Abstract
Exposure to prolonged, unpredictable stress leads to glucocorticoids-mediated long-lasting neuroendocrine abnormalities associated with emotional and cognitive impairments. Excessive levels of serum glucocorticoids (cortisol in humans, corticosterone in rodents) contribute notably to deficits in working memory (WM), a task which heavily relies on functional interactions between the medial prefrontal cortex (PFC) and the dorsal hippocampus (dHPC). However, it is unknown whether stress-induced increases in plasma corticosterone mirror corticosterone levels in specific brain regions critical for WM. After a 6 week-UCMS exposure, C57BL/6 J male mice exhibited increased anxiety- and depressive-like behaviors when measured one week later and displayed WM impairments timely associated with increased plasma corticosterone response. In chronically stressed mice, basal phosphorylated/activated CREB (pCREB) was markedly increased in the PFC and the CA1 area of the dHPC and WM testing did not elicit any further increase in pCREB in the two regions. Using microdialysis samples from freely-moving mice, we found that WM testing co-occurred with a rapid and sustained increase in corticosterone response in the PFC while there was a late, non-significant rise of corticosterone in the dHPC. The results also show that non-stressed mice injected with corticosterone (2 mg/kg i.p.) before WM testing displayed behavioral and molecular alterations similar to those observed in stressed animals while a pre-WM testing metyrapone injection (35 mg/kg i.p.), a corticosterone synthesis inhibitor, prevented the effects of UCMS exposure. Overall, the abnormal regional increase of corticosterone concentrations mainly in the PFC emerges as a key factor of enduring WM dysfunctions in UCMS-treated animals.
Highlights
Major depression, a pathology that can be triggered by chronic psychosocial stress in vulnerable subjects (Kendler et al, 2001), is characterized by mood disturbance, anhedonia, weight changes and sleep disturbance
We found that unpredictable chronic mild stress paradigm (UCMS) mice displayed high basal phosphorylated/activated cAMP-response element binding (CREB) (pCREB) level in the prefrontal cortex (PFC) and the dorsal hippocampus (dHPC) and that working memory (WM) testing did not elicit any further increase in pCREB
Microdialysis sampling of corticosterone concentration in the PFC revealed enhanced corticosterone response during WM testing selectively in the PFC in non-stressed mice which was potentiated and prolonged in UCMS mice
Summary
A pathology that can be triggered by chronic psychosocial stress in vulnerable subjects (Kendler et al, 2001), is characterized by mood disturbance, anhedonia, weight changes and sleep disturbance. Prolonged exposure to corticosterone causes alterations of many different neurotransmitters systems or of their receptors density and affinity (Drevets, 2000; Yuen et al, 2012), as well as neurogenesis in the HPC (Tanti and Belzung, 2013) These structural and functional brain changes result in altered synaptic plasticity and cognitive impairments in HPC- and PFC-dependent memory tasks (McEwen, 2002; Sandi, 2004; Touyarot et al, 2004), including spatial working memory (WM) tasks. This view is supported by findings reporting that the administration of corticosterone or local infusion of GC receptor (GR) agonist mimics the stress-related WM impairment in rodents (Roozendaal et al, 2004; Cerqueira et al, 2005; Arnsten, 2009)
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