Your search keyword '"Stone, Carol"' showing total 10 results

1. Impact of 5-HTTLPR on SSRI serotonin transporter blockade during emotion regulation: A preliminary fMRI study.

Author

Outhred T, Das P, Dobson-Stone C, Felmingham KL, Bryant RA, Nathan PJ, Malhi GS, and Kemp AH

Subjects

Adolescent, Adult, Alleles, Amygdala drug effects, Cross-Over Studies, Double-Blind Method, Emotions physiology, Female, Genotype, Healthy Volunteers, Humans, Magnetic Resonance Imaging, Middle Aged, Pharmacogenetics, Polymorphism, Genetic, Prefrontal Cortex drug effects, Young Adult, Antidepressive Agents, Second-Generation pharmacology, Citalopram pharmacology, Emotions drug effects, Serotonin Plasma Membrane Transport Proteins metabolism, Selective Serotonin Reuptake Inhibitors pharmacology

Abstract

Background: The short ('S') allele of the serotonin transporter (5-HTT)-linked polymorphic region (5-HTTLPR) is associated with increased negative emotion processing bias, and this polymorphism moderates acute effects of selective serotonin reuptake inhibitor (SSRI) treatment. In this preliminary study, we explore the moderating effect of 5-HTTLPR on the impact of the SSRI, escitalopram during emotion regulation of negative emotional stimuli., Method: Thirty-six healthy Caucasian, female participants underwent two fMRI scanning sessions following single dose escitalopram and placebo administration separated by a seven-day washout period according to a double-blind, randomized, placebo-controlled crossover design. Functional connectivity analysis was employed with a left (L) amygdala seed and a right interior frontal gyrus (R IFG) target., Results: Changes in functional connectivity with emotion regulation and treatment were linearly related to 5-HTTLPR 'L' allele load such that negative R IFG-L amygdala connectivity was increased with an increasing number of 'L' alleles. Therefore, escitalopram may facilitate the effects of reappraisal by enhancing negative functional connectivity, a finding that is greatest in participants homozygous for the 'L' allele and least in those homozygous for the 'S' allele., Limitations: Sub-samples of the homozygote 'S/S' and 'L/L' 5-HTTLPR groupings were small. However, the within-subjects nature of the experiment and observing changes at the individual subject level increases our confidence in the findings of the present study., Conclusions: The present study elucidates a potential neural mechanism by which antidepressant treatment produces differential treatment outcomes dependent on the 5-HTTLPR polymorphism, providing new and important leads for models of antidepressant action., (Copyright © 2016 Elsevier B.V. All rights reserved.)

Published

2016

2. Serotonin 1B Receptor Gene (HTR1B) Methylation as a Risk Factor for Callous-Unemotional Traits in Antisocial Boys.

Author

Moul C, Dobson-Stone C, Brennan J, Hawes DJ, and Dadds MR

Subjects

Alleles, Antisocial Personality Disorder diagnosis, CpG Islands, Genetic Predisposition to Disease, Genotype, Humans, Male, Risk Factors, Sex Factors, Antisocial Personality Disorder genetics, Antisocial Personality Disorder psychology, DNA Methylation, Emotions, Genetic Association Studies, Quantitative Trait, Heritable, Receptor, Serotonin, 5-HT1B genetics

Abstract

The serotonin system is thought to play a role in the aetiology of callous-unemotional (CU) traits in children. Previous research identified a functional single nucleotide polymorphism (SNP) from the promoter region of the serotonin 1B receptor gene as being associated with CU traits in boys with antisocial behaviour problems. This research tested the hypothesis that CU traits are associated with reduced methylation of the promoter region of the serotonin 1B receptor gene due to the influence of methylation on gene expression. Participants (N = 117) were boys with antisocial behaviour problems aged 3-16 years referred to University of New South Wales Child Behaviour Research Clinics. Participants volunteered a saliva sample from which the genotype of a SNP from the promoter region of the serotonin 1B receptor gene and the methylation levels of 30 CpG sites from 3 CpG regions surrounding the location of this polymorphism were assayed. Lower levels of serotonin 1B receptor gene methylation were associated with higher levels of CU traits. This relationship, however, was found to be moderated by genotype and carried exclusively by two CpG sites for which levels of methylation were negatively associated with overall methylation levels in this region of the gene. Results provide support to the emerging literature that argues for a genetically-driven system-wide alteration in serotonin function in the aetiology of CU traits. Furthermore, the results suggest that there may be two pathways to CU traits that involve methylation of the serotonin 1B receptor gene; one that is driven by a genotypic risk and another that is associated with risk for generally increased levels of methylation. Future research that aims to replicate and further investigate these results is required.

Published

2015

3. The impact of 5-HTTLPR on acute serotonin transporter blockade by escitalopram on emotion processing: preliminary findings from a randomised, crossover fMRI study.

Author

Outhred T, Das P, Dobson-Stone C, Felmingham KL, Bryant RA, Nathan PJ, Malhi GS, and Kemp AH

Subjects

Adolescent, Adult, Alleles, Amygdala metabolism, Brain Mapping, Cross-Over Studies, Double-Blind Method, Emotions physiology, Female, Functional Neuroimaging, Gene Dosage, Humans, Magnetic Resonance Imaging, Polymorphism, Single Nucleotide, Young Adult, Amygdala drug effects, Citalopram pharmacology, Emotions drug effects, Genotype, Serotonin Plasma Membrane Transport Proteins genetics, Selective Serotonin Reuptake Inhibitors pharmacology

Abstract

Objective: Benefit from antidepressant treatment such as selective serotonin reuptake inhibitors (SSRIs) may depend on individual differences in acute effects on neural emotion processing. The short ('S') allele of the serotonin transporter (5-HTT)-linked polymorphic region (5-HTTLPR) is associated with both negative emotion processing biases and poorer treatment outcomes. Therefore, the aim of the present study was to explore the effects of 5-HTTLPR on the impact of the SSRI escitalopram during processing of positive and negative emotional images, as well as neutral stimuli., Methods: The study employed a double-blind, randomised, placebo-controlled crossover design on 36 healthy Caucasian female participants who underwent functional magnetic resonance imaging (fMRI) scanning following placebo or escitalopram treatment, separated by a 7-day washout period., Results: Changes in the left amygdala signal with escitalopram treatment during processing of emotional stimuli were linearly related to the 5-HTTLPR 'S' allele load such that the signal to positive stimuli decreased and the signal to negative stimuli increased with an increasing number of low-expressing 'S' alleles. While 5-HTTLPR subgroups were small in size, individual subject changes with treatment and task condition increase confidence in the findings., Conclusions: While preliminary, our findings comprise the first pharmacogenetic study demonstrating an effect of the 5-HTTLPR 'S' allele load on escitalopram-induced changes in amygdala activity during emotional processing, consistent with a 5-HTT expression dosage model. The present findings have implications for the impact of this polymorphism on antidepressant efficacy in patients with mood and anxiety disorders., (© The Royal Australian and New Zealand College of Psychiatrists 2014.)

Published

2014

4. An exploration of the serotonin system in antisocial boys with high levels of callous-unemotional traits.

Author

Moul C, Dobson-Stone C, Brennan J, Hawes D, and Dadds M

Subjects

Adolescent, Antisocial Personality Disorder blood, Antisocial Personality Disorder genetics, Child, Child, Preschool, Genotype, Humans, Male, Polymorphism, Single Nucleotide, Serotonin blood, Antisocial Personality Disorder metabolism, Antisocial Personality Disorder psychology, Emotions, Serotonin metabolism

Abstract

Background: The serotonin system is thought to play a role in the aetiology of antisocial and aggressive behaviour in both adults and children however previous findings have been inconsistent. Recently, research has suggested that the function of the serotonin system may be specifically altered in a sub-set of antisocial populations - those with psychopathic (callous-unemotional) personality traits. We explored the relationships between callous-unemotional traits and functional polymorphisms of selected serotonin-system genes, and tested the association between callous-unemotional traits and serum serotonin levels independently of antisocial and aggressive behaviour., Method: Participants were boys with antisocial behaviour problems aged 3-16 years referred to University of New South Wales Child Behaviour Research Clinics. Participants volunteered either a blood or saliva sample from which levels of serum serotonin (N = 66) and/or serotonin-system single nucleotide polymorphisms (N = 157) were assayed., Results: Functional single nucleotide polymorphisms from the serotonin 1b receptor gene (HTR1B) and 2a receptor gene (HTR2A) were found to be associated with callous-unemotional traits. Serum serotonin level was a significant predictor of callous-unemotional traits; levels were significantly lower in boys with high callous-unemotional traits than in boys with low callous-unemotional traits., Conclusion: Results provide support to the emerging literature that argues for a genetically-driven system-wide alteration in serotonin function in the aetiology of callous-unemotional traits. The findings should be interpreted as preliminary and future research that aims to replicate and further investigate these results is required.

Published

2013

5. COMT Val(108/158)Met polymorphism effects on emotional brain function and negativity bias.

Author

Williams LM, Gatt JM, Grieve SM, Dobson-Stone C, Paul RH, Gordon E, and Schofield PR

Subjects

Adult, Affect, Facial Expression, Female, Genotype, Humans, Magnetic Resonance Imaging, Male, Brain physiology, Brain Mapping, Catechol O-Methyltransferase genetics, Emotions physiology, Polymorphism, Single Nucleotide genetics

Abstract

Biases toward processing negative versus positive information vary as a function of level of awareness, and are modulated by monoamines. Excessive biases are associated with individual differences in mood and emotional stability, and emotional disorder. Here, we examined the impact of the catechol-O-methyltransferase (COMT) Val(108/158)Met polymorphism, involved in dopamine and norepinephrine catabolism, on both emotional brain function and self-reported negativity bias. COMT genotyping and self-reported level of negativity bias were completed for 46 healthy participants taking part in the Brain Resource International Database. Functional MRI was undertaken during perception of facial expressions of fear and happiness presented under unmasked (consciously identified) and masked (to prevent conscious detection) conditions. Structural MR images were also acquired. A greater number of COMT Met alleles predicted increased activation in brainstem, amygdala, basal ganglia and medial prefrontal regions for conscious fear, but decreased activation for conscious happiness. This pattern was also apparent for brainstem activation for the masked condition. Effects were most apparent for females. These differences could not be explained by gray matter variations. The Met-related profile of activation, particularly prefrontally, predicted greater negativity bias associated with risk for emotional disorder. The findings suggest that the COMT Met allele modulates neural substrates of negative versus positive emotion processing. This effect may contribute to negativity biases, which confer susceptibility for emotional disorders., (Copyright 2010 Elsevier Inc. All rights reserved.)

Published

2010

6. Impact of the HTR3A gene with early life trauma on emotional brain networks and depressed mood.

Author

Gatt JM, Williams LM, Schofield PR, Dobson-Stone C, Paul RH, Grieve SM, Clark CR, Gordon E, and Nemeroff CB

Subjects

Adult, Brain pathology, Depressive Disorder pathology, Female, Frontal Lobe pathology, Frontal Lobe physiopathology, Gene Frequency genetics, Genetic Predisposition to Disease genetics, Genotype, Humans, Limbic System pathology, Limbic System physiopathology, Male, Middle Aged, Nerve Net pathology, Organ Size physiology, Regression Analysis, Risk Factors, Social Environment, Brain physiopathology, Depressive Disorder genetics, Depressive Disorder physiopathology, Emotions physiology, Life Change Events, Magnetic Resonance Imaging, Nerve Net physiopathology, Receptors, Serotonin, 5-HT3 genetics

Abstract

Background: The risk for mental illnesses such as depression is increasingly conceptualized as the product of gene-environment interactions and their impact on brain structure and function. The role of serotonin 3A receptor gene (HTR3A -42C>T polymorphism) and its interaction with early life stress (ELS) was investigated in view of the receptor's localization to brain regions central to emotion processing., Methods: Fronto-limbic grey matter (GM) loss was measured using magnetic resonance imaging and assessed using voxel-based morphometry analysis in 397 nonclinical individuals from the Brain Resource International Database. Negative mood symptoms were also assessed., Results: The HTR3A CC genotype group, compared to the T carriers, demonstrated comparative loss to GM in hippocampal structures, which extended to the frontal cortices for those CC genotype individuals also exposed to ELS. Elevations in depressed mood were also evident., Conclusions: These findings suggest that the HTR3A CC genotype may be associated with alterations in brain structures central to emotion processing, particularly when exposed to stress, and further highlight the potential role of the serotonin system in the pathophysiology of affective disorders. In contrast, those individuals with the T allele, in particular the TT genotype, may be more protected from such alterations combined with minimal exposure to ELS events., (2010 Wiley-Liss, Inc.)

Published

2010

7. The integrate model of emotion, thinking and self regulation: an application to the "paradox of aging".

Author

Williams LM, Gatt JM, Hatch A, Palmer DM, Nagy M, Rennie C, Cooper NJ, Morris C, Grieve S, Dobson-Stone C, Schofield P, Clark CR, Gordon E, Arns M, and Paul RH

Subjects

Adolescent, Adult, Aged, Aged, 80 and over, Aging genetics, Biogenic Monoamines metabolism, Brain Mapping, Brain-Derived Neurotrophic Factor genetics, Case-Control Studies, Child, Electroencephalography, Evoked Potentials physiology, Female, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Neuropsychological Tests, Photic Stimulation, Time Factors, Young Adult, Aging physiology, Brain physiology, Emotions physiology, Models, Neurological, Social Control, Informal, Thinking physiology

Abstract

This study was undertaken using the INTEGRATE Model of brain organization, which is based on a temporal continuum of emotion, thinking and self regulation. In this model, the key organizing principle of self adaption is the motivation to minimize danger and maximize reward. This principle drives brain organization across a temporal continuum spanning milliseconds to seconds, minutes and hours. The INTEGRATE Model comprises three distinct processes across this continuum. Emotion is defined by automatic action tendencies triggered by signals that are significant due to their relevance to minimizing danger-maximizing reward (such as abrupt, high contrast stimuli). Thinking represents cognitive functions and feelings that rely on brain and body feedback emerging from around 200 ms post-stimulus onwards. Self regulation is the modulation of emotion, thinking and feeling over time, according to more abstract adaptions to minimize danger-maximize reward. Here, we examined the impact of dispositional factors, age and genetic variation, on this temporal continuum. Brain Resource methodology provided a standardized platform for acquiring genetic, brain and behavioral data in the same 1000 healthy subjects. Results showed a "paradox" of declining function in the "thinking" time scale over the lifespan (6 to 80+ years), but a corresponding preservation or even increase in automatic functions of "emotion" and "self regulation". This paradox was paralleled by a greater loss of grey matter in cortical association areas (assessed using MRI) over age, but a relative preservation of subcortical grey matter. Genetic polymorphisms associated with both healthy function and susceptibility to disorder (including the BDNFVal(66)Met, COMTVal(158/108)Met, MAOA and DRD4 tandem repeat and 5HTT-LPR polymorphisms) made specific contributions to emotion, thinking and self regulatory functions, which also varied according to age.

Published

2008

8. A genotype-endophenotype-phenotype path model of depressed mood: integrating cognitive and emotional markers.

Author

Gatt JM, Clark CR, Kemp AH, Liddell BJ, Dobson-Stone C, Kuan SA, Schofield PR, and Williams LM

Subjects

Adult, Analysis of Variance, Depression classification, Depression psychology, Electroencephalography methods, Evoked Potentials, Visual physiology, Female, Genotype, Humans, Male, Memory, Short-Term physiology, Methionine genetics, Middle Aged, Models, Biological, Neuropsychological Tests, Neurotic Disorders diagnosis, Neurotic Disorders genetics, Neurotic Disorders physiopathology, Polymorphism, Genetic, Valine genetics, Brain-Derived Neurotrophic Factor genetics, Cognition physiology, Depression genetics, Depression physiopathology, Emotions physiology, Phenotype

Abstract

Aims: Following an integrative neuroscience perspective, we propose that cognitive and emotional functions are integrally linked, and that genetic polymorphisms which impact upon neural processes may have complementary effects on these functions. The brain-derived neurotrophic factor (BDNF) 66Met allele may contribute to both cognitive and emotional aspects of the depression phenotype., Methods: In 374 nonclinical subjects, BDNF genotype differences in task-related ERPs, emotion, memory, and EEG cortical arousal were examined., Results: Using path modeling, higher negative affect in Met homozygotes was predicted by slow-wave EEG via the mediating effects of neuroticism. Both negative affect and working memory deficits were predicted by disturbances in emotion- and cognitive-related ERPs. This model held across groups with varying levels of depressed mood., Discussion: Since impairments in emotion and working memory are core features of major depression, the BDNF Met allele may contribute to vulnerability for this disorder. An integrative approach in which genotypes are considered in combination with brain function and behavioral measures may be important in identifying profile markers of depression., Integrative Significance: This study directly demonstrates that cognitive and emotional neural networks are not parallel independent systems, but rather highly integrated with effects on both cognitive performance and emotional behavior.

Published

2007

9. Effect of stress gene-by-environment interactions on hippocampal volumes and cortisol secretion in adolescent girls.

Author

Malhi, Gin S., Das, Pritha, Outhred, Tim, Dobson-Stone, Carol, Irwin, Lauren, Gessler, Danielle, Bryant, Richard, and Mannie, Zola

Subjects

SALIVA analysis, AFFECTIVE disorders, ALLELES, EMOTIONS, ENVIRONMENTAL health, GENETIC polymorphisms, HIPPOCAMPUS (Brain), HYDROCORTISONE, LONGITUDINAL method, MAGNETIC resonance imaging, NEURORADIOLOGY, EMOTIONAL trauma, PSYCHOLOGICAL stress, WOMEN'S health, PHENOTYPES, PSYCHOLOGICAL vulnerability, DESCRIPTIVE statistics, GENOTYPES, MENTAL illness risk factors

Abstract

Objective: Adolescence is a time of increased susceptibility to environmental stress and mood disorders, and girls are particularly at risk. Genes interacting with the environment (G × E) are implicated in hypothalamic-pituitary-adrenal axis dysregulation, hippocampal volume changes and risk or resilience to mood disorders. In this study, we assessed the effects of stress system G × E interactions on hippocampal volumes and cortisol secretion in adolescent girls. Methods: We recruited 229 girls aged 12–18 years, and scans were obtained from 202 girls. Of these, 76 had been exposed to higher emotional trauma (abuse or neglect). Hippocampal volumes were measured using Freesurfer and high-resolution structural magnetic resonance imaging scans. Saliva samples were collected for measurement of cortisol levels and genotyping of stress system genes: FKBP5, NR3C1 (both N = 194) and NR3C2 (N = 193). Results: Among girls with the 'G' allelic variant of the NR3C1 gene, those who had been exposed to higher emotional trauma had significantly smaller left hippocampal volumes (N = 44; mean = 4069.58 mm3, standard deviation = 376.99) than girls who had been exposed to minimal emotional trauma with the same allelic variant (N = 69; mean = 4222.34 mm3, standard deviation = 366.74). Conclusion: In healthy adolescents, interactions between emotional trauma and the 'protective' NR3C1 'GG' variant seem to induce reductions in left hippocampal volumes. These G × E interactions suggest that vulnerability to mood disorders is perhaps driven by reduced 'protection' that may be specific to emotional trauma. This novel but preliminary evidence has implications for targeted prevention of mood disorders and prospective multimodal neuroimaging and longitudinal studies are now needed to investigate this possibility. [ABSTRACT FROM AUTHOR]

Published

2019

10. A Functional Polymorphism of the MAOA Gene Is Associated with Neural Responses to Induced Anger Control.

Author

Denson, Thomas F., Dobson-Stone, Carol, Ronay, Richard, von Hippel, William, and Schira, Mark M.

Subjects

*GENETIC polymorphisms, *AGGRESSION (Psychology), *MONOAMINE oxidase, *AMYGDALOID body, *EMOTIONS, *GENE expression

Abstract

Aggressiveness is highly heritable. Recent experimental work has linked individual differences in a functional polymorphism of the monoamine oxidase-A gene (MAOA) to anger-driven aggression. Other work has implicated the dorsal ACC (dACC) in cognitive-emotional control and the amygdala in emotional arousal. The present imaging genetics study investigated dACC and amygdala reactivity to induced anger control as a function of MAOA genotype. A research assistant asked 38 healthymale undergraduates to control their anger in response to an insult by a rude experimenter. Men with the low-expression allele showed increased dACC and amygdala activation after the insult, but men with the high-expression allele did not. Both dACC and amygdala activation independently mediated the relationship between MAOA genotype and self-reported anger control. Moreover, following the insult, men with the high-functioning allele showed functional decoupling between the amygdala and dACC, but men with the low-functioning allele did not. These results suggest that heightened dACC and amygdala activation and their connectivity are neuroaffective mechanisms underlying anger control in participants with the low-functioning allele of the MAOA gene. [ABSTRACT FROM AUTHOR]

Published

2014