Molecular characterization of the stress network in the human brain

Abstract: The biological mechanisms underlying inter-individual differences in human stress reactivity remain poorly understood. We aimed to identify the molecular underpinning of neural stress sensitivity. Linking mRNA expression data from the Allen Human Brain Atlas to task-based fMRI revealed 261 differentially expressed genes in brain regions differentially activated by stress in individuals with low or high stress sensitivity. These genes are associated with stress-related psychiatric disorders (e.g. schizophrenia and anxiety) and include markers for specific neuronal populations (e.g. VIP, CCK, and NPY), neurotransmitter receptors (e.g. HTR1A, CHRNA3), and signaling factors that interact with the glucocorticoid receptor and hypothalamic-pituitary-adrenal axis (e.g. CRH, NEUROD2, PACAP). Overall, the identified genes potentially underlie altered stress reactivity in individuals at risk for psychiatric disorders and play a role in mounting an adaptive stress response, making them potentially druggable targets for stress-related diseases.

Mandy Meijer, Arlin Keo, Judith M.C. van Leeuwen, Oleh Dzyubachyk, Onno Meijer, Christiaan H. Vinkers, and Ahmed Mahfouz. Molecular characterization of the stress network in the human brain. BioRxiv, 2019.
@article { bib:2019_stress_preprint,
author = { Mandy Meijer and Arlin Keo and Judith M.C. van Leeuwen and Oleh Dzyubachyk and Onno Meijer and Christiaan H. Vinkers and Ahmed Mahfouz },
title = { Molecular characterization of the stress network in the human brain },
year = { 2019 },
doi = { 10.1101/661587 },
}
stress imaging genetics screenshot

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