Emerging roles for integrated stress response signaling in homeostasis.

The FEBS journal Pub Date : 2025-07-14 DOI:10.1111/febs.70166

Shyama Nandakumar, Lydia Grmai, Deepika Vasudevan

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Abstract

Across phyla, organisms have evolved signaling mechanisms to cope with cell-intrinsic and -extrinsic stressors. The integrated stress response (ISR) is a prime example of such a mechanism and has well-defined roles from yeast to humans in dealing with stress burdens imposed by nutrient deprivation, protein misfolding, infectious agents, and oxidative stress. As with many fundamental cellular processes, the complexity of ISR signaling increases with evolutionary complexity. While single-celled organisms have been reported to utilize ISR signaling in the context of stress, multicellular organisms also rely on ISR signaling components for a number of homeostatic functions. The role of ISR signaling in the absence of obvious stressors is less well-studied, though useful insights into this can be extrapolated from prior studies using loss-of-function mutants in model organisms. This review summarizes the known (and inferred) homeostatic roles for ISR signaling components and speculates on cellular functions and principles that might require stress-adaptive mechanisms such as ISR signaling to maintain homeostasis.

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综合应激反应信号在体内平衡中的新作用。

在整个门中，生物体已经进化出信号机制来应对细胞内在和外在的压力源。综合应激反应（integrated stress response， ISR）是这种机制的一个主要例子，从酵母到人类，在处理由营养剥夺、蛋白质错误折叠、感染因子和氧化应激造成的应激负担方面具有明确的作用。与许多基本的细胞过程一样，ISR信号的复杂性随着进化的复杂性而增加。据报道，单细胞生物在应激环境下利用ISR信号，而多细胞生物也依赖ISR信号组件来实现一些稳态功能。ISR信号在缺乏明显应激源的情况下的作用研究较少，尽管可以从先前使用模式生物中功能丧失突变体的研究中推断出有用的见解。这篇综述总结了已知的（和推断的）ISR信号成分的内稳态作用，并推测了可能需要应力适应机制（如ISR信号）来维持内稳态的细胞功能和原理。

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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The FEBS journal

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