Neural progenitors acquire GFAP expression during the perinatal period and continue to generate granule cells (GCs) in the hippocampal dentate gyrus throughout adulthood. Cellular characteristics of GFAP+ progenitor-derived late-born GCs in comparison with early-born GCs remain unknown. Using genetic fate mapping in mice, we show that early- and late-born GCs are concentrated in the outer and inner side of the GC layer, respectively. We then identify that a nuclear orphan receptor Nr4A2 is preferentially expressed by early-born GCs. Nr4a2 expression is dynamically regulated in response to restraint stress and glucocorticoid levels, indicating that Nr4a2 is a stress-regulated gene in GCs. Acute stress suppresses but chronic stress conversely induces Nr4a2 expression in GCs. The survival of newly generated GCs is impaired by chronic restraint stress and long-term stress after middle age decreases the proportion of late-born GCs in aged mice. Thus, early- and late-born GCs exhibit characteristic anatomical distribution, differential gene expression, and distinct response to environmental stress.
Keywords: adult neurogenesis; aging; dentate gyrus; glucocorticoid; stress; transcription factor.
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