独立于应激反应的 GCN2 的综合作用可防止核糖体生物生成和 mRNA 翻译过度

Monica Roman-Trufero, Istvan T Kleijn, Kevin Blighe, Jinglin Zhou, Paula Saavedra-Garcia, Abigail Gaffar, Marilena Christoforou, Axel Bellotti, Joel Abrahams, Abdelmadjid Atrih, Douglas J Lamont, Marek Gierlinski, Pooja Jayaprakash, Audrey M Michel, Eric Aboagye, Mariia Yuneva, Glenn R Masson, Vahid Shahrezaei, Holger W Auner
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引用次数: 0

摘要

综合应激反应(ISR)是一种恢复细胞平衡的纠正性生理程序,其基础是全局蛋白质合成的衰减和资源增强转录程序。GCN2 是四种激酶中最古老的激酶,会被各种细胞应激激活以触发 ISR,并充当氨基酸短缺和核糖体碰撞的主要反应器。在这里,我们利用广泛的多组学方法发现了 GCN2 独立于 ISR 的作用。在没有明显压力的情况下,GCN2 的抑制或耗竭会导致蛋白质合成和核糖体生物生成过多,扰乱细胞的翻译体,并导致动态和广泛的代谢平衡丧失。依靠 GCN2 来控制蛋白质合成的癌细胞,在营养物质充足的条件下依靠 GCN2 来维持生存和不受限制的肿瘤生长。我们的观察结果确定了 GCN2 在调节细胞蛋白质组和翻译组中的作用与 ISR 无关,并为基于释放过量 mRNA 翻译的癌症疗法提出了新的途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An integrated stress response-independent role of GCN2 prevents excessive ribosome biogenesis and mRNA translation
The Integrated Stress Response (ISR) is a corrective physiological program to restore cellular homeostasis that is based on the attenuation of global protein synthesis and a resource-enhancing transcriptional programme. GCN2 is the oldest of four kinases that are activated by diverse cellular stresses to trigger the ISR and acts as the primary responder to amino acid shortage and ribosome collisions. Here, using a broad multi-omic approach, we uncover an ISR-independent role of GCN2. GCN2 inhibition or depletion in the absence of discernible stress causes excessive protein synthesis and ribosome biogenesis, perturbs the cellular translatome, and results in a dynamic and broad loss of metabolic homeostasis. Cancer cells that rely on GCN2 to keep protein synthesis in check under conditions of full nutrient availability depend on GCN2 for survival and unrestricted tumour growth. Our observations define an ISR-independent role of GCN2 in regulating the cellular proteome and translatome and suggest new avenues for cancer therapies based on unleashing excessive mRNA translation.
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