Project description:While the paradigm that genetic predisposition and environmental exposures interact to shape development and function of the human brain and ultimately the risk of psychiatric disorders has drawn wide interest, the corresponding molecular mechanisms have not been elucidated yet. Here we show that a functional polymorphism altering chromatin interaction between the transcription start site and long range enhancers in the FK506 binding protein 5 (FKBP5) gene, an important regulator of the stress hormone system, increases the risk of developing stress-related psychiatric disorders in adulthood by allele-specific, childhood trauma-dependent DNA demethylation in functional glucocorticoid response elements (GREs) of FKBP5. This demethylation is linked to increased stress-dependent gene transcription followed by a long-term dysregulation of the stress hormone system and a global impact on the function of immune cells and brain areas associated with stress regulation. This first identification of molecular mechanisms of genotype-directed long-term environmental reactivity will also critically contribute to designing more effective treatment strategies for stress-related disorders. Effects of FKBP5 rs1360780 genotype x environment interaction on peripheral blood mRNA expression of GR responsive genes, as measured by gene expression arrays, were explored in 129 individuals (child abuse/risk allele carrier N = 40, child abuse/protective allele carrier N = 15; and no child abuse/risk allele carrier N = 60, no child abuse/protective allele carrier N = 14). In all 129 individuals, 1627 transcripts showed a significant correlation with plasma cortisol concentrations, suggesting their GR responsiveness. The correlation of 76 of these transcripts with cortisol plasma levels showed significant differences when stratifying by FKBP5 genotype in individuals with child abuse (Fisher z score ≥ 1.96) For these 76 transcripts, the mean absolute correlation coefficient with plasma cortisol was R = 0.23 in the risk allele carriers with child abuse, that is those exhibiting a demethylation of FKBP5 intron 7 as compared to R = 0.74 in the carriers of the protective genotype with child abuse where intron 7 methylation remains largely stable. This indicates a relative GR-resistance in the trauma exposed FKBP5 risk allele vs. protective genotype carriers. These 76 transcripts did not show a genotype-dependent difference in correlation coefficients in non-trauma exposed individuals suggesting that exposure to early trauma enhances FKBP5 genotype-dependent effect of GR sensitivity, most likely by epigenetic mechanisms. These findings suggest that the combination of FKBP5 risk allele carrier status and early trauma exposure alters the stress hormone-dependent regulation of several genes in peripheral blood cells, and might thereby enhance the reported association of early trauma with immune and inflammatory dysregulation, further promoting system-wide symptoms of stress-related disorders.

Project description:Psychological stress is a risk factor for several diseases. In particular, stressor exposure has been linked with various psychiatric disorders. Since the hypothalamic-pituitary-adrenal (HPA) axis plays a central role in the regulation of stress responses, it has been implicated in the etiology of stress related disorders such as PTSD. The HPA axis regulate synthesis and release of glucocorticoids and its dysregulation cause abnormal response to stress. FK506-binding protein 51 (FKBP5) is a co chaperone of HSP90 in the glucocorticoid receptor (GR) molecular complex and a key regulator of the sensitivity of GR. In this study, we profiled the miRNAs in the prefrontal cortex of FKBP5 knock out mice compared to the wild type. Subsequently, we profiled target mRNAs for differentially expressed miRNAs in the FKBP5 deficient mice using several tools for sequence-based miRNA target prediction such as miRDB, DIANA tool, miRmap and TargetScan. Gene ontology analysis suggested that differentially expressed miRNAs in the brain of FKBP5 deficient mice may be involved in neuron development, cell motion, endocytosis, and cell-cell adhesion. These results suggest that Nfasc could be a new target for understanding of the pathophysiology of PTSD.

Project description:Childhood and cumulative exposure to trauma increases an individual's lifetime risk for psychiatric and stress-related disorders. This study evaluates DNA methylation in whole blood, with the goal of identifying associaitons between peripheral DNA methylation and psychiatric symptoms.

Project description:Childhood and cumulative exposure to trauma increases an individual's lifetime risk for psychiatric and stress-related disorders. This study evaluates DNA methylation in whole blood from African American participants, with the goal of identifying associaitons between peripheral DNA methylation and psychiatric symptoms.

Project description:DNA methylation from Grady Trauma Project Parental and childhood exposure to trauma increases an individual's lifetime risk for psychiatric and stress-related disorders. This study evaluates DNA methylation in saliva from children, with the goal of identifying associations between peripheral DNA methylation and psychiatric symptoms.

Project description:Childhood and cumulative exposure to trauma increases an individual's lifetime risk for psychiatric and stress-related disorders. This study evaluates DNA methylation in whole blood from African American participants, with the goal of identifying associaitons between peripheral DNA methylation and psychiatric symptoms. DNA methylation was assessed in whole blood from participants of the Grady Trauma Project. Blood was collected in EDTA vacuum tubes prior to extraction. DNA methylation was interrogated for each sample using the HumanMethylation450 BeadChip (Illumina).

Project description:Depression risk is exacerbated by genetic factors and stress exposure; however, the biological mech- anisms through which these factors interact to confer depression risk are poorly understood. One putative biological mechanism implicates variability in the ability of cortisol, released in response to stress, to trigger a cascade of adaptive genomic and non-genomic processes through glucocorticoid receptor (GR) activation. Here, we demonstrate that common genetic variants in long-range enhancer elements modulate the immediate transcriptional response to GR activation in human blood cells. These functional genetic variants increase risk for depression and co-heritable psychiatric disorders. Moreover, these risk variants are associated with inappropriate amygdala reactivity, a transdiagnostic psychiatric endophenotype and an important stress hormone response trigger. Network modeling and animal experiments suggest that these genetic dif- ferences in GR-induced transcriptional activation may mediate the risk for depression and other psy- chiatric disorders by altering a network of function- ally related stress-sensitive genes in blood and brain.

Project description:We aimed to identify blood gene expression patterns associated to psychopathological trajectories retrieved from a large community, focusing on the emergence and remission of general psychiatric symptoms. Hundred and three individuals from the Brazilian High-Risk Cohort Study (BHRCS) for mental disorders were classified in four groups according to Child Behavior Checklist (CBCL) total score at the baseline (w0) and after 3 years (w1): low–high (L–H) (N = 27), high–low (H–L) (N = 12), high–high (H–H) (N = 34) and low–low (L–L) groups (N = 30). Blood gene expression profile was measured using Illumina HT-12 Beadchips, and paired analyses comparing w0 and w1 were performed for each group.

Project description:FKBP51, also known as FK506-binding protein 51, is a molecular chaperone and scaffolding protein with significant roles in regulating hormone signaling and stress responding. Genetic variants in FKBP5, which encodes FKBP51, have been implicated in a growing number of neuropsychiatric disorders, which has spurred efforts to target FKBP51 therapeutically. However, the molecular mechanisms by which FKBP51 influences the pathways affected in these disorders are not fully understood. Protein changes in Fkbp5 KO mice, as measured by histology and proteomics, revealed alterations in a brain region- and sex-dependent manner.

Project description:The strong pattern of comorbidity amongst psychiatric disorders is believed to be generated by a spectrum of latent liability, arising from a complex interplay of genetic risk and environmental factors, such as stress and childhood adversity. At one end of this spectrum are internalizing disorders, which are associated with neuroticism, anxiety, and depression. At the other end of the spectrum are externalizing disorders, which are associated with risk-taking and novelty-seeking, as seen in mania, substance abuse, and impulse-control disorders. We model the genetic contributions underlying both extremes of this spectrum by selectively breeding rats that react differently to a novel environment. “Bred high responder” (bHR) rats are highly exploratory with a disinhibited, novelty-seeking temperament, including hyperactivity, aggression, and drug-seeking. “Bred low responder” (bLR) rats are highly-inhibited, exhibiting reduced locomotor activity and anxious and depressive-like behavior. These behavioral propensities are robust and stable, beginning early in development similar to temperament in humans. This RNA-sequencing study examined gene expression in the hippocampus, a region critical for emotional regulation, in generation F29 male bHR rats and bLR rats from two ages: P14 and adulthood (n=2/group).