Your search keyword '"Begg DP"' showing total 3 results

1. Female primary and secondary psychopathic variants show distinct endocrine and psychophysiological profiles.

Author

Goulter N, Kimonis ER, Denson TF, and Begg DP

Subjects

Adult, Aggression psychology, Anger physiology, Antisocial Personality Disorder pathology, Anxiety, Conduct Disorder physiopathology, Dehydroepiandrosterone analysis, Endocrine System metabolism, Endocrine System physiology, Female, Heart Rate physiology, Humans, Hydrocortisone analysis, Impulsive Behavior physiology, Psychophysiologic Disorders pathology, Self Report, Testosterone analysis, Young Adult, Aggression physiology, Antisocial Personality Disorder metabolism, Psychophysiologic Disorders metabolism

Abstract

Research with predominantly male samples supports primary and secondary developmental pathways to psychopathy that are phenotypically indistinguishable on aggressive and antisocial behavior. The aim of this study was to examine whether female variants of psychopathy show divergent endocrine (i.e., cortisol, dehydroepiandrosterone [DHEA], testosterone, and their ratios) and psychophysiological (i.e., heart rate variability [HRV]) reactivity to social provocation. We also tested whether variants differed on reactive aggression when performing a competitive reaction time task against the fictitious participant who previously insulted them. Latent profile analyses on 101 undergraduate women oversampled for high psychopathic traits identified a high-anxious, maltreated secondary variant (n=64) and a low-anxious primary variant (n=37). Although variants did not differ on aggression, secondary variants showed higher cortisol, testosterone, cortisol-to-DHEA ratios, and HRV following social provocation relative to primary variants. Findings suggest that the neurobiological mechanisms underpinning aggression in psychopathy may differ between women on primary versus secondary developmental pathways., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

2. Loss of melanocortin-4 receptor function attenuates HPA responses to psychological stress.

Author

Ryan KK, Mul JD, Clemmensen C, Egan AE, Begg DP, Halcomb K, Seeley RJ, Herman JP, and Ulrich-Lai YM

Subjects

Adrenocorticotropic Hormone blood, Animals, Circadian Rhythm physiology, Corticosterone blood, Heterozygote, Homozygote, Male, Rats, Receptor, Melanocortin, Type 4 genetics, Restraint, Physical, Stress, Psychological blood, Stress, Psychological genetics, Hypothalamo-Hypophyseal System metabolism, Pituitary-Adrenal System metabolism, Receptor, Melanocortin, Type 4 metabolism, Stress, Psychological metabolism

Abstract

The melanocortin 4 receptor (MC4R), well-known for its role in the regulation of energy balance, is widely expressed in stress-regulatory brain regions, including the paraventricular nucleus of the hypothalamus (PVH) and the medial amygdala (MeA). In agreement with this, MC4R has been implicated in hypothalamic-pituitary-adrenocortical axis (HPA) regulation. The present work investigated the role of chronic Mc4r function to modulate basal HPA axis tone and to facilitate acute HPA responses to psychological stress, using a novel rat model with Mc4r loss-of-function. In this study, adult male rats were placed into 3 groups (n=15/group) according to genotype [wild-type (WT); heterozygous mutant (HET); and homozygous mutant (HOM)]. Basal (pre-stress) plasma adrenocorticotropic hormone (ACTH) and corticosterone were measured in the AM and PM, and the HPA axis response to restraint was assessed in the AM. Rats were perfused at 2h after restraint to assess the effect of loss of MC4R on stress-induced c-Fos immunolabeling in stress-regulatory brain regions. We find that basal (non-stress) AM and PM plasma ACTH and corticosterone showed a normal diurnal rhythm that was not altered according to genotype. Consistent with this, adrenal and thymus weights were unaffected by genotype. However, the plasma ACTH and corticosterone responses to restraint were significantly reduced by loss of MC4R function. Likewise, stress-induced c-Fos immunolabeling in both PVH and MeA was significantly reduced by loss of Mc4r function. These results support the hypothesis that endogenous MC4R signaling contributes to the HPA axis response to stress. Because MC4R plays a critical role in the regulation of energy balance, the present work suggests that it may also serve as an important communication link between brain metabolic and stress systems., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

3. The heritability of melatonin secretion and sensitivity to bright nocturnal light in twins.

Author

Hallam KT, Olver JS, Chambers V, Begg DP, McGrath C, and Norman TR

Subjects

Adolescent, Adult, Area Under Curve, Bipolar Disorder diagnosis, Bipolar Disorder genetics, Bipolar Disorder physiopathology, Circadian Rhythm genetics, Circadian Rhythm radiation effects, Darkness, Down-Regulation genetics, Down-Regulation physiology, Female, Genetic Load, Humans, Light, Male, Melatonin radiation effects, Pineal Gland metabolism, Pineal Gland radiation effects, Quantitative Trait, Heritable, Statistics, Nonparametric, Twins, Dizygotic genetics, Twins, Monozygotic genetics, Circadian Rhythm physiology, Down-Regulation radiation effects, Melatonin blood, Melatonin metabolism, Twins, Dizygotic blood, Twins, Monozygotic blood

Abstract

The super-sensitivity of the neurohormone melatonin to light in patients with bipolar disorder provides evidence of the circadian nature of the disorder. This response has been proposed as an endophenotype for identifying people at risk of the disorder and guiding investigations of molecular genetic targets. However, before this response is used as an endophenotypic marker, the heritable nature of melatonin sensitivity in the normal population must be established. The aim of this study was to investigate the heritability of nocturnal melatonin secretion and sensitivity to light in monozygotic and dizygotic twins with no psychiatric history. This study investigated overall melatonin levels (between 2000 and 2400 h) and suppression by 500 lx of light (between 2400 and 0100 h) in 20 pairs of twins (nine monozygotic, 11 dizygotic). The results indicate that melatonin secretion is highly heritable with secretion in one twin being a significant predictor of secretion in their twin in both monozygotic and dizygotic pairs. In relation to light sensitivity, genetic loading appears to play a significant role with the greatest concordance between monozygotic twins, followed by dizygotic twins and finally low concordance in unrelated individuals. This provides additional support for the usefulness of melatonin sensitivity to light as a potential endophenotypic marker of bipolar affective disorder.

Published

2006