Your search keyword '"Torres-Berrío A"' showing total 48 results

1. Dopamine Axon Targeting in the Nucleus Accumbens in Adolescence Requires Netrin-1

Author

Santiago Cuesta, Dominique Nouel, Lauren M. Reynolds, Alice Morgunova, Angélica Torres-Berrío, Amanda White, Giovanni Hernandez, Helen M. Cooper, and Cecilia Flores

Subjects

adolescence, cortical development, guidance cues, nucleus accumbens, dopamine innervation, Biology (General), QH301-705.5

Abstract

The fine arrangement of neuronal connectivity during development involves the coordinated action of guidance cues and their receptors. In adolescence, the dopamine circuitry is still developing, with mesolimbic dopamine axons undergoing target-recognition events in the nucleus accumbens (NAcc), while mesocortical projections continue to grow toward the prefrontal cortex (PFC) until adulthood. This segregation of mesolimbic versus mesocortical dopamine pathways is mediated by the guidance cue receptor DCC, which signals dopamine axons intended to innervate the NAcc to recognize this region as their final target. Whether DCC-dependent mesolimbic dopamine axon targeting in adolescence requires the action of its ligand, Netrin-1, is unknown. Here we combined shRNA strategies, quantitative analysis of pre- and post-synaptic markers of neuronal connectivity, and pharmacological manipulations to address this question. Similar to DCC levels in the ventral tegmental area, Netrin-1 expression in the NAcc is dynamic across postnatal life, transitioning from high to low expression across adolescence. Silencing Netrin-1 in the NAcc in adolescence results in an increase in the expanse of the dopamine input to the PFC in adulthood, with a corresponding increase in the number of presynaptic dopamine sites. This manipulation also results in altered dendritic spine density and morphology of medium spiny neurons in the NAcc in adulthood and in reduced sensitivity to the behavioral activating effects of the stimulant drug of abuse, amphetamine. These cellular and behavioral effects mirror those induced by Dcc haploinsufficiency within dopamine neurons in adolescence. Dopamine targeting in adolescence requires the complementary interaction between DCC receptors in mesolimbic dopamine axons and Netrin-1 in the NAcc. Factors regulating either DCC or Netrin-1 in adolescence can disrupt mesocorticolimbic dopamine development, rendering vulnerability or protection to phenotypes associated with psychiatric disorders.

Published

2020

2. Monomethylation of Lysine 27 at Histone 3 Confers Lifelong Susceptibility to Stress

Author

Angélica Torres-Berrío, Molly Estill, Aarthi Ramakrishnan, Hope Kronman, Vishwendra Patel, Angélica Minier-Toribio, Orna Issler, Caleb J. Browne, Eric M. Parise, Yentl van der Zee, Deena Walker, Freddyson J. Martínez-Rivera, Casey K. Lardner, Romain Durand-de Cuttoli, Scott J. Russo, Li Shen, Simone Sidoli, and Eric J. Nestler

Subjects

Article

Abstract

SUMMARYHistone post-translational modifications are critical for mediating persistent alterations in gene expression. By combining unbiased proteomics profiling, and genome-wide approaches, we uncovered a role for mono-methylation of lysine 27 at histone H3 (H3K27me1) in the enduring effects of stress. Specifically, mice exposed to early life stress (ELS) or to chronic social defeat stress (CSDS) in adulthood displayed increased enrichment of H3K27me1, and transient decreases in H3K27me2, in the nucleus accumbens (NAc), a key brain-reward region. Stress induction of H3K27me1 was mediated by the VEFS domain of SUZ12, a core subunit of the polycomb repressive complex-2, which is induced by chronic stress and controls H3K27 methylation patterns. Overexpression of the VEFS domain led to social, emotional, and cognitive abnormalities, and altered excitability of NAc D1 mediums spiny neurons. Together, we describe a novel function of H3K27me1 in brain and demonstrate its role as a “chromatin scar” that mediates lifelong stress susceptibility.

Published

2023

3. The long noncoding RNA FEDORA is a cell type– and sex-specific regulator of depression

Author

Issler, Orna, primary, van der Zee, Yentl Y., additional, Ramakrishnan, Aarthi, additional, Xia, Sunhui, additional, Zinsmaier, Alexander K., additional, Tan, Chunfeng, additional, Li, Wei, additional, Browne, Caleb J., additional, Walker, Deena M., additional, Salery, Marine, additional, Torres-Berrío, Angélica, additional, Futamura, Rita, additional, Duffy, Julia E., additional, Labonte, Benoit, additional, Girgenti, Matthew J., additional, Tamminga, Carol A., additional, Dupree, Jeffrey L., additional, Dong, Yan, additional, Murrough, James W., additional, Shen, Li, additional, and Nestler, Eric J., additional

Published

2022

4. The long noncoding RNA FEDORA is a cell type- and sex-specific regulator of depression

Author

Orna Issler, Yentl Y. van der Zee, Aarthi Ramakrishnan, Sunhui Xia, Alexander K. Zinsmaier, Chunfeng Tan, Wei Li, Caleb J. Browne, Deena M. Walker, Marine Salery, Angélica Torres-Berrío, Rita Futamura, Julia E. Duffy, Benoit Labonte, Matthew J. Girgenti, Carol A. Tamminga, Jeffrey L. Dupree, Yan Dong, James W. Murrough, Li Shen, and Eric J. Nestler

Subjects

Multidisciplinary

Abstract

Women suffer from depression at twice the rate of men, but the underlying molecular mechanisms are poorly understood. Here, we identify marked baseline sex differences in the expression of long noncoding RNAs (lncRNAs), a class of regulatory transcripts, in human postmortem brain tissue that are profoundly lost in depression. One such human lncRNA, RP11-298D21.1 (which we termed FEDORA), is enriched in oligodendrocytes and neurons and up-regulated in the prefrontal cortex (PFC) of depressed females only. We found that virally expressing FEDORA selectively either in neurons or in oligodendrocytes of PFC promoted depression-like behavioral abnormalities in female mice only, changes associated with cell type–specific regulation of synaptic properties, myelin thickness, and gene expression. We also found that blood FEDORA levels have diagnostic implications for depressed women and are associated with clinical response to ketamine. These findings demonstrate the important role played by lncRNAs, and FEDORA in particular, in shaping the sex-specific landscape of the brain and contributing to sex differences in depression.

Published

2022

5. A Regional and Projection-Specific Role of RGSz1 in the Ventrolateral Periaqueductal Grey in the Modulation of Morphine Reward

Author

Sakloth, Farhana, primary, Sanchez-Reyes, Omar B., additional, Ruiz, Anne, additional, Nicolais, Andrew, additional, Serafini, Randal A., additional, Pryce, Kerri D., additional, Bertherat, Feodora, additional, Torres-Berrío, Angélica, additional, Gomes, Ivone, additional, Devi, Lakshmi A., additional, Wacker, Daniel, additional, and Zachariou, Venetia, additional

Published

2022

6. Antidepressant actions of ketamine engage cell-specific translation via eIF4E

Author

Angélica Torres-Berrío, Gareth M. Rurak, Mohammad J. Eslamizade, Natalina Salmaso, Danilo De Gregorio, Argel Aguilar-Valles, Agnieszka Skaleka, Martha Lopez-Canul, Nahum Sonenberg, Sara Bermudez, Jean-Claude Lacaille, Abdessattar Khlaifia, Gabriella Gobbi, Edna Matta-Camacho, Stephanie Simard, Aguilar-Valles, A., De Gregorio, D., Matta-Camacho, E., Eslamizade, M. J., Khlaifia, A., Skaleka, A., Lopez-Canul, M., Torres-Berrio, A., Bermudez, S., Rurak, G. M., Simard, S., Salmaso, N., Gobbi, G., Lacaille, J. -C., and Sonenberg, N.

Subjects

0301 basic medicine, Multidisciplinary, business.industry, Molecular neuroscience, Pharmacology, Hippocampal formation, Neurotransmission, Inhibitory postsynaptic potential, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, Excitatory postsynaptic potential, Medicine, Antidepressant, Ketamine, business, 030217 neurology & neurosurgery, medicine.drug, Behavioural despair test

Abstract

Effective pharmacotherapy for major depressive disorder remains a major challenge, as more than 30% of patients are resistant to the first line of treatment (selective serotonin reuptake inhibitors)1. Sub-anaesthetic doses of ketamine, a non-competitive N-methyl-d-aspartate receptor antagonist2,3, provide rapid and long-lasting antidepressant effects in these patients4–6, but the molecular mechanism of these effects remains unclear7,8. Ketamine has been proposed to exert its antidepressant effects through its metabolite (2R,6R)-hydroxynorketamine ((2R,6R)-HNK)9. The antidepressant effects of ketamine and (2R,6R)-HNK in rodents require activation of the mTORC1 kinase10,11. mTORC1 controls various neuronal functions12, particularly through cap-dependent initiation of mRNA translation via the phosphorylation and inactivation of eukaryotic initiation factor 4E-binding proteins (4E-BPs)13. Here we show that 4E-BP1 and 4E-BP2 are key effectors of the antidepressant activity of ketamine and (2R,6R)-HNK, and that ketamine-induced hippocampal synaptic plasticity depends on 4E-BP2 and, to a lesser extent, 4E-BP1. It has been hypothesized that ketamine activates mTORC1–4E-BP signalling in pyramidal excitatory cells of the cortex8,14. To test this hypothesis, we studied the behavioural response to ketamine and (2R,6R)-HNK in mice lacking 4E-BPs in either excitatory or inhibitory neurons. The antidepressant activity of the drugs is mediated by 4E-BP2 in excitatory neurons, and 4E-BP1 and 4E-BP2 in inhibitory neurons. Notably, genetic deletion of 4E-BP2 in inhibitory neurons induced a reduction in baseline immobility in the forced swim test, mimicking an antidepressant effect. Deletion of 4E-BP2 specifically in inhibitory neurons also prevented the ketamine-induced increase in hippocampal excitatory neurotransmission, and this effect concurred with the inability of ketamine to induce a long-lasting decrease in inhibitory neurotransmission. Overall, our data show that 4E-BPs are central to the antidepressant activity of ketamine. The antidepressant-like effects of ketamine in mice depend on the expression of specific eIF4E-binding proteins in excitatory and inhibitory neurons.

Published

2020

7. A Regional and Projection-Specific Role of RGSz1 in the Ventrolateral Periaqueductal Grey in the Modulation of Morphine Reward

Author

Farhana Sakloth, Omar B. Sanchez-Reyes, Anne Ruiz, Andrew Nicolais, Randal A. Serafini, Kerri D. Pryce, Feodora Bertherat, Angélica Torres-Berrío, Ivone Gomes, Lakshmi A. Devi, Daniel Wacker, and Venetia Zachariou

Subjects

Pharmacology, Analgesics, Opioid, Mice, Morphine, Reward, GTP-Binding Proteins, Receptors, Opioid, mu, Molecular Medicine, Animals, Periaqueductal Gray, Signal Transduction

Abstract

Opioid analgesics exert their therapeutic and adverse effects by activating

Published

2022

8. Cooperative synaptic and intrinsic plasticity in a disynaptic limbic circuit drive stress-induced anhedonia and passive coping in mice

Author

Carol A. Tamminga, Antonello Bonci, David J. Barker, Jocelyn Wu, Eric M. Parise, Leonardo Bontempi, Sissi Palma Ribeiro, Angélica Torres-Berrío, Alejandra Lopez, Marisela Morales, Marco Pignatelli, Hugo A. Tejeda, Mingshan Xue, Zhao-Lin Cai, Yocasta Alvarez-Bagnarol, Eric J. Nestler, Federica Lucantonio, and Rosa Anna Maria Marino

Subjects

0301 basic medicine, Anhedonia, Lateral hypothalamus, Physiology, Hippocampus, Nucleus accumbens, Biology, Medium spiny neuron, Nucleus Accumbens, Article, Mice, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Adaptation, Psychological, medicine, Animals, Molecular Biology, Receptors, Dopamine D1, Mice, Inbred C57BL, Psychiatry and Mental health, 030104 developmental biology, Excitatory postsynaptic potential, Brain stimulation reward, medicine.symptom, Depotentiation, Neuroscience, 030217 neurology & neurosurgery

Abstract

Stress promotes negative affective states, which include anhedonia and passive coping. While these features are in part mediated by neuroadaptations in brain reward circuitry, a comprehensive framework of how stress-induced negative affect may be encoded within key nodes of this circuit is lacking. Here, we show in a mouse model for stress-induced anhedonia and passive coping that these phenomena are associated with increased synaptic strength of ventral hippocampus (VH) excitatory synapses onto D1 medium spiny neurons (D1-MSNs) in the nucleus accumbens medial shell (NAcmSh), and with lateral hypothalamus (LH)-projecting D1-MSN hyperexcitability mediated by decreased inwardly rectifying potassium channel (IRK) function. Stress-induced negative affective states are prevented by depotentiation of VH to NAcmSh synapses, restoring Kir2.1 function in D1R-MSNs, or disrupting co-participation of these synaptic and intrinsic adaptations in D1-MSNs. In conclusion, our data provide strong evidence for a disynaptic pathway controlling maladaptive emotional behavior.

Published

2020

9. Neural function in DCC mutation carriers with and without mirror movements

Author

Donatella Tampieri, Amanda Chalupa, Sylvia M. L. Cox, Michael D. Fox, Marco Leyton, Angélica Torres-Berrío, Daniel E. Vosberg, Hugo Théoret, Cecilia Flores, Roberta La Piana, Vincent Beaulé, Alvaro Pascual-Leone, Yu Zhang, Chawki Benkelfat, Kevin Larcher, Dominique Allard, Alain Dagher, Danielle Cooke, Ridha Joober, Guy A. Rouleau, Natalia Jaworska, Franco Lepore, and Myriam Srour

Subjects

0301 basic medicine, Adult, Male, Cerebellum, Heterozygote, medicine.medical_treatment, Movement, Pyramidal Tracts, Biology, Functional Laterality, Corpus Callosum, White matter, 03 medical and health sciences, Young Adult, 0302 clinical medicine, medicine, Humans, RNA, Messenger, Research Articles, Movement Disorders, medicine.diagnostic_test, Electromyography, Functional Neuroimaging, fungi, Motor Cortex, Brain, Human brain, Middle Aged, DCC Receptor, Evoked Potentials, Motor, Magnetic Resonance Imaging, Transcranial Magnetic Stimulation, Transcranial magnetic stimulation, 030104 developmental biology, medicine.anatomical_structure, Neurology, Corticospinal tract, Mutation (genetic algorithm), Mutation, Axon guidance, Female, Neurology (clinical), Functional magnetic resonance imaging, Neuroscience, 030217 neurology & neurosurgery, Research Article

Abstract

Objective Recently identified mutations of the axon guidance molecule receptor gene, DCC, present an opportunity to investigate, in living human brain, mechanisms affecting neural connectivity and the basis of mirror movements, involuntary contralateral responses that mirror voluntary unilateral actions. We hypothesized that haploinsufficient DCC+/- mutation carriers with mirror movements would exhibit decreased DCC mRNA expression, a functional ipsilateral corticospinal tract, greater "mirroring" motor representations, and reduced interhemispheric inhibition. DCC+/- mutation carriers without mirror movements might exhibit some of these features. Methods The participants (n = 52) included 13 DCC+/- mutation carriers with mirror movements, 7 DCC+/- mutation carriers without mirror movements, 13 relatives without the mutation or mirror movements, and 19 unrelated healthy volunteers. The multimodal approach comprised quantitative real time polymerase chain reaction, transcranial magnetic stimulation (TMS), functional magnetic resonance imaging (fMRI) under resting and task conditions, and measures of white matter integrity. Results Mirror movements were associated with reduced DCC mRNA expression, increased ipsilateral TMS-induced motor evoked potentials, increased fMRI responses in the mirroring M1 and cerebellum, and markedly reduced interhemispheric inhibition. The DCC+/- mutation, irrespective of mirror movements, was associated with reduced functional connectivity and white matter integrity. Interpretation Diverse connectivity abnormalities were identified in mutation carriers with and without mirror movements, but corticospinal effects and decreased peripheral DCC mRNA appeared driven by the mirror movement phenotype. ANN NEUROL 2019;85:433-442.

Published

2019

10. Blood miR-144-3p: a novel diagnostic and therapeutic tool for depression

Author

Yentl Y. van der Zee, Lars M. T. Eijssen, Philipp Mews, Aarthi Ramakrishnan, Kelvin Alvarez, Casey K. Lardner, Hannah M. Cates, Deena M. Walker, Angélica Torres-Berrío, Caleb J. Browne, Ashley Cunningham, Flurin Cathomas, Hope Kronman, Eric M. Parise, Laurence de Nijs, Li Shen, James W. Murrough, Bart P. F. Rutten, Eric J. Nestler, Orna Issler, RS: MHeNs - R3 - Neuroscience, Psychiatrie & Neuropsychologie, Basic Neuroscience 1, and MUMC+: MA Psychiatrie (3)

Subjects

EXPRESSION, Depressive Disorder, Major, STRESS, MICRORNA, MAJOR DEPRESSION, PERIPHERAL-BLOOD, SUSCEPTIBILITY, RESILIENCE, CELL DISTRIBUTION WIDTH, Antidepressive Agents, Article, Epigenesis, Genetic, Cellular and Molecular Neuroscience, Psychiatry and Mental health, Mice, MicroRNAs, SOCIAL DEFEAT, TARGET, Animals, Ketamine, Molecular Biology, Biomarkers

Abstract

Major depressive disorder (MDD) is the leading cause of disability worldwide. There is an urgent need for objective biomarkers to diagnose this highly heterogeneous syndrome, assign treatment, and evaluate treatment response and prognosis. MicroRNAs (miRNAs) are short non-coding RNAs, which are detected in body fluids that have emerged as potential biomarkers of many disease conditions. The present study explored the potential use of miRNAs as biomarkers for MDD and its treatment. We profiled the expression levels of circulating blood miRNAs from mice that were collected before and after exposure to chronic social defeat stress (CSDS), an extensively validated mouse model used to study depression, as well as after either repeated imipramine or single-dose ketamine treatment. We observed robust differences in blood miRNA signatures between stress-resilient and stress-susceptible mice after an incubation period, but not immediately after exposure to the stress. Furthermore, ketamine treatment was more effective than imipramine at re-establishing baseline miRNA expression levels, but only in mice that responded behaviorally to the drug. We identified the red blood cell-specific miR-144-3p as a candidate biomarker to aid depression diagnosis and predict ketamine treatment response in stress-susceptible mice and MDD patients. Lastly, we demonstrate that systemic knockdown of miR-144-3p, via subcutaneous administration of a specific antagomir, is sufficient to reduce the depression-related phenotype in stress-susceptible mice. RNA-sequencing analysis of blood after such miR-144-3p knockdown revealed a blunted transcriptional stress signature as well. These findings identify miR-144-3p as a novel target for diagnosis of MDD as well as for antidepressant treatment, and enhance our understanding of epigenetic processes associated with depression.

Published

2021

11. H3K79me2 dynamics in medium spiny neurons mediate long-term behavioral and cell type-specific molecular effects of early life stress

Author

Simone Sidoli, Eric J. Nestler, Deena M. Walker, Orna Issler, Hope Kronman, Caleb J. Browne, Benjamin A. Garcia, Arthur Godino, Catherine Jensen Pena, Philipp Mews, Yentl Y. van der Zee, Eric M. Parise, Rachael L. Neve, Aarthi Ramakrishnan, Angélica Torres-Berrío, Brittany F. Boyce, Li Shen, and Casey K. Lardner

Subjects

Male, 0301 basic medicine, Jumonji Domain-Containing Histone Demethylases, Nucleus accumbens, Medium spiny neuron, Nucleus Accumbens, Article, Histones, Social defeat, Mice, 03 medical and health sciences, Histone H3, 0302 clinical medicine, Transcriptional regulation, Animals, Histone Demethylases, Neurons, Regulation of gene expression, biology, Receptors, Dopamine D2, F-Box Proteins, Receptors, Dopamine D1, General Neuroscience, Histone-Lysine N-Methyltransferase, DOT1L, 030104 developmental biology, Histone, Gene Expression Regulation, biology.protein, Neuroscience, Stress, Psychological, 030217 neurology & neurosurgery

Abstract

Animals susceptible to chronic social defeat stress (CSDS) exhibit depression-related behaviors, and show aberrant transcription across several limbic brain regions. The nucleus accumbens (NAc) in particular shows unique susceptible versus resilient phenotypes at the transcriptional, neuroanatomical, and physiological levels. Early life stress (ELS) promotes susceptibility to CSDS in adulthood, but associated enduring changes in transcriptional control mechanisms in NAc have not yet been investigated. Here, we examined long-lasting changes in histone modifications induced in NAc by ELS and studied their underlying mechanisms in mediating heightened lifelong stress susceptibility in male and female mice. We identify dimethylation of lysine 79 of histone H3 (H3K79me2) and the enzymes that control this modification, selectively in D2-type medium spiny neurons, as crucial for the expression of ELS-induced stress susceptibility. We also map the site-specific regulation of this histone mark genome-wide, and reveal the transcriptional networks it modulates. Finally, we demonstrate the potential clinical relevance of this epigenetic mechanism by showing that systemic delivery of a small molecule inhibitor of H3K79me2 deposition reverses ELS-induced behavioral deficits.

Published

2021

12. Sex-specific role for SLIT1 in regulating stress susceptibility

Author

Angélica Torres-Berrío, Casey K. Lardner, Marine Salery, Lars M. T. Eijssen, Philipp Mews, Julia E. Duffy, Collin D. Teague, Bart P. F. Rutten, Eric M. Parise, Li Shen, Hope Kronman, Lyonna F. Parise, Laurence de Nijs, Orna Issler, Benoit Labonté, Yentl Y. van der Zee, Vishwendra Patel, Eric J. Nestler, Deena M. Walker, Caleb J. Browne, Catherine Jensen Pena, and Aarthi Ramakrishnan

Subjects

0301 basic medicine, Male, medicine.medical_specialty, Anhedonia, Ventromedial prefrontal cortex, Prefrontal Cortex, Anxiety, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Downregulation and upregulation, Internal medicine, Medicine, Animals, Prefrontal cortex, Biological Psychiatry, Depression (differential diagnoses), Gene knockdown, Depressive Disorder, Major, Sex Characteristics, business.industry, medicine.disease, 030104 developmental biology, medicine.anatomical_structure, Endocrinology, Major depressive disorder, Female, medicine.symptom, business, 030217 neurology & neurosurgery

Abstract

Background Major depressive disorder is a pervasive and debilitating syndrome characterized by mood disturbances, anhedonia, and alterations in cognition. While the prevalence of major depressive disorder is twice as high for women as men, little is known about the molecular mechanisms that drive sex differences in depression susceptibility. Methods We discovered that SLIT1, a secreted protein essential for axonal navigation and molecular guidance during development, is downregulated in the adult ventromedial prefrontal cortex (vmPFC) of women with depression compared with healthy control subjects, but not in men with depression. This sex-specific downregulation of Slit1 was also observed in the vmPFC of mice exposed to chronic variable stress. To identify a causal, sex-specific role for SLIT1 in depression-related behavioral abnormalities, we performed knockdown (KD) of Slit1 expression in the vmPFC of male and female mice. Results When combined with stress exposure, vmPFC Slit1 KD reflected the human condition by inducing a sex-specific increase in anxiety- and depression-related behaviors. Furthermore, we found that vmPFC Slit1 KD decreased the dendritic arborization of vmPFC pyramidal neurons and decreased the excitability of the neurons in female mice, effects not observed in males. RNA sequencing analysis of the vmPFC after Slit1 KD in female mice revealed an augmented transcriptional stress signature. Conclusions Together, our findings establish a crucial role for SLIT1 in regulating neurophysiological and transcriptional responses to stress within the female vmPFC and provide mechanistic insight into novel signaling pathways and molecular factors influencing sex differences in depression susceptibility.

Published

2021

13. A Regional and Projection-Specific Role of RGSz1 in the Ventrolateral Periaqueductal Grey in the Modulation of Morphine Reward

Author

Sakloth, Farhana, Sanchez-Reyes, Omar B., Ruiz, Anne, Nicolais, Andrew, Serafini, Randal A., Pryce, Kerri D., Bertherat, Feodora, Torres-Berrío, Angélica, Gomes, Ivone, Devi, Lakshmi A., Wacker, Daniel, and Zachariou, Venetia

Abstract

Opioid analgesics exert their therapeutic and adverse effects by activating μopioid receptors (MOPR); however, functional responses to MOPR activation are modulated by distinct signal transduction complexes within the brain. The ventrolateral periaqueductal gray (vlPAG) plays a critical role in modulation of nociception and analgesia, but the exact intracellular pathways associated with opioid responses in this region are not fully understood. We previously showed that knockout of the signal transduction modulator Regulator of G protein Signaling z1 (RGSz1) enhanced analgesic responses to opioids, whereas it decreased the rewarding efficacy of morphine. Here, we applied viral mediated gene transfer methodology and delivered adeno-associated virus (AAV) expressing Cre recombinase to the vlPAG of RGSz1fl\flmice to demonstrate that downregulation of RGSz1 in this region decreases sensitivity to morphine in the place preference paradigm, under pain-free as well as neuropathic pain states. We also used retrograde viral vectors along with flippase-dependent Cre vectors to conditionally downregulate RGSz1 in vlPAG projections to the ventral tegmental area (VTA) and show that downregulation of RGSz1 prevents the development of place conditioning to low morphine doses. Consistent with the role for RGSz1 as a negative modulator of MOPR activity, RGSz1KO enhances opioid-induced cAMP inhibition in periaqueductal gray (PAG) membranes. Furthermore, using a new generation of bioluminescence resonance energy transfer (BRET) sensors, we demonstrate that RGSz1 modulates Gαz but not other Gαi family subunits and selectively impedes MOPR-mediated Gαz signaling events invoked by morphine and other opioids. Our work highlights a regional and circuit-specific role of the G protein–signaling modulator RGSz1 in morphine reward, providing insights on midbrain intracellular pathways that control addiction-related behaviors.SIGNIFICANCE STATEMENTThis study used advanced genetic mouse models to highlight the role of the signal transduction modulator named RGSz1 in responses to clinically used opioid analgesics. We show that RGSz1 controls the rewarding efficacy of opioids by actions in ventrolateral periaqueductal gray projections to the ventral tegmental area, a key component of the midbrain dopamine pathway. These studies highlight novel mechanisms by which pain-modulating structures control the rewarding efficacy of opioids.

Published

2023

14. miR-218 in adolescence predicts and mediates vulnerability to stress

Author

Angélica Torres-Berrío, Alice Morgunova, Cecilia Flores, Santiago Cuesta, Eric J. Nestler, and Michel Giroux

Subjects

Male, 0301 basic medicine, Deleted in Colorectal Cancer, media_common.quotation_subject, Period (gene), Vulnerability, Down-Regulation, Prefrontal Cortex, Article, Social defeat, Mice, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, Stress (linguistics), microRNA, Animals, Medicine, Social Behavior, Prefrontal cortex, Biological Psychiatry, Depression (differential diagnoses), media_common, business.industry, MicroRNAs, 030104 developmental biology, Psychological resilience, business, Neuroscience, Stress, Psychological, 030217 neurology & neurosurgery

Abstract

Adolescence is a period of increased vulnerability to psychiatric disorders including depression. Discovering novel biomarkers to identify individuals who are at high risk is very much needed. Our previous work shows that the microRNA miR-218 mediates susceptibility to stress and depression in adulthood, by targeting the Netrin-1 guidance cue receptor gene Dcc (Deleted in colorectal cancer) in the medial prefrontal cortex (mPFC). Here we investigated whether miR-218 regulates Dcc expression in adolescence and could serve as an early predictor of lifetime stress vulnerability. miR-218 expression in the mPFC increases from early adolescence to adulthood and correlates negatively with Dcc levels. In blood, postnatal miR-218 expression parallels changes occurring in the mPFC. Notably, circulating miR-218 levels in adolescence associate with vulnerability to social defeat stress in adulthood, with high levels associated with social avoidance severity. Indeed, downregulation of miR-218 in the mPFC in adolescence promotes resilience to stress in adulthood, indicating that adolescent miR-218 expression may serve both as a marker of risk and as a target for early interventions.

Published

2020

15. Dopamine Axon Targeting in the Nucleus Accumbens in Adolescence Requires Netrin-1

Author

Angélica Torres-Berrío, Amanda White, Giovanni Hernandez, Lauren M. Reynolds, Cecilia Flores, Dominique Nouel, Helen M. Cooper, Alice Morgunova, and Santiago Cuesta

Subjects

0301 basic medicine, Dendritic spine, nucleus accumbens, Nucleus accumbens, Biology, Medium spiny neuron, Cell and Developmental Biology, 03 medical and health sciences, 0302 clinical medicine, Dopamine, Netrin, medicine, guidance cues, cortical development, Amphetamine, Prefrontal cortex, lcsh:QH301-705.5, Original Research, fungi, Cell Biology, Ventral tegmental area, 030104 developmental biology, medicine.anatomical_structure, nervous system, lcsh:Biology (General), 030220 oncology & carcinogenesis, dopamine innervation, adolescence, Neuroscience, Developmental Biology, medicine.drug

Abstract

The fine arrangement of neuronal connectivity during development involves the coordinated action of guidance cues and their receptors. In adolescence, the dopamine circuitry is still developing, with mesolimbic dopamine axons undergoing target-recognition events in the nucleus accumbens (NAcc), while mesocortical projections continue to grow toward the prefrontal cortex (PFC) until adulthood. This segregation of mesolimbic versus mesocortical dopamine pathways is mediated by the guidance cue receptor DCC, which signals dopamine axons intended to innervate the NAcc to recognize this region as their final target. Whether DCC-dependent mesolimbic dopamine axon targeting in adolescence requires the action of its ligand, Netrin-1, is unknown. Here we combined shRNA strategies, quantitative analysis of pre- and post-synaptic markers of neuronal connectivity, and pharmacological manipulations to address this question. Similar to DCC levels in the ventral tegmental area, Netrin-1 expression in the NAcc is dynamic across postnatal life, transitioning from high to low expression across adolescence. Silencing Netrin-1 in the NAcc in adolescence results in an increase in the expanse of the dopamine input to the PFC in adulthood, with a corresponding increase in the number of presynaptic dopamine sites. This manipulation also results in altered dendritic spine density and morphology of medium spiny neurons in the NAcc in adulthood and in reduced sensitivity to the behavioral activating effects of the stimulant drug of abuse, amphetamine. These cellular and behavioral effects mirror those induced by Dcc haploinsufficiency within dopamine neurons in adolescence. Dopamine targeting in adolescence requires the complementary interaction between DCC receptors in mesolimbic dopamine axons and Netrin-1 in the NAcc. Factors regulating either DCC or Netrin-1 in adolescence can disrupt mesocorticolimbic dopamine development, rendering vulnerability or protection to phenotypes associated with psychiatric disorders.

Published

2020

16. Adolescent Social Isolation Reprograms the Medial Amygdala: Transcriptome and Sex Differences in Reward

Author

Hannah M. Cates, Andrew P. Lipschultz, Li Shen, Georgia E. Hodes, Bin Zhang, Ashley M. Cunningham, Arthur Godino, Orna Issler, Yentl Y. van der Zee, Eric M. Parise, Aarthi Ramakrishnan, Catherine Jensen Pena, Angélica Torres-Berrío, Xianxiao Zhou, Eric J. Nestler, Deena M. Walker, Caleb J. Browne, Pamela J. Kennedy, and Rosemary C. Bagot

Subjects

0303 health sciences, Period (gene), CRYM, Crystallin mu, Biology, Amygdala, Transcriptome, 03 medical and health sciences, 0302 clinical medicine, medicine.anatomical_structure, Gene expression, medicine, Anxiety, Social isolation, medicine.symptom, Neuroscience, 030217 neurology & neurosurgery, 030304 developmental biology

Abstract

Adolescence is a sensitive window for reward- and stress-associated behavior. Although stress during this period causes long-term changes in behavior in males, how females respond is relatively unknown. Here we show that social isolation stress in adolescence, but not adulthood, induces persistent but opposite effects on anxiety- and cocaine-related behaviors in male vs. female mice, and that these effects are reflected in transcriptional profiles within the adult medial amygdala (meA). By integrating differential gene expression with co-expression network analyses, we identified crystallin mu (Crym), a thyroid-binding protein, as a key driver of these transcriptional profiles. Manipulation of Crym specifically within adult meA neurons recapitulates the behavioral and transcriptional effects of social isolation and re-opens a window of plasticity that is otherwise closed. Our results establish that meA is essential for sex-specific responses to stressful and rewarding stimuli through transcriptional programming that occurs during adolescence.

Published

2020

17. Unraveling the epigenetic landscape of depression: focus on early life stress

Author

Eric J. Nestler, Eric M. Parise, Orna Issler, and Angélica Torres-Berrío

Subjects

Epigenomics, early life stress, Biology, Chromatin remodeling, noncoding RNA, chromatin remodeling, 03 medical and health sciences, 0302 clinical medicine, Genetic predisposition, Animals, Humans, Genetic Predisposition to Disease, histone modification, Epigenetics, Depressive Disorder, DNA methylation, Depression, Epigenome, Non-coding RNA, State of the Art, 030227 psychiatry, 3. Good health, Chromatin, Histone, biology.protein, Neuroscience, Stress, Psychological

Abstract

Depression is a devastating psychiatric disorder caused by a combination of genetic predisposition and life events, mainly exposure to stress. Early life stress (ELS) in particular is known to "scar" the brain, leading to an increased susceptibility to developing depression later in life via epigenetic mechanisms. Epigenetic processes lead to changes in gene expression that are not due to changes in DNA sequence, but achieved via modulation of chromatin modifications, DNA methylation, and noncoding RNAs. Here we review common epigenetic mechanisms including the enzymes that take part in reading, writing, and erasing specific epigenetic marks. We then describe recent developments in understanding how ELS leads to changes in the epigenome that are manifested in increased susceptibility to depression-like abnormalities in animal models. We conclude with highlighting the need for future studies that will potentially enable the utilisation of the understanding of epigenetic changes linked to ELS for the development of much-needed novel therapeutic strategies and biomarker discovery. .La depresión es un trastorno psiquiátrico devastador causado por una combinación de una predisposición genética y de acontecimientos vitales, en que destaca la exposición al estrés. Se sabe que el estrés en los inicios de la vida (EIV) deja una “cicatriz” en el cerebro, lo que lleva a un aumento de la susceptibilidad para desarrollar una depresión en años posteriores a través de mecanismos epigenéticos. Los procesos epigenéticos conducen a cambios en la expresión génica que no se deben a cambios en la secuencia de ADN, sino que ocurren mediante la modulación de las modificaciones de la cromatina, de la metilación del ADN y de los ARNs no codificantes. En este artículo se revisan los mecanismos epigenéticos comunes, incluyendo las enzimas que participan en la lectura, la escritura y el borrado de marcas epigenéticas específicas. Luego se describen los desarrollos recientes en la comprensión de cómo el EIV produce cambios en el epigenoma, lo que se manifiesta -en modelos animales- en una mayor susceptibilidad a anormalidades similares a la depresión. Se finaliza destacando la necesidad de futuros estudios que potencialmente permitan utilizar la comprensión de los cambios epigenéticos relacionados con el EIV para el desarrollo de muy necesarias nuevas estrategias terapéuticas y el descubrimiento de biomarcadores.La dépression, trouble psychiatrique destructeur, est provoquée par une association de prédisposition génétique et d’événements de vie, principalement l’exposition au stress. Le stress de début de vie est particulièrement connu pour laisser une « cicatrice » au cerveau, le rendant plus susceptible de développer une dépression ultérieure par le biais de mécanismes épigénétiques. Les processus épigénétiques entraînent des modifications de l’expression génique qui ne sont pas dues à des changements de séquence ADN mais qui apparaissent par modulation des modifications de la chromatine, par méthylation de l’ADN et par des ARN non codants. Nous analysons dans cet article les mécanismes épigénétiques courants, dont les enzymes impliquées dans la lecture, l’écriture et l’effacement de marques épigénétiques spécifiques. Ainsi que nous le décrivons ensuite, des avancées récentes nous permettent de comprendre comment le stress de début de vie modifie l’épigénome en augmentant la susceptibilité aux anomalies de la dépression dans les modèles animaux. Nous en concluons que de nouvelles études sont nécessaires qui pourraient utiliser cette compréhension des modifications épigénétiques liées au stress de début de vie pour développer d’indispensables nouvelles stratégies thérapeutiques et la découverte de biomarqueurs.

Published

2020

18. DCC Receptors Drive Prefrontal Cortex Maturation by Determining Dopamine Axon Targeting in Adolescence

Author

Esther Del Cid Pellitero, Bryan Kolb, Paul Krimpenfort, Lauren M. Reynolds, Angélica Torres-Berrío, Laura C. Lambert, Matthew Pokinko, Cecilia Flores, Colleen Manitt, Santiago Cuesta, and Michael Wodzinski

Subjects

Male, 0301 basic medicine, Prefrontal Cortex, Striatum, Nucleus accumbens, Nucleus Accumbens, Article, Mice, 03 medical and health sciences, 0302 clinical medicine, Dopamine, Netrin, medicine, Animals, Attention, Axon, Maze Learning, Prefrontal cortex, Biological Psychiatry, Behavior, Animal, Dopaminergic Neurons, Dopaminergic, Cognitive flexibility, DCC Receptor, Axons, Inhibition, Psychological, 030104 developmental biology, medicine.anatomical_structure, nervous system, Gene Knockdown Techniques, Set, Psychology, Psychology, Neuroscience, 030217 neurology & neurosurgery, medicine.drug

Abstract

Background Dopaminergic input to the prefrontal cortex (PFC) increases throughout adolescence and, by establishing precisely localized synapses, calibrates cognitive function. However, why and how mesocortical dopamine axon density increases across adolescence remains unknown. Methods We used a developmental application of axon-initiated recombination to label and track the growth of dopamine axons across adolescence in mice. We then paired this recombination with cell-specific knockdown of the netrin-1 receptor DCC to determine its role in adolescent dopamine axon growth. We then assessed how altering adolescent PFC dopamine axon growth changes the structural and functional development of the PFC by quantifying pyramidal neuron morphology and cognitive performance. Results We show, for the first time, that dopamine axons continue to grow from the striatum to the PFC during adolescence. Importantly, we discover that DCC, a guidance cue receptor, controls the extent of this protracted growth by determining where and when dopamine axons recognize their final target. When DCC-dependent adolescent targeting events are disrupted, dopamine axons continue to grow ectopically from the nucleus accumbens to the PFC and profoundly change PFC structural and functional development. This leads to alterations in cognitive processes known to be impaired across psychiatric conditions. Conclusions The prolonged growth of dopamine axons represents an extraordinary period for experience to influence their adolescent trajectory and predispose to or protect against psychopathology. DCC receptor signaling in dopamine neurons is a molecular link where genetic and environmental factors may interact in adolescence to influence the development and function of the prefrontal cortex.

Published

2018

19. Author Correction: Long-term behavioral and cell-type-specific molecular effects of early life stress are mediated by H3K79me2 dynamics in medium spiny neurons

Author

Eric M. Parise, Li Shen, Orna Issler, Eric J. Nestler, Deena M. Walker, Caleb J. Browne, Benjamin A. Garcia, Casey K. Lardner, Catherine Jensen Pena, Simone Sidoli, Arthur Godino, Hope Kronman, Aarthi Ramakrishnan, Yentl Y. van der Zee, Rachael L. Neve, Philipp Mews, Brittany F. Boyce, and Angélica Torres-Berrío

Subjects

General Neuroscience, Cell type specific, Early life stress, Biology, Medium spiny neuron, Neuroscience, Term (time)

Published

2021

20. The 43rd Annual Meeting of the Canadian College of Neuropsychopharmacology, November 4, 2021.

Author

Torres-Berrío, Angélica, Ramakrishnan, Aarthi, Minier-Toribio, Angélica, Parise, Eric M., Martínez-Rivera, Freddyson J., Browne, Caleb J., Issler, Orna, van der Zee, Yentl Y., Sial, Omar, García, Benjamin, Helin, Kristian, Sidoli, Simone, Shen, Li, Nestler, Eric J., Yap, Sidney, Luki, Jessica, Hanstock, Christopher C., Seres, Peter, Shandro, Tami, and Hanstock, Sarah

Subjects

*ABSTRACTING, *CONFERENCES & conventions, *PROFESSIONAL associations, *PSYCHOPHARMACOLOGY

Published

2022

21. Dopamine Axon Targeting in the Nucleus Accumbens in Adolescence Requires Netrin-1

Author

Cuesta, Santiago, primary, Nouel, Dominique, additional, Reynolds, Lauren M., additional, Morgunova, Alice, additional, Torres-Berrío, Angélica, additional, White, Amanda, additional, Hernandez, Giovanni, additional, Cooper, Helen M., additional, and Flores, Cecilia, additional

Published

2020

22. Sex-Specific Role for the Long Non-coding RNA LINC00473 in Depression

Author

Issler, Orna, primary, van der Zee, Yentl Y., additional, Ramakrishnan, Aarthi, additional, Wang, Junshi, additional, Tan, Chunfeng, additional, Loh, Yong-Hwee E., additional, Purushothaman, Immanuel, additional, Walker, Deena M., additional, Lorsch, Zachary S., additional, Hamilton, Peter J., additional, Peña, Catherine J., additional, Flaherty, Erin, additional, Hartley, Brigham J., additional, Torres-Berrío, Angélica, additional, Parise, Eric M., additional, Kronman, Hope, additional, Duffy, Julia E., additional, Estill, Molly S., additional, Calipari, Erin S., additional, Labonté, Benoit, additional, Neve, Rachael L., additional, Tamminga, Carol A., additional, Brennand, Kristen J., additional, Dong, Yan, additional, Shen, Li, additional, and Nestler, Eric J., additional

Published

2020

23. Unraveling the epigenetic landscape of depression: focus on early life stress

Author

Torres-Berrío, Angélica, primary, Issler, Orna, additional, Parise, Eric M., additional, and Nestler, Eric J., additional

Published

2019

24. Non-Contingent Exposure to Amphetamine in Adolescence Recruits miR-218 to Regulate Dcc Expression in the VTA

Author

Dominique Nouel, Angélica Torres-Berrío, Cecilia Flores, Andreas Arvanitogiannis, Santiago Cuesta, José Maria Restrepo-Lozano, Lauren M. Reynolds, and Steven Silvestrin

Subjects

Male, 0301 basic medicine, medicine.medical_treatment, Gene Expression, Biology, Mice, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, Dopamine, Dopamine receptor D2, microRNA, medicine, Animals, Prefrontal cortex, Amphetamine, Pharmacology, Dopaminergic Neurons, Ventral Tegmental Area, fungi, Age Factors, DCC Receptor, Mice, Inbred C57BL, Stimulant, Ventral tegmental area, MicroRNAs, Psychiatry and Mental health, 030104 developmental biology, medicine.anatomical_structure, Central Nervous System Stimulants, Original Article, Neuroscience, 030217 neurology & neurosurgery, medicine.drug

Abstract

The development of the dopamine input to the medial prefrontal cortex occurs during adolescence and is a process that is vulnerable to disruption by stimulant drugs such as amphetamine. We have previously linked the amphetamine-induced disruption of dopamine connectivity and prefrontal cortex maturation during adolescence to the downregulation of the Netrin-1 receptor, DCC, in dopamine neurons. However, how DCC expression in dopamine neurons is itself regulated is completely unknown. MicroRNA (miRNA) regulation of mRNA translation and stability is a prominent mechanism linking environmental events to changes in protein expression. Here, using male mice, we show that miR-218 is expressed in dopamine neurons and is a repressor of DCC. Whereas Dcc mRNA levels increase from early adolescence to adulthood, miR-218 exhibits the exact opposite switch, most likely maintaining postnatal Dcc expression. This dynamic regulation appears to be selective to Dcc since the expression of Robo 1, the other guidance cue receptor target of miR-218, does not vary with age. Amphetamine in adolescence, but not in adulthood, increases miR-218 in the VTA and this event is required for drug-induced downregulation of Dcc mRNA and protein expression. This effect seems to be specific to Dcc because amphetamine does not alter Robo1. Furthermore, the upregulation of miR-218 by amphetamine requires dopamine D2 receptor activation. These findings identify miR-218 as regulator of DCC in the VTA both in normal development and after drug exposure in adolescence.

Published

2017

25. The Netrin-1/DCC Guidance Cue Pathway as a Molecular Target in Depression: Translational Evidence

Author

Cecilia Flores, Eric J. Nestler, Giovanni Hernandez, and Angélica Torres-Berrío

Subjects

0301 basic medicine, Receptors, Cell Surface, Biology, Article, 03 medical and health sciences, 0302 clinical medicine, microRNA, Netrin, medicine, Humans, Prefrontal cortex, Biological Psychiatry, Depression (differential diagnoses), Depressive Disorder, Major, Mechanism (biology), Depression, Tumor Suppressor Proteins, fungi, Netrin-1, medicine.disease, DCC Receptor, Axons, MicroRNAs, 030104 developmental biology, nervous system, Molecular targets, Biomarker (medicine), Major depressive disorder, Cues, Neuroscience, 030217 neurology & neurosurgery, Genome-Wide Association Study

Abstract

The Netrin-1/DCC guidance cue pathway plays a critical role in guiding growing axons toward the prefrontal cortex during adolescence and in the maturational organization and adult plasticity of prefrontal cortex connectivity. In this review, we put forward the idea that alterations in prefrontal cortex architecture and function, which are intrinsically linked to the development of major depressive disorder, originate in part from the dysregulation of the Netrin-1/DCC pathway by a mechanism that involves microRNA-218. We discuss evidence derived from mouse models of stress and from human postmortem brain and genome-wide association studies indicating an association between the Netrin-1/DCC pathway and major depressive disorder. We propose a potential role of circulating microRNA-218 as a biomarker of stress vulnerability and major depressive disorder.

Published

2019

26. Oxycodone‐induced gene expression adaptations in the brain reward center in a murine model of neuropathic pain

Author

Claire Polizu, Kerri D. Pryce, Angélica Torres-Berrío, Li Shen, Hope Kronman, Aarthi Ramakrishnan, Venetia Zachariou, Eric J. Nestler, and Catherine Jensen Pena

Subjects

business.industry, Biochemistry, Murine model, Neuropathic pain, Gene expression, Genetics, Medicine, Brain stimulation reward, Center (algebra and category theory), business, Molecular Biology, Oxycodone, Neuroscience, Biotechnology, medicine.drug

Published

2019

27. MiR-218: A Molecular Switch and Potential Biomarker of Susceptibility to Stress

Author

José Maria Restrepo-Lozano, Dominique Nouel, Angélica Torres-Berrío, Santiago Cuesta, Pier Larochelle, Eric J. Nestler, Eric M. Parise, and Cecilia Flores

Subjects

Male, 0301 basic medicine, Down-Regulation, Prefrontal Cortex, Biology, behavioral disciplines and activities, Article, Social Defeat, Social defeat, Mice, Cellular and Molecular Neuroscience, 03 medical and health sciences, 0302 clinical medicine, Downregulation and upregulation, Animals, Chronic stress, Prefrontal cortex, Molecular Biology, 030304 developmental biology, 0303 health sciences, musculoskeletal, neural, and ocular physiology, Up-Regulation, MicroRNAs, Psychiatry and Mental health, 030104 developmental biology, nervous system, Potential biomarkers, Single session, Neuroscience, Biomarkers, Stress, Psychological, 030217 neurology & neurosurgery, psychological phenomena and processes

Abstract

Low miR-218 expression in the medial prefrontal cortex (mPFC) is a consistent trait of depression. Here we assessed whether miR-218 in the mPFC confers resilience or susceptibility to depression-like behaviors in adult mice, using the chronic social defeat stress (CSDS) model of depression. We also investigated whether stress-induced variations of miR-218 expression in the mPFC can be detected in blood. We find that downregulation of miR-218 in the mPFC increases susceptibility to a single session of social defeat, whereas overexpression of miR-218 selectively in mPFC pyramidal neurons promotes resilience to CSDS and prevents stress-induced morphological alterations to those neurons. After CSDS, susceptible mice have low levels of miR-218 in the blood as compared to control or resilient groups. We show further that up-and downregulation of miR-218 levels specifically in the mPFC correlates with miR-218 expression in blood. Our results suggest that miR-218 in the adult mPFC might function as a molecular switch that determines susceptibility versus resilience to chronic stress, and that stress-induced variations in mPFC levels of miR-218 could be detected in blood. We propose that blood expression of miR-218 might serve as potential readout of vulnerability to stress and as a proxy of mPFC function.

Published

2019

28. Interaction Between Stress and Addiction: Contributions From Latin-American Neuroscience

Author

Angélica Torres-Berrío, Silvia Lopez-Guzman, Santiago Cuesta, and Mauricio O. Nava-Mesa

Subjects

0301 basic medicine, Neural substrate, media_common.quotation_subject, lcsh:BF1-990, mesocorticolimbic pathway, Addiction, Review, Stress, Affect (psychology), Heroin, stress, 03 medical and health sciences, Reward system, 0302 clinical medicine, medicine, Psychology, Chronic stress, Mesocorticolimbic pathway, General Psychology, media_common, biology, biomarkers, CRF, Abstinence, biology.organism_classification, Latin America, lcsh:Psychology, 030104 developmental biology, addiction, Cannabis, Neuroscience, Biomarkers, 030217 neurology & neurosurgery, medicine.drug

Abstract

Drug addiction is a chronic neuropsychiatric disorder that escalates from an initial exposure to drugs of abuse, such as cocaine, cannabis, or heroin, to compulsive drug-seeking and intake, reduced ability to inhibit craving-induced behaviors, and repeated cycles of abstinence and relapse. It is well-known that chronic changes in the brain's reward system play an important role in the neurobiology of addiction. Notably, environmental factors such as acute or chronic stress affect this system, and increase the risk for drug consumption and relapse. Indeed, the HPA axis, the autonomic nervous system, and the extended amygdala, among other brain stress systems, interact with the brain's reward circuit involved in addictive behaviors. There has been a growing interest in studying the molecular, cellular, and behavioral mechanisms of stress and addiction in Latin-America over the last decade. Nonetheless, these contributions may not be as strongly acknowledged by the broad scientific audience as studies coming from developed countries. In this review, we compile for the first time a series of studies conducted by Latin American-based neuroscientists, who have devoted their careers to studying the interaction between stress and addiction, from a neurobiological and clinical perspective. Specific contributions about this interaction include the study of CRF receptors in the lateral septum, investigations on the neural mechanisms of cross-sensitization for psychostimulants and ethanol, the identification of the Wnt/?-catenin pathway as a critical neural substrate for stress and addiction, and the emergence of the cannabinoid system as a promising therapeutic target. We highlight animal and human studies, including for instance, reports coming from Latin American laboratories on single nucleotide polymorphisms in stress-related genes and potential biomarkers of vulnerability to addiction, that aim to bridge the knowledge from basic science to clinical research. © 2018 Torres-Berrio, Cuesta, Lopez-Guzman and Nava-Mesa.

Published

2018

29. Sex-Specific Role for the Long Non-coding RNA LINC00473 in Depression

Author

Yentl Y. van der Zee, Li Shen, Catherine Jensen Pena, Yan Dong, Orna Issler, Angélica Torres-Berrío, Benoit Labonté, Zachary S. Lorsch, Chunfeng Tan, Julia E. Duffy, Brigham J. Hartley, Kristen J. Brennand, Eric M. Parise, Erin Flaherty, Junshi Wang, Peter J. Hamilton, Yong-Hwee E. Loh, Immanuel Purushothaman, Rachael L. Neve, Eric J. Nestler, Deena M. Walker, Hope Kronman, Aarthi Ramakrishnan, Molly Estill, Erin S. Calipari, Carol A. Tamminga, Psychiatrie & Neuropsychologie, and RS: MHeNs - R3 - Neuroscience

Subjects

Male, 0301 basic medicine, STRESS, PREFRONTAL CORTEX, SUSCEPTIBILITY, Social defeat, Mice, 0302 clinical medicine, SOCIAL DEFEAT, Gene expression, RNA-Seq, TRANSCRIPTION, Prefrontal cortex, Aged, 80 and over, Neurons, Behavior, Animal, biology, Depression, Effector, General Neuroscience, LOCALIZATION, Middle Aged, Resilience, Psychological, Phenotype, Long non-coding RNA, Female, RNA, Long Noncoding, Adult, medicine.medical_specialty, Down-Regulation, UNIQUE FEATURES, Mice, Transgenic, CREB, Young Adult, 03 medical and health sciences, Sex Factors, Internal medicine, medicine, Animals, Humans, Gene, Aged, Depressive Disorder, Major, GENOME-WIDE, EVOLUTION, 030104 developmental biology, Endocrinology, CELLS, biology.protein, Stress, Psychological, 030217 neurology & neurosurgery

Abstract

Depression is a common disorder that affects women at twice the rate of men. Here, we report that long non-coding RNAs (lncRNAs), a recently discovered class of regulatory transcripts, represent about one-third of the differentially expressed genes in the brains of depressed humans and display complex region- and sex-specific patterns of regulation. We identified the primate-specific, neuronal-enriched gene LINC00473 as downregulated in prefrontal cortex (PFC) of depressed females but not males. Using viral-mediated gene transfer to express LINC00473 in adult mouse PFC neurons, we mirrored the human sex-specific phenotype by inducing stress resilience solely in female mice. This sex-specific phenotype was accompanied by changes in synaptic function and gene expression selectively in female mice and, along with studies of human neuron-like cells in culture, implicates LINC00473 as a CREB effector. Together, our studies identify LINC00473 as a female-specific driver of stress resilience that is aberrant in female depression. Issler et al. demonstrate that long non-coding RNAs are robustly regulated in the brains of postmortem depressed humans in a brain site- and sex-specific manner. LINC00473 is highlighted as key regulator of mood in females only, where it acts in prefrontal cortex by regulating gene expression, neurophysiology, and behavior.

Published

2020

30. The opioid system in stress-induced memory disorders: From basic mechanisms to clinical implications in post-traumatic stress disorder and Alzheimer's disease

Author

Angélica Torres-Berrío and Mauricio O. Nava-Mesa

Subjects

Sympathetic nervous system, Review, Disease, Emotional disorder, Opiate, Cognition, Opioid system, 0302 clinical medicine, Pathology, Limbic System, Medicine, Chronic stress, Opiate receptor, Symptomatology, Acute stress, Neuropsychiatric stress disorders, Traumatic stress, Posttraumatic stress disorder, Brain region, 3. Good health, Mental stress, medicine.anatomical_structure, Opioid Peptides, Memory disorders, Adrenergic system, Memory disorder, Alzheimer disease, Opioid peptides, Human, medicine.drug, Memory Dysfunction, Context (language use), Stress, Hypothalamus hypophysis adrenal system, 03 medical and health sciences, Limbic system, Memory, Alzheimer Disease, Animals, Humans, Biological Psychiatry, Pharmacology, Memory Disorders, Animal, business.industry, Nonhuman, 030227 psychiatry, Metabolism, Opioid, psychological, business, Complication, Neuroscience, Stress, Psychological, Opiate peptide

Abstract

Cognitive and emotional impairment are a serious consequence of stress exposure and are core features of neurological and psychiatric conditions that involve memory disorders. Indeed, acute and chronic stress are high-risk factors for the onset of post-traumatic stress disorder (PTSD) and Alzheimer's disease (AD), two devastating brain disorders associated with memory dysfunction. Besides the sympathetic nervous system and the hypothalamic–pituitary–adrenal (HPA) axis, stress response also involves the activation of the opioid system in brain regions associated with stress regulation and memory processing. In this context, it is possible that stress-induced memory disorders may be attributed to alterations in the interaction between the neuroendocrine stress system and the opioid system. In this review, we: (1) describe the effects of acute and chronic stress on memory, and the modulatory role of the opioid system, (2) discuss the contribution of the opioid system to the pathophysiology of PTSD and AD, and (3) present evidence of current and potential therapies that target the opioid receptors to treat PTSD- and AD-associated symptoms. © 2018 The Authors

Published

2018

31. MiR-218: a molecular switch and potential biomarker of susceptibility to stress

Author

Torres-Berrío, Angélica, primary, Nouel, Dominique, additional, Cuesta, Santiago, additional, Parise, Eric M., additional, Restrepo-Lozano, José María, additional, Larochelle, Pier, additional, Nestler, Eric J., additional, and Flores, Cecilia, additional

Published

2019

32. DCC Confers Susceptibility to Depression-like Behaviors in Humans and Mice and Is Regulated by miR-218

Author

Cecilia Flores, Rosemary C. Bagot, Colleen Manitt, Gregory Dal Bo, Juan Pablo Lopez, Conrad Eng, Angélica Torres-Berrío, Lei Zhu, Kai-Florian Storch, Gustavo Turecki, Dominique Nouel, Santiago Cuesta, Eric J. Nestler, and Helen M. Cooper

Subjects

0301 basic medicine, Male, Deleted in Colorectal Cancer, Repressor, Prefrontal Cortex, Receptors, Cell Surface, Article, 03 medical and health sciences, Mice, 0302 clinical medicine, Downregulation and upregulation, Cell Line, Tumor, microRNA, medicine, Animals, Humans, Chronic stress, RNA, Messenger, Receptor, Prefrontal cortex, Social Behavior, Biological Psychiatry, Depressive Disorder, Major, Pyramidal Cells, Tumor Suppressor Proteins, fungi, Anhedonia, DCC Receptor, Mice, Inbred C57BL, MicroRNAs, 030104 developmental biology, medicine.symptom, Psychology, Neuroscience, 030217 neurology & neurosurgery, Stress, Psychological

Abstract

Backgroud Variations in the expression of the Netrin-1 guidance cue receptor DCC (deleted in colorectal cancer) appear to confer resilience or susceptibility to psychopathologies involving prefrontal cortex (PFC) dysfunction. Methods With the use of postmortem brain tissue, mouse models of defeat stress, and in vitro analysis, we assessed microRNA (miRNA) regulation of DCC and whether changes in DCC levels in the PFC lead to vulnerability to depression-like behaviors. Results We identified miR-218 as a posttranscriptional repressor of DCC and detected coexpression of DCC and miR-218 in pyramidal neurons of human and mouse PFC. We found that exaggerated expression of DCC and reduced levels of miR-218 in the PFC are consistent traits of mice susceptible to chronic stress and of major depressive disorder in humans. Remarkably, upregulation of Dcc in mouse PFC pyramidal neurons causes vulnerability to stress-induced social avoidance and anhedonia. Conclusions These data are the first demonstration of microRNA regulation of DCC and suggest that, by regulating DCC , miR-218 may be a switch of susceptibility versus resilience to stress-related disorders.

Published

2016

33. Estrategias de reflexión social para adolescentes en estado de gestación del Barrio Castilla durante el período 2016

Author

Torres Berrío, María Elena and López Serna, Paola Alejandra

Subjects

Embarazo en adolescentes, Familia, Desarrollo humano

Abstract

La importancia de esta investigación, en la esfera del Trabajo Social, reside en la necesidad de conocer las diferentes realidades sociales que nos rodean, conocerlas de forma integral y crear estrategias que contengan reflexiones desde el enfoque educativo que se dirijan a los adolescentes, a sus padres y demás adultos que pertenecen a la sociedad Colombiana, puesto que el aumento de los embarazos precoces es un motivo de alarma en la ciudad de Medellín y toda Colombia. Este análisis beneficia a las jóvenes en estado de gestación familias y a toda la comunidad del Barrio Castilla, puesto que se promueve la construcción de una mejor calidad de vida y el índice de adolescentes embarazadas en la comuna 5, Barrio Castilla puede disminuir si la problemática se aborda desde el ámbito familiar, cabe resaltar que los adolescentes tienen diferentes corresponsabilidades como presenta la Ley de Educación ejemplo: primero la familia, luego las instituciones educativas y el entorno social. De acuerdo con los resultados, las conclusiones y la triangulación de la información recolectada, es posible afirmar que desde el Trabajo Social, si se cumplieron los objetivos, puesto que se analizó el contexto social y cultural de la población muestra, asimismo, se logró develar los elementos fundamentales que deben tener las estrategias para que generen reflexión social en los adolescentes y la comunidad en general. Corporación Universitaria Minuto de Dios

Published

2016

34. Evaluación del efecto de bloqueo en el condicionamiento clásico de preferencias

Author

César A. Contreras-Bejarano, Camilo A. Devia-Luque, Julio E. Cruz-Vásquez, Angélica A. Torres-Berrío, and Andrés M. Pérez-Acosta

Subjects

lcsh:Psychology, lcsh:BF1-990, preferencias, publicidad, nombres de marcas, atractivo físico, condicionamiento clásico

Abstract

Esta investigación experimental tuvo como objetivo poner a prueba el efecto de bloqueode Kamin en el condicionamiento clásico de preferencias. Se diseñaron tres partes: Estudio1, Experimento 1 y Experimento 2. El Estudio preliminar (n = 54) consistió en laelección de los estímulos condicionados (marcas publicitarias ficticias) y del estímulo incondicionado(figura femenina con una proporción controlada de la medida de cintura/cadera). En el Experimento 1 (n = 60) se efectuó el entrenamiento en condicionamientoclásico de preferencias. Finalmente, en el Experimento 2 (n = 40), se examinó el efecto debloqueo en el condicionamiento clásico de preferencias con pruebas de tipo cognoscitivoy afectivo. Participaron estudiantes universitarios de diferentes carreras entre 17 y 25años. Los resultados indican que se manifestó un efecto de bloqueo en tres de las cuatropruebas utilizadas para evaluar dicho fenómeno. Se plantea, a manera de conclusión,que este efecto potencialmente explica diferentes fenómenos en los campos de la publicidady el mercadeo, especialmente en lo que concierne a competencia de marcas.

Published

2011

35. Non-Contingent Exposure to Amphetamine in Adolescence Recruits miR-218 to Regulate Dcc Expression in the VTA

Author

Cuesta, Santiago, primary, Restrepo-Lozano, José Maria, additional, Silvestrin, Steven, additional, Nouel, Dominique, additional, Torres-Berrío, Angélica, additional, Reynolds, Lauren M, additional, Arvanitogiannis, Andreas, additional, and Flores, Cecilia, additional

Published

2017

36. Unraveling the epigenetic landscape of depression: focus onearly life stress

Author

Torres-Berrío, Angélica, Issler, Orna, Parise, Eric M., and Nestler, Eric J.

Abstract

Depression is a devastating psychiatric disorder caused by a combination of geneticpredisposition and life events, mainly exposure to stress. Early life stress (ELS) inparticular is known to “scar” the brain, leading to an increased susceptibility todeveloping depression later in life via epigenetic mechanisms. Epigenetic processeslead to changes in gene expression that are not due to changes in DNA sequence, butachieved via modulation of chromatin modifications, DNA methylation, and noncodingRNAs. Here we review common epigenetic mechanisms including the enzymes that takepart in reading, writing, and erasing specific epigenetic marks. We then describerecent developments in understanding how ELS leads to changes in the epigenome thatare manifested in increased susceptibility to depression-like abnormalities in animalmodels. We conclude with highlighting the need for future studies that willpotentially enable the utilisation of the understanding of epigenetic changes linkedto ELS for the development of much-needed novel therapeutic strategies and biomarkerdiscovery.

Published

2019

37. dcc orchestrates the development of the prefrontal cortex during adolescence and is altered in psychiatric patients

Author

Gustavo Turecki, Richard Ryan, M. J. J. Daubaras, S. V. Yogendran, Cecilia Flores, Matthew Pokinko, Alanna Grant, Tak Pan Wong, Helen M. Cooper, Ewoud R.E. Schmidt, Paul Krimpenfort, R.J. Pasterkamp, Bruno Giros, Conrad Eng, Colleen Manitt, François Tronche, Eric J. Nestler, Bryan Kolb, Juan Pablo Lopez, Angélica Torres-Berrío, Physiopathologie des maladies psychiatriques = Pathophysiology of Psychiatric Disorders (NPS-07), Neuroscience Paris Seine (NPS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut de Biologie Paris Seine (IBPS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut de Biologie Paris Seine (IBPS), Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), Canadian Institute for Health Research [MOP-74709], Natural Science and Engineering Research Council of Canada [2982226], Fonds de la Recherche en Sante du Quebec, Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut de Biologie Paris Seine (IBPS), Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Université Pierre et Marie Curie - Paris 6 (UPMC)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Centre National de la Recherche Scientifique (CNRS), and Neurosciences Paris Seine (NPS)

Subjects

Male, Haploinsufficiency, Mice, prefrontal cortex dysfunction, 0302 clinical medicine, Neural Pathways, neural circuit formation, Prefrontal cortex, 0303 health sciences, Mental Disorders, neurodevelopmental disorders, Cognitive flexibility, Cognition, Suicide, Psychiatry and Mental health, medicine.anatomical_structure, Schizophrenia, Original Article, [SDV.NEU]Life Sciences [q-bio]/Neurons and Cognition [q-bio.NC], Psychopharmacology, dopamine, Psychology, psychological phenomena and processes, medicine.drug, medicine.medical_specialty, Adolescent, Prefrontal Cortex, behavioral disciplines and activities, 03 medical and health sciences, Cellular and Molecular Neuroscience, Dopamine, medicine, Animals, Humans, Genetic Predisposition to Disease, Psychiatry, resilience, Biological Psychiatry, 030304 developmental biology, Dopaminergic Neurons, fungi, Adolescent Development, medicine.disease, Genes, DCC, nervous system, Case-Control Studies, Behavioral medicine, Neuron, Self-Injurious Behavior, Neuroscience, 030217 neurology & neurosurgery

Abstract

International audience; Adolescence is a period of heightened susceptibility to psychiatric disorders of medial prefrontal cortex (mPFC) dysfunction and cognitive impairment. mPFC dopamine (DA) projections reach maturity only in early adulthood, when their control over cognition becomes fully functional. The mechanisms governing this protracted and unique development are unknown. Here we identify dcc as the first DA neuron gene to regulate mPFC connectivity during adolescence and dissect the mechanisms involved. Reduction or loss of dcc from DA neurons by Cre-lox recombination increased mPFC DA innervation. Underlying this was the presence of ectopic DA fibers that normally innervate non-cortical targets. Altered DA input changed the anatomy and electrophysiology of mPFC circuits, leading to enhanced cognitive flexibility. All phenotypes only emerged in adulthood. Using viral Cre, we demonstrated that dcc organizes mPFC wiring specifically during adolescence. Variations in DCC may determine differential predisposition to mPFC disorders in humans. Indeed, DCC expression is elevated in brains of antidepressant-free subjects who committed suicide.

Published

2013

38. Mesocortical Dopamine Phenotypes in Mice Lacking the Sonic Hedgehog Receptor Cdon

Author

Verwey, Michael, primary, Grant, Alanna, additional, Meti, Nicholas, additional, Adye-White, Lauren, additional, Torres-Berrío, Angelica, additional, Rioux, Veronique, additional, Lévesque, Martin, additional, Charron, Frederic, additional, and Flores, Cecilia, additional

Published

2016

39. Mesocortical Dopamine Phenotypes in Mice Lacking the Sonic Hedgehog Receptor Cdon

Author

Frédéric Charron, Cecilia Flores, Nicholas Meti, Angélica Torres-Berrío, Lauren Adye-White, Martin Lévesque, Véronique Rioux, Alanna Grant, and Michael Verwey

Subjects

Male, Tyrosine 3-Monooxygenase, Dopamine, Neurogenesis, ventral tegmental area, Prefrontal Cortex, Substantia nigra, Motor Activity, Midbrain, sonic hedgehog, 03 medical and health sciences, 0302 clinical medicine, Neural Stem Cells, medicine, Cdon, Animals, Sonic hedgehog, Amphetamine, Pars Compacta, 030304 developmental biology, Mice, Knockout, 0303 health sciences, Tyrosine hydroxylase, biology, Pars compacta, Dopaminergic Neurons, General Neuroscience, General Medicine, New Research, Sensory Gating, Mice, Inbred C57BL, Ventral tegmental area, Phenotype, medicine.anatomical_structure, Cognition and Behavior, Animals, Newborn, nervous system, biology.protein, Central Nervous System Stimulants, Female, Cell Adhesion Molecules, Neuroscience, medial prefrontal cortex, 030217 neurology & neurosurgery, medicine.drug

Abstract

Motivated behaviors and many psychopathologies typically involve changes in dopamine release from the projections of the ventral tegmental area (VTA) and/or the substantia nigra pars compacta (SNc). The morphogen Sonic Hedgehog (Shh) specifies fates of midbrain dopamine neurons, but VTA-specific effects of Shh signaling are also being uncovered. In this study, we assessed the role of the Shh receptor Cdon in the development of VTA and SNc dopamine neurons. We find that Cdon is expressed in the proliferating progenitor zone of the embryonic ventral midbrain and that the number of proliferating cells in this region is increased in mouseCdon−/−embryos. Consistent with a role of Shh in the regulation of neuronal proliferation in this region, we find that the number of tyrosine hydroxylase (TH)-positive neurons is increased in the VTA ofCdon−/−mice at birth and that this effect endures into adulthood. In contrast, the number of TH-positive neurons in the SNc is not altered inCdon−/−mice at either age. Moreover, adultCdon−/−mice have a greater number of medial prefrontal cortex (mPFC) dopamine presynaptic sites, and increased baseline concentrations of dopamine and dopamine metabolites selectively in this region. Finally, consistent with increased dopamine function in the mPFC, we find that adultCdon−/−mice fail to exhibit behavioral plasticity upon repeated amphetamine treatment. Based on these data, we suggest that Cdon plays an important role encoding the diversity of dopamine neurons in the midbrain, influencing both the development of the mesocortical dopamine pathway and behavioral outputs that involve this neural circuitry.

Published

2016

40. Evaluación del efecto de bloqueo en el condicionamiento clásico de preferencias

Author

Contreras-Bejarano, César A., Devia-Luque, Camilo A., Cruz-Vásquez, Julio E., Torres-Berrío, Angélica A, and Pérez-Acosta, Andrés M

Subjects

physical attractiveness, classical conditioning, preferencias, publicidad, nombres de marcas, brand names, atractivo físico, condicionamiento clásico, advertising, preferences

Abstract

Esta investigación experimental tuvo como objetivo poner a prueba el efecto de bloqueo de Kamin en el condicionamiento clásico de preferencias. Se diseñaron tres partes: Estudio 1, Experimento 1 y Experimento 2. El Estudio preliminar (n = 54) consistió en la elección de los estímulos condicionados (marcas publicitarias ficticias) y del estímulo incondicionado (figura femenina con una proporción controlada de la medida de cintura/ cadera). En el Experimento 1 (n = 60) se efectuó el entrenamiento en condicionamiento clásico de preferencias. Finalmente, en el Experimento 2 (n = 40), se examinó el efecto de bloqueo en el condicionamiento clásico de preferencias con pruebas de tipo cognoscitivo y afectivo. Participaron estudiantes universitarios de diferentes carreras entre 17 y 25 años. Los resultados indican que se manifestó un efecto de bloqueo en tres de las cuatro pruebas utilizadas para evaluar dicho fenómeno. Se plantea, a manera de conclusión, que este efecto potencialmente explica diferentes fenómenos en los campos de la publicidad y el mercadeo, especialmente en lo que concierne a competencia de marcas. This experimental research was aimed to test Kamin's blocking effect in classical conditioning of preferences applied in the advertisement area. This study was divided into three parts: preliminary Study, Experiment 1, and Experiment 2. In the preliminary Study, both conditioned (a false publicity brand) and unconditioned stimuli (female figure with a controlled waist-to-hip ratio) were selected. Experiments 1 and 2 consisted of training in classical conditioning of preferences and blocking effect. 17-25 year-old undergraduate students of different careers participated in the present study. According to the results, a blocking effect was observed, suggesting an explanation for different phenomena in fields such as marketing or advertisement, especially when implying brands competition.

Published

2011

41. Assessment of the blocking effect in classical conditioning of preferences

Author

Contreras-Bejarano C.A., Devia-Luque C.A., Cruz-Vásquez J.E., Torres-Berrío A.A., and Pérez-Acosta, Andrés M.

Subjects

Brand names, Advertising, Preferences, Physical attractiveness, Classical conditioning

Abstract

This experimental research was aimed to test Kamin's blocking effect in classical conditioning of preferences applied in the advertisement area. This study was divided into three parts: preliminary Study, Experiment 1, and Experiment 2. In the preliminary Study, both conditioned (a false publicity brand) and unconditioned stimuli (female figure with a controlled waist-to-hip ratio) were selected. Experiments 1 and 2 consisted of training in classical conditioning of preferences and blocking effect. 17-25 year-old undergraduate students of different careers participated in the present study. According to the results, a blocking effect was observed, suggesting an explanation for different phenomena in fields such as marketing or advertisement, especially when implying brands competition.

Published

2011

42. Non-Contingent Exposure to Amphetamine in Adolescence Recruits miR-218 to Regulate Dcc Expression in the VTA

Author

Cuesta, Santiago, Restrepo-Lozano, José Maria, Silvestrin, Steven, Nouel, Dominique, Torres-Berrío, Angélica, Reynolds, Lauren M, Arvanitogiannis, Andreas, and Flores, Cecilia

Abstract

The development of the dopamine input to the medial prefrontal cortex occurs during adolescence and is a process that is vulnerable to disruption by stimulant drugs such as amphetamine. We have previously linked the amphetamine-induced disruption of dopamine connectivity and prefrontal cortex maturation during adolescence to the downregulation of the Netrin-1 receptor, DCC, in dopamine neurons. However, how DCC expression in dopamine neurons is itself regulated is completely unknown. MicroRNA (miRNA) regulation of mRNA translation and stability is a prominent mechanism linking environmental events to changes in protein expression. Here, using male mice, we show that miR-218 is expressed in dopamine neurons and is a repressor of DCC. Whereas Dcc mRNA levels increase from early adolescence to adulthood, miR-218 exhibits the exact opposite switch, most likely maintaining postnatal Dcc expression. This dynamic regulation appears to be selective to Dcc since the expression of Robo 1, the other guidance cue receptor target of miR-218, does not vary with age. Amphetamine in adolescence, but not in adulthood, increases miR-218 in the VTA and this event is required for drug-induced downregulation of Dcc mRNA and protein expression. This effect seems to be specific to Dcc because amphetamine does not alter Robo1. Furthermore, the upregulation of miR-218 by amphetamine requires dopamine D2 receptor activation. These findings identify miR-218 as regulator of DCC in the VTA both in normal development and after drug exposure in adolescence.

Published

2018

43. dcc orchestrates the development of the prefrontal cortex during adolescence and is altered in psychiatric patients

Author

Manitt, C, primary, Eng, C, additional, Pokinko, M, additional, Ryan, R T, additional, Torres-Berrío, A, additional, Lopez, J P, additional, Yogendran, S V, additional, Daubaras, M J J, additional, Grant, A, additional, Schmidt, E R E, additional, Tronche, F, additional, Krimpenfort, P, additional, Cooper, H M, additional, Pasterkamp, R J, additional, Kolb, B, additional, Turecki, G, additional, Wong, T P, additional, Nestler, E J, additional, Giros, B, additional, and Flores, C, additional

Published

2013

44. Cell-Type-Specific Regulation of Cocaine Reward by the E2F3a Transcription Factor in Nucleus Accumbens.

Author

Martínez-Rivera FJ, Yim YY, Godino A, Minier-Toribio A, Tofani S, Holt LM, Torres-Berrío A, Futamura R, Browne CJ, Markovic T, Hamilton PJ, Neve RL, and Nestler EJ

Abstract

The development of drug addiction is characterized by molecular changes in brain reward regions that lead to the transition from recreational to compulsive drug use. These neurobiological processes in brain reward regions, such as the nucleus accumbens (NAc), are orchestrated in large part by transcriptional regulation. Our group recently identified the transcription factor E2F3a as a novel regulator of cocaine's rewarding effects and gene expression regulation in the NAc of male mice. Despite this progress, no information is available about the role of E2F3a in regulating cocaine reward at the sex- and cell-specific levels. Here, we used male and female mice expressing Cre-recombinase in either D1- or D2-type medium spiny neurons (MSNs) combined with viral-mediated gene transfer to bidirectionally control levels of E2F3a in a cell-type-specific manner in the NAc during conditioned place preference (CPP) to cocaine. Our findings show that selective overexpression of E2F3a in D1-MSNs increased cocaine CPP in both male and female mice, whereas opposite effects were observed under knockdown conditions. In contrast, equivalent E2F3a manipulations in D2-MSNs had no significant effects. To further explore the role of E2F3a in sophisticated operant and motivated behaviors, we performed viral manipulations of all NAc neurons in combination with cocaine self-administration and behavioral economics procedures in rats and demonstrated that E2F3a regulates sensitivity aspects of cocaine seeking and taking. These results confirm E2F3a as a central substrate of cocaine reward and demonstrate that this effect is mediated in D1-MSNs, thereby providing increased knowledge of cocaine action at the transcriptional level.

Published

2024

45. Sex-Specific Regulation of Stress Susceptibility by the Astrocytic Gene Htra1 .

Author

Parise EM, Gyles TM, Godino A, Sial OK, Browne CJ, Parise LF, Torres-Berrío A, Salery M, Durand-de Cuttoli R, Rivera MT, Cardona-Acosta AM, Holt L, Markovic T, van der Zee YY, Lorsch ZS, Cathomas F, Garon JB, Teague C, Issler O, Hamilton PJ, Bolaños-Guzmán CA, Russo SJ, and Nestler EJ

Abstract

Major depressive disorder (MDD) is linked to impaired structural and synaptic plasticity in limbic brain regions. Astrocytes, which regulate synapses and are influenced by chronic stress, likely contribute to these changes. We analyzed astrocyte gene profiles in the nucleus accumbens (NAc) of humans with MDD and mice exposed to chronic stress. Htra1 , which encodes an astrocyte-secreted protease targeting the extracellular matrix (ECM), was significantly downregulated in the NAc of males but upregulated in females in both species. Manipulating Htra1 in mouse NAc astrocytes bidirectionally controlled stress susceptibility in a sex-specific manner. Such Htra1 manipulations also altered neuronal signaling and ECM structural integrity in NAc. These findings highlight astroglia and the brain's ECM as key mediators of sex-specific stress vulnerability, offering new approaches for MDD therapies.

Published

2024

46. Transcriptional signatures of heroin intake and relapse throughout the brain reward circuitry in male mice.

Author

Browne CJ, Futamura R, Minier-Toribio A, Hicks EM, Ramakrishnan A, Martínez-Rivera FJ, Estill M, Godino A, Parise EM, Torres-Berrío A, Cunningham AM, Hamilton PJ, Walker DM, Huckins LM, Hurd YL, Shen L, and Nestler EJ

Subjects

Humans, Mice, Male, Animals, Genome-Wide Association Study, Brain, Reward, Recurrence, Heroin adverse effects, Opioid-Related Disorders

Abstract

Opioid use disorder (OUD) looms as one of the most severe medical crises facing society. More effective therapeutics will require a deeper understanding of molecular changes supporting drug-taking and relapse. Here, we develop a brain reward circuit-wide atlas of opioid-induced transcriptional regulation by combining RNA sequencing (RNA-seq) and heroin self-administration in male mice modeling multiple OUD-relevant conditions: acute heroin exposure, chronic heroin intake, context-induced drug-seeking following abstinence, and relapse. Bioinformatics analysis of this rich dataset identified numerous patterns of transcriptional regulation, with both region-specific and pan-circuit biological domains affected by heroin. Integration of RNA-seq data with OUD-relevant behavioral outcomes uncovered region-specific molecular changes and biological processes that predispose to OUD vulnerability. Comparisons with human OUD RNA-seq and genome-wide association study data revealed convergent molecular abnormalities and gene candidates with high therapeutic potential. These studies outline molecular reprogramming underlying OUD and provide a foundational resource for future investigations into mechanisms and treatment strategies.

Published

2023

47. Monomethylation of Lysine 27 at Histone 3 Confers Lifelong Susceptibility to Stress.

Author

Torres-Berrío A, Estill M, Ramakrishnan A, Kronman H, Patel V, Minier-Toribio A, Issler O, Browne CJ, Parise EM, van der Zee Y, Walker D, Martínez-Rivera FJ, Lardner CK, Cuttoli RD, Russo SJ, Shen L, Sidoli S, and Nestler EJ

Abstract

Histone post-translational modifications are critical for mediating persistent alterations in gene expression. By combining unbiased proteomics profiling, and genome-wide approaches, we uncovered a role for mono-methylation of lysine 27 at histone H3 (H3K27me1) in the enduring effects of stress. Specifically, mice exposed to early life stress (ELS) or to chronic social defeat stress (CSDS) in adulthood displayed increased enrichment of H3K27me1, and transient decreases in H3K27me2, in the nucleus accumbens (NAc), a key brain-reward region. Stress induction of H3K27me1 was mediated by the VEFS domain of SUZ12, a core subunit of the polycomb repressive complex-2, which is induced by chronic stress and controls H3K27 methylation patterns. Overexpression of the VEFS domain led to social, emotional, and cognitive abnormalities, and altered excitability of NAc D1 mediums spiny neurons. Together, we describe a novel function of H3K27me1 in brain and demonstrate its role as a "chromatin scar" that mediates lifelong stress susceptibility.

Published

2023

48. Transcriptional signatures of heroin intake and seeking throughout the brain reward circuit.

Author

Browne CJ, Futamura R, Minier-Toribio A, Hicks EM, Ramakrishnan A, Martínez-Rivera F, Estill M, Godino A, Parise EM, Torres-Berrío A, Cunningham AM, Hamilton PJ, Walker DM, Huckins LM, Hurd YL, Shen L, and Nestler EJ

Abstract

Opioid use disorder (OUD) looms as one of the most severe medical crises currently facing society. More effective therapeutics for OUD requires in-depth understanding of molecular changes supporting drug-taking and relapse. Recent efforts have helped advance these aims, but studies have been limited in number and scope. Here, we develop a brain reward circuit-wide atlas of opioid-induced transcriptional regulation by combining RNA sequencing (RNAseq) and heroin self-administration in male mice modeling multiple OUD-relevant conditions: acute heroin exposure, chronic heroin intake, context-induced drug-seeking following prolonged abstinence, and heroin-primed drug-seeking (i.e., "relapse"). Bioinformatics analysis of this rich dataset identified numerous patterns of molecular changes, transcriptional regulation, brain-region-specific involvement in various aspects of OUD, and both region-specific and pan-circuit biological domains affected by heroin. Integrating RNAseq data with behavioral outcomes using factor analysis to generate an "addiction index" uncovered novel roles for particular brain regions in promoting addiction-relevant behavior, and implicated multi-regional changes in affected genes and biological processes. Comparisons with RNAseq and genome-wide association studies from humans with OUD reveal convergent molecular regulation that are implicated in drug-taking and relapse, and point to novel gene candidates with high therapeutic potential for OUD. These results outline broad molecular reprogramming that may directly promote the development and maintenance of OUD, and provide a foundational resource to the field for future research into OUD mechanisms and treatment strategies.

Published

2023