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Hippocampal interneurons are direct targets for circulating glucocorticoids

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The hippocampus has become a significant target of stress research in recent years because of its role in cognitive functioning, neuropathology, and regulation of the hypothalamic–pituitary–adrenal (HPA) axis. Despite the… Click to show full abstract

The hippocampus has become a significant target of stress research in recent years because of its role in cognitive functioning, neuropathology, and regulation of the hypothalamic–pituitary–adrenal (HPA) axis. Despite the pervasive impact of stress on psychiatric and neurological disease, many of the circuit‐ and cell‐dependent mechanisms giving rise to the limbic regulation of the stress response remain unknown. Hippocampal excitatory neurons generally express high levels of glucocorticoid receptors (GRs) and are therefore positioned to respond directly to serum glucocorticoids. These neurons are, in turn, regulated by neighboring interneurons, subtypes of which have been shown to respond to stress exposure. However, GR expression among hippocampal interneurons is not well characterized. To determine whether key interneuron populations are direct targets for glucocorticoid action, we used two transgenic mouse lines to label parvalbumin‐positive (PV+) and somatostatin‐positive (SST+) interneurons. GR immunostaining of labeled interneurons was characterized within the dorsal and ventral dentate hilus, dentate cell body layer, and CA1 and CA3 stratum oriens and stratum pyramidale. While nearly all hippocampal SST+ interneurons expressed GR across all regions, GR labeling of PV+ interneurons showed considerable subregion variability. The percentage of PV+, GR+ cells was highest in the CA3 stratum pyramidale and lowest in the CA1 stratum oriens, with other regions showing intermediate levels of expression. Together, these findings indicate that, under baseline conditions, hippocampal SST+ interneurons are a ubiquitous glucocorticoid target, while only distinct populations of PV+ interneurons are direct targets. This anatomical diversity suggests functional differences in the regulation of stress‐dependent hippocampal responses.

Keywords: stress; interneurons direct; sst interneurons; direct targets; targets circulating; hippocampal interneurons

Journal Title: Journal of Comparative Neurology
Year Published: 2022

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