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Metabolic disruption exacerbates intestinal damage during sleep deprivation by abolishing HIF1α-mediated repair

Haiyi Zhang, Yaqing Shu, Yan Li, Yalin Hu, Zhihong Wu, Zhipeng Li, Yao Deng, Zi‐Jian Zheng, Xiaojing Zhang, Liu-Fei Gong, Yang Luo, Xiao-Yu Wang, Hongping Li, Xiaoping Liao, Li Gong, Hao Ren, Wei Qiu, Jian Sun

2024Cell Reports17 citationsDOIOpen Access PDF

Abstract

Sleep deprivation (SD) has been reported to induce intestinal damage by several mechanisms, yet its role in modulating epithelial repair remains unclear. In this study, we find that chronic SD leads to colonic damage through continuous hypoxia. However, HIF1α, which generally responds to hypoxia to modulate barrier integrity, was paradoxically dysregulated in the colon. Further investigation revealed that a metabolic disruption during SD causes accumulation of α-ketoglutarate in the colon. The excessive α-ketoglutarate degrades HIF1α protein through PHD2 (prolyl hydroxylase 2) to abolish the intestinal repair functions of HIF1α. Collectively, these findings provide insights into how SD can exacerbate intestinal damage by fine-tuning metabolism to abolish HIF1α-mediated repair.

Topics & Concepts

Sleep deprivationSleep (system call)PrivationNeuroscienceMedicineCell biologyBiologyEndocrinologyCircadian rhythmComputer scienceOperating systemCancer, Hypoxia, and MetabolismAdipose Tissue and MetabolismHigh Altitude and Hypoxia
Metabolic disruption exacerbates intestinal damage during sleep deprivation by abolishing HIF1α-mediated repair | Litcius