Hcm1的动态磷酸化可在慢性压力下促进健康

bioRxiv - Cell Biology Pub Date : 2024-09-19 DOI:10.1101/2024.09.18.613713

Michelle M Conti, Jillian P Bail, Rui Li, Lihua Julie Zhu, Jennifer A Benanti

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引用次数: 0

摘要

细胞的存活取决于适应环境变化的能力。环境胁迫会触发急性应激反应程序，重构细胞生理结构、下调增殖基因并暂停细胞周期，直到细胞适应为止。在这里，我们发现酵母细胞周期调控转录因子 Hcm1 的动态磷酸化是在慢性压力下保持健康所必需的。Hcm1被细胞周期蛋白依赖激酶（CDK）激活，并在通过细胞膜Ca2+增加发出信号的应激源作用下被磷酸酶钙调磷酸酶（CN）灭活。表达具有组成型活性的拟磷酸化 Hcm1 突变体会降低应激时的适应性，这表明 Hcm1 失活是必需的。然而，对 Hcm1 磷酸拟态突变体的综合分析表明，Hcm1 的活性对于在应激中存活也很重要，这表明 Hcm1 的活性必须通过开关切换才能促进基因表达和存活。这些结果表明，细胞周期调节因子的动态控制对于在应激环境中生存至关重要。

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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Dynamic phosphorylation of Hcm1 promotes fitness in chronic stress

Cell survival depends upon the ability to adapt to changing environments. Environmental stressors trigger an acute stress response program that rewires cell physiology, downregulates proliferation genes and pauses the cell cycle until the cell adapts. Here, we show that dynamic phosphorylation of the yeast cell cycle-regulatory transcription factor Hcm1 is required to maintain fitness in chronic stress. Hcm1 is activated by cyclin dependent kinase (CDK) and inactivated by the phosphatase calcineurin (CN) in response to stressors that signal through increases in cytosolic Ca²⁺. Expression of a constitutively active, phosphomimetic Hcm1 mutant reduces fitness in stress, suggesting Hcm1 inactivation is required. However, a comprehensive analysis of Hcm1 phosphomutants revealed that Hcm1 activity is also important to survive stress, demonstrating that Hcm1 activity must be toggled on and off to promote gene expression and fitness. These results suggest that dynamic control of cell cycle regulators is critical for survival in stressful environments.

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bioRxiv - Cell Biology

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