| Literature DB >> 26551431 |
Masahiro Ohgidani1, Takahiro A Kato2, Noriaki Sagata1, Kohei Hayakawa1, Norihiro Shimokawa1, Mina Sato-Kasai1, Shigenobu Kanba1.
Abstract
The role of microglia in stress responses has recently been highlighted, yet the underlying mechanisms of action remain unresolved. The present study examined disruption in working memory due to acute stress using the water-immersion resistant stress (WIRS) test in mice. Mice were subjected to acute WIRS, and biochemical, immunohistochemical, and behavioral assessments were conducted. Spontaneous alternations (working memory) significantly decreased after exposure to acute WIRS for 2h. We employed a 3D morphological analysis and site- and microglia-specific gene analysis techniques to detect microglial activity. Morphological changes in hippocampal microglia were not observed after acute stress, even when assessing ramification ratios and cell somata volumes. Interestingly, hippocampal tumor necrosis factor (TNF)-α levels were significantly elevated after acute stress, and acute stress-induced TNF-α was produced by hippocampal-ramified microglia. Conversely, plasma concentrations of TNF-α were not elevated after acute stress. Etanercept (TNF-α inhibitor) recovered working memory deficits in accordance with hippocampal TNF-α reductions. Overall, results suggest that TNF-α from hippocampal microglia is a key contributor to early-stage stress-to-mental responses.Entities:
Keywords: 3D morphological analysis; Acute stress; Etanercept; Hippocampus; Microglia; TNF-α; Water-immersion resistant stress; Working memory
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Year: 2015 PMID: 26551431 DOI: 10.1016/j.bbi.2015.08.022
Source DB: PubMed Journal: Brain Behav Immun ISSN: 0889-1591 Impact factor: 7.217