ORCID Profile
0000-0003-3964-5247
Current Organisation
University of California, Irvine
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Publisher: Cold Spring Harbor Laboratory
Date: 31-08-2021
DOI: 10.1101/2021.08.31.458231
Abstract: Mental and cognitive health, as well as vulnerability to neuropsychiatric disorders, involve the interplay of genes with the environment, particularly during sensitive developmental periods. Early-life stress / adversity (ELA) promotes vulnerabilities to stress-related affective disorders, yet it is unknown how a transient ELA dictates life-long neuroendocrine and behavioral reactions to stress. The population of hypothalamic corticotropin-releasing hormone (CRH)-expressing neurons that regulate stress-responses is a promising candidate to mediate the enduring influences of ELA on stress-related behavioral and hormonal responses via enduring transcriptional and epigenetic mechanisms. Capitalizing on a well-characterized model of ELA, we examined here the ELA-induced changes in gene expression profiles of stress-sensitive CRH-neurons in the hypothalamic paraventricular nucleus (PVN) of male mice. Given the known heterogeneity of these neuronal populations, we employed single-cell RNA sequencing (RNA-seq) approaches. The use of single-cell transcriptomics identified distinct CRH-expressing neuronal populations characterized by both their gene expression repertoire and their neurotransmitter profiles. Expression changes provoked by ELA clustered around genes involved in neuronal differentiation, synapse formation, altered energy metabolism and the cellular responses to stress and injury. Notably, the ELA-induced transcriptional changes took place primarily in subpopulations of glutamatergic CRH cells. Finally, ELA-induced transcriptional reprogramming of hypothalamic CRH-expressing neurons heralded significant, enduring disruptions of both hormonal and behavioral responses to stress throughout life.
Publisher: Frontiers Media SA
Date: 28-05-2020
Publisher: Cold Spring Harbor Laboratory
Date: 03-07-2022
DOI: 10.1101/2022.07.01.498504
Abstract: Disrupted operations of the reward circuit are thought to underlie major emotional disorders including depression and drug abuse 1–3 . These disorders commonly arise following early life stress 4,5 however, how stress early in life enduringly impacts reward circuit functions to promote disease remains unclear. Here, we discover and characterize a novel stress-sensitive reward-circuit projection connecting the basolateral amygdala (BLA) and nucleus accumbens (NAc) that co-expresses GABA and the stress-reactive neuropeptide corticotropin-releasing hormone (CRH). We then identify a crucial role for this projection in executing the disrupted reward behaviors provoked by early-life adversity (ELA): Chemogenetic and optogenetic stimulations of the CRH GABA BLA→NAc projection in typically reared mice suppressed several reward seeking behaviors, recapitulating deficits resulting from ELA and demonstrating a key contribution of this pathway in the normal operations of the reward circuit. Next, inhibition of the CRH GABA BLA→NAc projection in adult mice that experienced ELA restored typical reward behaviors in these mice, and, in contrast, had little effect in typically reared mice, indicating a selective ELA-induced maladaptive plasticity of this reward-circuit projection. We discover a novel, stress-sensitive, reward inhibiting projection from the BLA→NAc with unique molecular features, which may provide targets for intervention in disabling mental illnesses.
Publisher: Elsevier BV
Date: 05-2020
Publisher: Springer Science and Business Media LLC
Date: 25-02-2023
DOI: 10.1038/S41467-023-36780-X
Abstract: Disrupted operations of the reward circuit underlie major emotional disorders, including depression, which commonly arise following early life stress / adversity (ELA). However, how ELA enduringly impacts reward circuit functions remains unclear. We characterize a stress-sensitive projection connecting basolateral amygdala (BLA) and nucleus accumbens (NAc) that co-expresses GABA and the stress-reactive neuropeptide corticotropin-releasing hormone (CRH). We identify a crucial role for this projection in executing disrupted reward behaviors provoked by ELA: chemogenetic and optogenetic stimulation of the projection in control male mice suppresses several reward behaviors, recapitulating deficits resulting from ELA and demonstrating the pathway’s contributions to normal reward behaviors. In adult ELA mice, inhibiting–but not stimulating–the projection, restores typical reward behaviors yet has little effect in controls, indicating ELA-induced maladaptive plasticity of this reward-circuit component. Thus, we discover a stress-sensitive, reward inhibiting BLA → NAc projection with unique molecular features, which may provide intervention targets for disabling mental illnesses.
No related grants have been discovered for Matthew Birnie.