FKBP51 Overexpression in the Corticolimbic System Stabilizes Circadian Rhythms.

IF 3.3 3区 生物学 Q3 CELL BIOLOGY Cell Stress & Chaperones Pub Date : 2024-12-12 DOI:10.1016/j.cstres.2024.12.003
Niat T Gebru, David Beaulieu-Abdelahad, Danielle Gulick, Laura J Blair
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引用次数: 0

Abstract

Circadian rhythm disruptions have been associated with a wide range of health issues and complications, including an increased risk of circadian rhythm sleep disorders (CRSDs). CRSDs are common among individuals who have been through a traumatic event, particularly in those who have post-traumatic stress disorder (PTSD). Allelic variations in the gene encoding for FK506-binding protein 51 (FKBP51) can increase the susceptibility for PTSD and other stress-related disorders following trauma. At least one of these variants increases the levels of FKBP51 following stress through a glucocorticoid receptor-mediated process. Here, we used a mouse model that overexpresses human FKBP51 throughout the forebrain, rTgFKBP5, to investigate if elevated FKBP51 contributes to circadian rhythm disruption. Surprisingly, our findings indicate a greater rhythm amplitude and decreased rhythm fragmentation in rTgFKBP5 mice, particularly females, compared to controls. Female rTgFKBP5 mice also showed higher corticosterone levels basally and following stress exposure. Overall, this study associates FKBP51 overexpression with beneficial circadian rhythm outcomes.

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皮质边缘系统中 FKBP51 的过度表达可稳定昼夜节律
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来源期刊
Cell Stress & Chaperones
Cell Stress & Chaperones 生物-细胞生物学
CiteScore
7.60
自引率
2.60%
发文量
59
审稿时长
6-12 weeks
期刊介绍: Cell Stress and Chaperones is an integrative journal that bridges the gap between laboratory model systems and natural populations. The journal captures the eclectic spirit of the cellular stress response field in a single, concentrated source of current information. Major emphasis is placed on the effects of climate change on individual species in the natural environment and their capacity to adapt. This emphasis expands our focus on stress biology and medicine by linking climate change effects to research on cellular stress responses of animals, micro-organisms and plants.
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