Intact Recognition Memory and Altered Hippocampal Glucocorticoid Receptor Signaling in Fkbp5-deficient Mice Following Acute Uncontrollable Stress.

IF 1.8 4区医学 Q3 MEDICINE, RESEARCH & EXPERIMENTAL

Experimental Neurobiology Pub Date : 2023-04-30 DOI:10.5607/en23006

Yong-Jae Jeon, Bo-Ryoung Choi, Min-Sun Park, Yoon-Sun Jang, Sujung Yoon, In Kyoon Lyoo, Jung-Soo Han

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Abstract

The FK506 binding protein 5 (FKBP5) is a co-chaperone that regulates the activity of the glucocorticoid receptor (GR) and has been reported to mediate stress resilience. This study aimed to determine the effects of Fkbp5 deletion on acute stress-induced recognition memory impairment and hippocampal GR signaling. Wild-type and Fkbp5-knockout mice were subjected to acute uncontrollable stress induced by restraint and electrical tail shock. First, we assessed the cognitive status of mice using a novel object recognition task. Next, we measured plasma corticosterone, GR levels, and the levels of GR phosphorylation at serine 211 in the hippocampus. Wild-type mice exhibited stress-induced memory impairments, whereas Fkbp5-knockout mice did not. Plasma corticosterone and GR levels did not differ between the non-stressed wild-type and Fkbp5-knockout mice, but the levels of phosphorylated GR were lower in Fkbp5-knockout mice than in wild-type mice. Wild-type and Fkbp5-knockout mice showed increased nuclear GR levels following stress, indicating GR translocation. However, cytosolic phosphorylated GR levels were lower in the hippocampi of Fkbp5-knockout mice following stress than in those of wild-type mice. These results suggest that FKBP5 deficiency increases resilience to acute stress by altering GR signaling.

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fkbp5缺陷小鼠在急性不可控应激后完整的识别记忆和海马糖皮质激素受体信号的改变

FK506结合蛋白5 (FKBP5)是一种调节糖皮质激素受体(GR)活性的共伴侣，已被报道介导应激恢复。本研究旨在确定Fkbp5缺失对急性应激性识别记忆障碍和海马GR信号传导的影响。野生型和fkbp5基因敲除小鼠受到约束和电尾电击引起的急性不可控应激。首先，我们使用一种新的物体识别任务来评估小鼠的认知状态。接下来，我们测量了血浆皮质酮、GR水平和海马区丝氨酸211处GR磷酸化水平。野生型小鼠表现出应激性记忆损伤，而fkbp5基因敲除小鼠则没有。血浆皮质酮和GR水平在非应激野生型和fkbp5基因敲除小鼠之间没有差异，但fkbp5基因敲除小鼠的磷酸化GR水平低于野生型小鼠。野生型和fkbp5基因敲除小鼠在应激后核GR水平升高，表明GR易位。然而，应激后fkbp5基因敲除小鼠海马的胞浆磷酸化GR水平低于野生型小鼠。这些结果表明，FKBP5缺乏通过改变GR信号通路增加对急性应激的恢复能力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Experimental Neurobiology Neuroscience-Cellular and Molecular Neuroscience

CiteScore

4.30

自引率

4.20%

发文量

期刊介绍： Experimental Neurobiology is an international forum for interdisciplinary investigations of the nervous system. The journal aims to publish papers that present novel observations in all fields of neuroscience, encompassing cellular & molecular neuroscience, development/differentiation/plasticity, neurobiology of disease, systems/cognitive/behavioral neuroscience, drug development & industrial application, brain-machine interface, methodologies/tools, and clinical neuroscience. It should be of interest to a broad scientific audience working on the biochemical, molecular biological, cell biological, pharmacological, physiological, psychophysical, clinical, anatomical, cognitive, and biotechnological aspects of neuroscience. The journal publishes both original research articles and review articles. Experimental Neurobiology is an open access, peer-reviewed online journal. The journal is published jointly by The Korean Society for Brain and Neural Sciences & The Korean Society for Neurodegenerative Disease.