mechanisms underlying this phenomenon are incompletely understood and only recently researchers have started to investigate pain-PTSD overlap using experimental pain models. The aim of the present study was to examine the activation of the pain-processing pathway in a cohort of combat PTSD compared to combat controls in response to a prolonged painful stimulus. Methods Novel data from the experimental pain model using intramuscular capsaicin comparing a group of 10 Operation Enduring Freedom/Operation Iraqi Freedom (OEF/OIF) veterans with combat-related PTSD and 11 matched OEF/OIF veterans without PTSD will be presented. Intramuscular capsaicin causes a prolonged, deep-aching muscle pain, resembling pain associated with chronic pain states. Following capsaicin injection into the left thigh muscle, subjects underwent functional magnetic resonance imaging scanning while whole brain perfusion was measured with arterial spin labeling (ASL). At every 10 min, samples of cerebrospinal fluid (CSF) were drawn and subjective pain ratings were measured throughout the scanning window (30 min). Following scanning, CSF draws and pain ratings continued and evidence for central sensitization was assessed by temporal summation of repeated pressure pain stimuli. Results Our results show evidence for an acute form of central sensitization in the PTSD group in comparison to matched combat controls. The maximum pain response and initial pain decrease were not different between the two groups, yet significantly higher pain ratings were observed in the PTSD group 15 min postinjection of capsaicin. ASL showed significant group by time interactions within pain-processing network, whereby PTSD group maintained high levels of brain perfusion in the ventral medial frontal gyurs and other interoceptive and evaluative brain circuits throughout the second half of the scan, similar to subjective pain ratings. Furthermore, significantly higher temporal summation of pain was also noted in the PTSD compared to the control group. Conclusion We found increased sensitivity to prolonged, deep experimental pain in combat-related PTSD compared to traumatized subjects who never developed PTSD following combat. We posit that this increased pain response on behavioral, spinal, and supraspinal levels is related to a form of acute central sensitization in these individuals in response to a prolonged pain stimulus. Initial neuroimaging findings point to differential activation of frontal systems as potentially underlying pain-PTSD pathways and perhaps provide initial mechanisms for the development of testable models of perturbed pain processing in PTSD., The gradual emergence of symptoms following exposure to traumatic events has presented a major conceptual challenge to psychiatry. The presumption that all people have significant acute symptoms is not supported by careful longitudinal research. One such study of 1,018 accident victims conducted over 2 years will be presented. The mechanism that leads to the progressive escalation of symptoms with the passage of time leading to delayed onset post-traumatic stress disorder (PTSD) involves the process of sensitisation and kindling. The acute stress response represents the neurobiological platform for the different trajectories of symptoms, and data on 49 participants will be presented, demonstrating how the acute hypothalamic–pituitary–adrenal axis reactivity and melatonin levels predict later symptoms. The development of traumatic memories at the time of stress exposure represents a major vulnerability through repeated environmental triggering of the increasing dysregulation of an individual's neurobiology. An increasing body of evidence demonstrates how the increased allostatic load associated with PTSD. This broader perspective has important implications for developing treatments that address the underlying dysregulation of cortical arousal and neurohormonal abnormalities, following exposure to traumatic stress., Background Results will be presented on a prospective longitudinal study of risk and resilience for post-traumatic stress disorder (PTSD) symptoms in 400 police academy recruits, assessed during academy training and followed during the first 7 years of police service. Methods Utilizing Latent Growth Mixture Modeling (LGMM) we have established three symptom trajectories, highly resilient, initially distressed with gradual improvement, and increasing distress. Results We will present findings on the relations of the following predictors ascertained during academy training to the three PTSD symptom trajectories: I.Q., family histories of anxiety, depression, alcohol and drug abuse, neuroticism, personal histories of childhood or adolescent traumatic exposure, levels of awakening cortisol, fear-potentiated acoustic startle, MHPG and cortisol responses to a critical incident video challenge, sleep quality as measured by actigraphy, and candidate polymorphisms including serotonin transporter (SLC6A4), adrenergic pathway genes, ADRB1, ADRB2, ADRA2C, brain derived neurotrophic factor gene (BDNF), genes for several critical components of the hypothalamic–pituitary–adrenal (HPA) axis such as the glucocorticoid receptor (NR3C1), CRH receptor 1 (CRHR1), and FK506 binding protein 5 (FKBP5) and Catechol-O-methyltransferase (COMT). Conclusion Mulivariate models of risk and resilience will be presented utilizing a multinomial logistic regression nested in the unconditional LGMM., Rationale PTSD is associated with changes in the glucocorticoid receptor (GR) pathway. We hypothesized that altered functioning of the GR pathway is already present before development of PTSD and thus represents a biological vulnerability factor for the development of PTSD. Therefore, we investigated the predictive value of several GR pathway components for the development of high levels of PTSD symptoms. Methods We included a cohort of 1,032 Dutch soldiers prior to deployment to Afghanistan. GR pathway components were assessed in blood collected prior to deployment. PTSD symptoms were assessed 6 months after return. Results A high GR number, high GILZ mRNA expression, and low FKBP5 mRNA expression in leukocytes prior to deployment were independently associated with development of high levels of PTSD symptoms. In addition, sensitivity of T-cells for regulation by the synthetic glucocorticoid dexamethasone was associated with development of high levels of PTSD symptoms. However, the direction of the association between dexamethasone-sensitivity and PTSD depended on the presence of co-morbid depressive symptoms. Conclusions Altered functioning of the GR pathway in leukocytes is a vulnerability factor for development of high levels of PTSD symptoms. The identification of such biological vulnerability factors for PTSD could facilitate the selection of individuals for preventive treatment within groups at risk for trauma-exposure., Rationale/statement of the problem There is an urgent need to develop biological and behavioral predictors of PTSD risk/resilience in individuals with high trauma exposure, such as active military duty. First, we will briefly review psychophysiological risk factors for PTSD. Second, we will describe preliminary data from a prospective study of active duty Marines examining psychophysiological responses before and after deployment to Iraq or Afghanistan. Third, we will discuss our cross-species work in animal models of PTSD risk/resilience to inform these study findings. Methods This study was conducted as part of a 4 h battery (clinical, psychosocial, laboratory, and psychophysiological assessments) conducted both before, and 3 and 6 months after deployment (Marine Resiliency Study) in >2,500 Marines. Here, we examined (1) effect of deployment overall on physiological reactivity measures on baseline startle, pre-pulse inhibition, and affective modulation of startle and (2) comparison of pre-deployment startle reactivity across subjects matched for combat exposure with and without PTSD symptoms, 3 months post-deployment. Results We observed small but significant increases in baseline startle and pre-pulse inhibition after deployment. Startle potentiation to aversive images was also significantly increased after deployment. Importantly, baseline startle magnitude before deployment was significantly greater in subjects that went on to develop PTSD symptoms after deployment compared to their combat-matched controls. Conclusions These results support previous reports suggesting that startle reactivity may probe trait biological processes that confer risk for PTSD symptoms. To complement these findings, we (1) are conducting a similar prospective study to determine if fear conditioning and extinction performance predicts deployment-related stress disorders and (2) have developed a homologous rodent model to aid identification of potential epigenetic mechanisms underlying psychophysiological and fear-processing risk factors., While posttraumatic stress disorder (PTSD) and traumatization have frequently been associated with altered activity of the hypothalamic-pituitary-adrenal axis, specific results on changes in cortisol secretion have been relatively inconsistent. Amongst other things, this may be because of (i) limitations of previous methods for the assessment of long-term cortisol secretion as well as (ii) differences in the composition of the control group in which traumatized and non-traumatized individuals are often not distinguished. The current study aimed to address these problems by using assessments of glucocorticoids in hair as a measure of cumulative hormone secretion over prolonged periods of time and by carefully distinguishing between traumatized and non-traumatized controls. Data were obtained from 28 PTSD patients, 27 traumatized healthy controls, and 32 non-traumatized controls. Concentrations of cortisol (F) and cortisone (E) in proximal 3 cm hair segments were determined via LC-MS/MS. In addition, the severity of PTSD symptoms, the number of different lifetime-traumatic events, chronic stress, and depressiveness were measured. Results revealed that PTSD patients and traumatized healthy controls exhibited lower hair F and E levels compared to those of non-traumatized controls (p

Published

2012

33. Dynamic Modulation of Amygdala-Hippocampal Connectivity by Emotional Arousal.

Author

Fastenrath, Matthias, Coynel, David, Spalek, Klara, Milnik, Annette, Gschwind, Leo, Roozendaal, Benno, Papassotiropoulos, Andreas, and de Quervain, Dominique J.F.

Subjects

AMYGDALOID body, HIPPOCAMPUS (Brain), PHYSIOLOGICAL effects of emotions, AROUSAL (Physiology), NEURAL circuitry

Abstract

Positive and negative emotional events are better remembered than neutral events. Studies in animals suggest that this phenomenon depends on the influence of the amygdala upon the hippocampus. In humans, however, it is largely unknown how these two brain structures functionally interact and whether these interactions are similar between positive and negative information. Using dynamic causal modeling of fMRI data in 586 healthy subjects, we show that the strength of the connection from the amygdala to the hippocampus was rapidly and robustly increased during the encoding of both positive and negative pictures in relation to neutral pictures. We also observed an increase in connection strength from the hippocampus to the amygdala, albeit at a smaller scale. These findings indicate that, during encoding, emotionally arousing information leads to a robust increase in effective connectivity from the amygdala to the hip-pocampus, regardless of its valence. [ABSTRACT FROM AUTHOR]

Published

2014

34. BAIAP2 Is Related to Emotional Modulation of Human Memory Strength.

Author

Luksys, Gediminas, Ackermann, Sandra, Coynel, David, Fastenrath, Matthias, Gschwind, Leo, Heck, Angela, Rasch, Bjoern, Spalek, Klara, Vogler, Christian, Papassotiropoulos, Andreas, and de Quervain, Dominique

Subjects

MEMORY loss, EMOTIONS, SCIENTIFIC observation, COGNITIVE ability, NEOVASCULARIZATION inhibitors, BRAIN physiology

Abstract

Memory performance is the result of many distinct mental processes, such as memory encoding, forgetting, and modulation of memory strength by emotional arousal. These processes, which are subserved by partly distinct molecular profiles, are not always amenable to direct observation. Therefore, computational models can be used to make inferences about specific mental processes and to study their genetic underpinnings. Here we combined a computational model-based analysis of memory-related processes with high density genetic information derived from a genome-wide study in healthy young adults. After identifying the best-fitting model for a verbal memory task and estimating the best-fitting individual cognitive parameters, we found a common variant in the gene encoding the brain-specific angiogenesis inhibitor 1-associated protein 2 (BAIAP2) that was related to the model parameter reflecting modulation of verbal memory strength by negative valence. We also observed an association between the same genetic variant and a similar emotional modulation phenotype in a different population performing a picture memory task. Furthermore, using functional neuroimaging we found robust genotype-dependent differences in activity of the parahippocampal cortex that were specifically related to successful memory encoding of negative versus neutral information. Finally, we analyzed cortical gene expression data of 193 deceased subjects and detected significant BAIAP2 genotype-dependent differences in BAIAP2 mRNA levels. Our findings suggest that model-based dissociation of specific cognitive parameters can improve the understanding of genetic underpinnings of human learning and memory. [ABSTRACT FROM AUTHOR]

Published

2014

35. A role for ?-adducin (ADD-1) in nematode and human memory.

Author

Vukojevic, Vanja, Gschwind, Leo, Vogler, Christian, Demougin, Philippe, de Quervain, Dominique J-F, Papassotiropoulos, Andreas, and Stetak, Attila

Subjects

ADDUCIN, NEMATODES, NEUROSCIENCES, MEMORY, LEARNING, CAENORHABDITIS elegans, GENE expression

Abstract

Identifying molecular mechanisms that underlie learning and memory is one of the major challenges in neuroscience. Taken the advantages of the nematode Caenorhabditis elegans, we investigated ?-adducin (add-1) in aversive olfactory associative learning and memory. Loss of add-1 function selectively impaired short- and long-term memory without causing acquisition, sensory, or motor deficits. We showed that ?-adducin is required for consolidation of synaptic plasticity, for sustained synaptic increase of AMPA-type glutamate receptor (GLR-1) content and altered GLR-1 turnover dynamics. ADD-1, in a splice-form- and tissue-specific manner, controlled the storage of memories presumably through actin-capping activity. In support of the C. elegans results, genetic variability of the human ADD1 gene was significantly associated with episodic memory performance in healthy young subjects. Finally, human ADD1 expression in nematodes restored loss of C. elegans add-1 gene function. Taken together, our findings support a role for ?-adducin in memory from nematodes to humans. Studying the molecular and genetic underpinnings of memory across distinct species may be helpful in the development of novel strategies to treat memory-related diseases. [ABSTRACT FROM AUTHOR]

Published

2012

36. Fine-mapping of the brain-derived neurotrophic factor (BDNF) gene supports an association of the Val66Met polymorphism with episodic memory.

Author

Cathomas, Flurin, Vogler, Christian, Euler-Sigmund, Jessica C., de Quervain, Dominique J.-F., and Papassotiropoulos, Andreas

Subjects

GENETIC polymorphisms, NEUROTROPIN, NEUROPHARMACOLOGY, METHIONINE, GENOMICS, NUCLEOTIDE sequence

Abstract

Brain-derived neurotrophic factor (BDNF) plays an important role in hippocampal synaptic plasticity and long-term potentiation. A valine (Val) to methionine (Met) substitution in the BDNF gene (Val66Met) has been associated with episodic memory performance. This study aimed at fine-mapping the genomic region harbouring BDNF and the adjacent gene, BDNFOS, in order to identify other possible memoryrelated gene variants. Healthy young Swiss adults (n=333) underwent a verbal memory free-recall task which used words with both neutral and emotional content. Genetic variability of the BDNF and BDNFOS region was covered by analysing 55 single nucleotide polymorphisms (SNPs). Among all examined SNPs, the non-synonymous Val66Met SNP rs6265 showed the highest significant level of association with memory performance for words with emotional content. Recall performance for neutral words was unrelated to the analysed SNPs. Our results support a role for the Val66Met BDNF polymorphism in episodic memory and suggest a modulatory influence of emotional valence. [ABSTRACT FROM AUTHOR]

Published

2010

37. Sorl1 as an Alzheimer’s Disease Predisposition Gene?

Author

Webster, Jennifer A., Myers, Amanda J., Pearson, John V., Craig, David W., Hu-Lince, Diane, Coon, Keith D., Zismann, Victoria L., Beach, Thomas, Leung, Doris, Bryden, Leslie, Halperin, Rebecca F., Marlowe, Lauren, Kaleem, Mona, Huentelman, Matthew J., Joshipura, Keta, Walker, Douglas, Heward, Christopher B., Ravid, Rivka, Rogers, Joseph, and Papassotiropoulos, Andreas

Subjects

ALZHEIMER'S disease, MUTATIONS (Algebra), HUMAN behavior, GENETICS, GENOMES, COGNITION, MEMORY, ADRENERGIC receptors

Abstract

Alzheimer’s disease (AD) is a neurodegenerative disorder characterized by progressively disabling impairments in memory, cognition, and non-cognitive behavioural symptoms. Sporadic AD is multifactorial and genetically complex. While several monogenic mutations cause early-onset AD and gene alleles have been suggested as AD susceptibility factors, the only extensively validated susceptibility gene for late-onset AD is the apolipoprotein E (APOE) ε4 allele. Alleles of the APOE gene do not account for all of the genetic load calculated to be responsible for AD predisposition. Recently, polymorphisms across the neuronal sortilin-related receptor (SORL1) gene were shown to be significantly associated with AD in several cohorts. Here we present the results of our large case-control whole-genome scan at over 500,000 polymorphisms which presents weak evidence for association and potentially narrows the association interval. [ABSTRACT FROM AUTHOR]

Published

2008

38. Low-Dose Cortisol for Symptoms of Posttraumatic Stress Disorder.

Author

Aerni, Amanda, Traber, Rafael, Hock, Christoph, Roozendaal, Benno, Schelling, Gustav, Papassotiropoulos, Andreas, Nitsch, Roger M., Schnyder, Ulrich, and de Quervain, Dominique J. -F.

Subjects

POST-traumatic stress disorder, ANXIETY, HYDROCORTISONE, MEMORY, PSYCHOTHERAPY, PLACEBOS

Abstract

Objective: Because elevated cortisol levels inhibit memory retrieval in healthy human subjects, the present study investigated whether cortisol administration might also reduce excessive retrieval of traumatic memories and related symptoms in patients with chronic posttraumatic stress disorder (PTSD). Method: During a 3-month observation period, low-dose cortisol (10 mg/day) was administered orally for I month to three patients with chronic PTSD in a double-blind, placebo-controlled, crossover design. Results: In each patient investigated, there was a significant treatment effect, with cortisol-related reductions of at least 38% in one of the daily rated symptoms of traumatic memories, as assessed by self-administered rating scales. In accordance, Clinician-Administered PTSD Scale ratings assessed after each month showed cortisol-related improvements for reexperiencing symptoms and, additionally, in one patient for avoidance symptoms. Conclusions: The results of this pilot study indicate that low- dose cortisol treatment reduces the cardinal symptoms of PTSD. [ABSTRACT FROM AUTHOR]

Published

2004

39. Relationship of a common polymorphism of the glucocorticoid receptor gene to traumatic memories and posttraumatic stress disorder in patients after intensive care therapy.

Author

Hauer, Daniela, Weis, Florian, Papassotiropoulos, Andreas, Schmoeckel, Michael, Beiras-Fernandez, Andres, Lieke, Julia, Kaufmann, Ines, Kirchhoff, Fabian, Vogeser, Michael, Roozendaal, Benno, Briegel, Josef, De Quervain, Dominique, and Schelling, Gustav

Subjects

*GLUCOCORTICOID receptors, *EMOTIONAL trauma, *MEMORY, *POST-traumatic stress disorder, *CARDIAC surgery, *CRITICAL care medicine, *PATIENTS

Abstract

The article discusses a study which examined the association of a common polymorphism of the glucocorticoid receptor gene with traumatic memories, health-related quality of life outcomes, cortisol level and post-traumatic stress disorder (PTSD) in patients following heart surgery and intensive care therapy. The study found that the single-nucleotide polymorphism in the glucocorticoid receptor gene was associated with traumatic memories, lower health-related quality of life, and PTSD symptoms following heart surgery and intensive care therapy.

Published

2011

40. Predicting emotional arousal and emotional memory performance from an identical brain network.

Author

Loos, Eva, Egli, Tobias, Coynel, David, Fastenrath, Matthias, Freytag, Virginie, Papassotiropoulos, Andreas, de Quervain, Dominique J.-F., and Milnik, Annette

Subjects

*MEMORY, *BRAIN

Abstract

Abstract Encoding and retrieval of emotionally arousing stimuli depend on the activation of multiple interconnected brain regions, with people showing differences in their individual strength of emotional perception and recollection. Understanding the association between these brain regions and the behavioral outcome might therefore have important clinical implications as dysfunctional emotional memory processes are characteristic of many psychiatric disorders. Based on behavioral and fMRI data collected from healthy young adults (N = 1'385), we investigated brain activation patterns, arousal ratings and memory performance during encoding and retrieval of negative and neutral pictures. We performed multi-voxel pattern analysis (MVPA) and voxel-wise association analyses. Subjects' individual strength of perceived arousal at encoding and subjects' memory performance at recognition could be predicted from the fMRI data of the respective tasks by using a topographically identical network of brain regions. This network was mainly left lateralized including dense clusters of voxels in the occipital and parietal lobe and including the amygdala. Voxel-wise association analyses confirmed the close link between the brain activation of both tasks and their relation to the respective behavioral outcome. These results point to the importance of the here identified brain network for emotional memory processes in health and, possibly, disease. Graphical abstract Image 1 Highlights • Emotional arousal and memory for negative stimuli rely on similar brain regions. • An identical network can be used to predict arousal and memory performance. • This network was mainly localized in the left occipital and parietal lobe. [ABSTRACT FROM AUTHOR]

Published

2019

41. Picture free recall performance linked to the brain's structural connectome.

Author

Coynel, David, Gschwind, Leo, Fastenrath, Matthias, Freytag, Virginie, Milnik, Annette, Spalek, Klara, Papassotiropoulos, Andreas, and Quervain, Dominique J.‐F.

Subjects

*MEMORY, *RECOLLECTION (Psychology), *MENTAL discipline, *BRAIN mapping, *GRAY matter (Nerve tissue)

Abstract

Introduction Memory functions are highly variable between healthy humans. The neural correlates of this variability remain largely unknown. Methods Here, we investigated how differences in free recall performance are associated with DTI-based properties of the brain's structural connectome and with grey matter volumes in 664 healthy young individuals tested in the same MR scanner. Results Global structural connectivity, but not overall or regional grey matter volumes, positively correlated with recall performance. Moreover, a set of 22 inter-regional connections, including some with no previously reported relation to human memory, such as the connection between the temporal pole and the nucleus accumbens, explained 7.8% of phenotypic variance. Conclusions In conclusion, this large-scale study indicates that individual memory performance is associated with the level of structural brain connectivity. [ABSTRACT FROM AUTHOR]

Published

2017

42. T81. (-)-GOSSYPOL INHIBITION OF MUSASHI-MEDIATED FORGETTING IMPROVES MEMORY AND AGE-DEPENDENT MEMORY DECLINE IN CAENORHABDITIS ELEGANS.

Author

Mastrandreas, Pavlina, Arnold, Andreas, Stetak, Attila, de Quervain, Dominique, and Papassotiropoulos, Andreas

Subjects

*MEMORY, *CAENORHABDITIS elegans

Published

2022

43. The Role of Memory-related Gene WWC1 (KIBRA) in Lifetime Posttraumatic Stress Disorder: Evidence from Two Independent Samples from African Conflict Regions.

Author

Wilker, Sarah, Kolassa, Stephan, Vogler, Christian, Lingenfelder, Birke, Elbert, Thomas, Papassotiropoulos, Andreas, de Quervain, Dominique J.-F., and Kolassa, Iris-Tatjana

Subjects

*DIAGNOSIS of post-traumatic stress disorder, *SENSORY evaluation, *TRAUMATIC psychoses, *AUTOBIOGRAPHICAL memory, *GENETIC code, *PROTEIN genetics, *ALLELES, *POST-traumatic stress disorder, *GENETICS

Abstract

Background: Posttraumatic stress disorder (PTSD) results from the formation of a strong memory for the sensory-perceptual and affective representations of traumatic experiences, which is detached from the corresponding autobiographical context information. Because WWC1, the gene encoding protein KIBRA, is associated with long-term memory performance, we hypothesized that common WWC1 alleles influence the risk for a lifetime diagnosis of PTSD. Methods: Traumatic load and diagnosis of current and lifetime PTSD were assessed in two independent African samples of survivors from conflict zones who had faced severe trauma (n = 392, Rwanda, and n = 399, Northern Uganda, respectively). Array-based single nucleotide polymorphism (SNP) genotyping was performed. The influence of WWC1 tagging SNPs and traumatic load on lifetime PTSD was estimated by means of logistic regression models with correction for multiple comparisons in the Rwandan sample. Replication analysis was performed in the independent Ugandan sample. Results: An association of two neighboring SNPs in almost complete linkage disequilibrium, rs10038727 and rs4576167, with lifetime PTSD was discovered in the Rwandan sample. Although each traumatic event added to the probability of lifetime PTSD in a dose-dependent manner in both genotype groups, carriers of the minor allele of both SNPs displayed a diminished risk (p = .007, odds ratio = .29 [95% confidence interval = .15–.54]). This effect was confirmed in the independent Ugandan sample. Conclusions: This study reveals an association between two WWC1 SNPs and the likelihood of PTSD development, indicating that this memory-related gene might be involved in processes that occur in response to traumatic stress and influence the strengthening of fear memories. [Copyright &y& Elsevier]

Published

2013

44. F95TRIFLUSAL ENHANCES VERBAL EPISODIC MEMORY IN HEALTHY YOUNG MEN.

Author

Schicktanz, Nathalie, Hotz, Janine, Gerhards, Christiane, Schwegler, Kyrill, Milnik, Annette, Fehlmann, Bernhard, Petrovska, Jana, Heck, Angela, Papassotiropoulos, Andreas, and de Quervain, Dominique

Subjects

*EPISODIC memory, *VERBAL memory, *NITRIC-oxide synthases, *YOUNG men, *MEMORY

Abstract

Highlights from the article: F95triflusal enhances verbal episodic memory in healthy young men B Background: b Evidence indicates that genome-wide screens of mnemonic functions in healthy humans might be useful for the discovery of memory-modulating compounds. Recently, a genome-wide association study identified single nucleotide polymorphisms in genes that encode nitric oxide synthases (NOS) to be associated with episodic memory in healthy humans.

Published

2019

45. Recognition memory performance can be estimated based on brain activation networks.

Author

Petrovska, Jana, Loos, Eva, Coynel, David, Egli, Tobias, Papassotiropoulos, Andreas, de Quervain, Dominique J.-F., and Milnik, Annette

Subjects

*INDEPENDENT component analysis, *MEMORY, *YOUNG adults, *RECOGNITION (Psychology)

Abstract

• The brain-wide activation contrast of looking at old vs. new pictures can be decomposed into robust brain networks. • Recognition memory performance can be accurately estimated based on network-level brain activation. • The identified network-level brain activation may be a biomarker of recognition memory performance in healthy young adults. Recognition memory is an essential ability for functioning in everyday life. Establishing robust brain networks linked to recognition memory performance can help to understand the neural basis of recognition memory itself and the interindividual differences in recognition memory performance. We analysed behavioural and whole-brain fMRI data from 1′410 healthy young adults during the testing phase of a picture-recognition task. Using independent component analysis (ICA), we decomposed the fMRI contrast for previously seen vs. new (old-new) pictures into networks of brain activity. This was done in two independent samples (training sample: N = 645, replication sample: N = 665). Next, we investigated the relationship between the identified brain networks and interindividual differences in recognition memory performance by conducting a prediction analysis. We estimated the prediction accuracy in a third independent sample (test sample: N = 100). We identified 12 robust and replicable brain networks using two independent samples. Based on the activity of those networks we could successfully estimate interindividual differences in recognition memory performance with high accuracy in a third independent sample (r = 0.5, p = 1.29 × 10−07). Given the robustness of the ICA decomposition as well as the high prediction estimate, the identified brain networks may be considered as potential biomarkers of recognition memory performance in healthy young adults and can be further investigated in the context of health and disease. [ABSTRACT FROM AUTHOR]

Published

2021

46. Dual Role of an mps-2/KCNE-Dependent Pathway in Long-Term Memory and Age-Dependent Memory Decline.

Author

Fenyves, Bank G., Arnold, Andreas, Gharat, Vaibhav G., Haab, Carmen, Tishinov, Kiril, Peter, Fabian, de Quervain, Dominique, Papassotiropoulos, Andreas, and Stetak, Attila

Subjects

*LONG-term memory, *MEMBRANE proteins, *MEMORY, *CAENORHABDITIS elegans, *YOUNG adults, *POTASSIUM channels

Abstract

Activity-dependent persistent changes in neuronal intrinsic excitability and synaptic strength are underlying learning and memory. Voltage-gated potassium (K v) channels are potential regulators of memory and may be linked to age-dependent neuronal disfunction. MinK-related peptides (MiRPs) are conserved transmembrane proteins modulating K v channels; however, their possible role in the regulation of memory and age-dependent memory decline are unknown. Here, we show that, in C. elegans , mps-2 is the sole member of the MiRP family that controls exclusively long-term associative memory (LTAM) in AVA neuron. In addition, we demonstrate that mps-2 also plays a critical role in age-dependent memory decline. In young adult worms, mps-2 is transcriptionally upregulated by CRH-1/cyclic AMP (cAMP)-response-binding protein (CREB) during LTAM, although the mps-2 baseline expression is CREB independent and instead, during aging, relies on nhr-66 , which acts as an age-dependent repressor. Deletion of nhr-66 or its binding element in the mps-2 promoter prevents age-dependent transcriptional repression of mps-2 and memory decline. Finally, MPS-2 acts through the modulation of the K v 2.1/KVS-3 and K v 2.2/KVS-4 heteromeric potassium channels. Altogether, we describe a conserved MPS-2/KVS-3/KVS-4 pathway essential for LTAM and also for a programmed control of physiological age-dependent memory decline. • MPS-2/KCNE controls long-term associative memory • MPS-2 is in complex and acts through KVS-3 and KVS-4 voltage-gated K+ channels • Age-dependent memory decline is linked to MPS-2 expression levels • NHR-66 actively represses MPS-2 expression, controlling age-dependent memory decline Fenyves et al. report a conserved MPS-2/KVS-3/KVS-4 pathway essential for long-term associative memory in C. elegans. Furthermore, MPS-2 controls age-dependent memory decline being the target of a controlled repression mechanism mediated by NHR-66. These results provide a link between a conserved memory pathway and age-dependent memory decline. [ABSTRACT FROM AUTHOR]

Published

2021

47. NTRK2 Methylation is negatively related to traumatic memory and PTSD risk in traumatized individuals and to episodic memory in healthy subjects.

Author

Vukojevic, Vanja, Ghaffari, Navid, Kolassa, Iris, Wilker, Sarah, Elbert, Thomas, Papassotiropoulos, Andreas, and de Quervain, Dominique

Subjects

*POST-traumatic stress disorder, *EPISODIC memory, *METHYLATION, *MEMORY, *RWANDAN Genocide, 1994

Published

2019

48. SA55 - NEURAL CELL ADHESION MOLECULE 1 (NCAM-1) IS ASSOCIATED TO LONG-TERM AVERSIVE MEMORY IN NEMATODES AND HUMANS.

Author

Vukojevic, Vanja, Mastrandreas, Pavlina, Freytag, Virginie, Elbert, Thomas, Kolassa, Iris, de Quervain, Dominique J.F., Papassotiropoulos, Andreas, and Stetak, Attila

Subjects

*NEURAL cell adhesion molecule, *MEMORY, *LONG-term memory, *SHORT-term memory, *POST-traumatic stress disorder, *CELL adhesion molecules

Abstract

The Neural Cell Adhesion Molecule 1 (NCAM-1) has been implicated in several brain-related biological processes, including neuronal migration, axonal branching, fasciculation, and synaptogenesis, with a pivotal role in synaptic plasticity. Here, using an interdisciplinary approach we investigated the evolutionary conserved role of Neural Cell Adhesion Molecule 1 (NCAM-1) in learning and memory. First, we examined the temporal transcriptome profiles during C. elegans aversive olfactory long-term memory in a large-scale gene expression study (up to 24 hours upon conditioning). We observed sustained changes in NCAM-1 expression and thus we further investigated its association with aversive memory by using molecular genetics methods. Following, we examined the link between molecular signatures of the NCAM-1 gene and aversive memory in two independent human samples of European descent, by using genome-wide expression and methylation profiling. Finally, in a population of genocide survivors of African descent we investigated the link between NCAM-1 promoter DNA methylation and PTSD. NCAM-1 expression showed sustained expression changes up to 24 hours upon aversive olfactory conditioning. Loss of NCAM-1 function selectively impaired long-term memory in a negative but not in positive olfactory associative memory paradigm, without causing acquisition, sensory, motor or short-term memory deficits. Finally, both C. elegans and human NCAM-1 expression in nematodes rescued loss of C. elegans NCAM-1 gene function. Considering the conserved role of NCAM-1 in higher complex organisms, we next expanded our C. elegans findings in human. In two samples of European descent, we showed a negative correlation between DNA methylation of the NCAM-1 promoter and aversive memory (i.e., recognition of negative pictures) as well as a strong positive correlation between NCAM-1 expression and the same recognition performance. In the second sample, we could also show a strong correlation between NCAM-1 expression and long-delayed recall of negative pictures. Finally, in a population of genocide survivors DNA methylation at NCAM-1 gene promoter was inversely correlated with intrusive memories symptoms and Posttraumatic Stress Disorder (PTSD) risk. Taken together, our results support a conserved role of NCAM-1 in negative associative memory from nematodes to humans and might, ultimately, prove to be helpful in elucidating diagnostic markers and suggest novel therapy targets for memory-related disorders, like PTSD. [ABSTRACT FROM AUTHOR]

Published

2019