G3BP isoforms differentially affect stress granule assembly and gene expression during cellular stress.

IF 4.3 3区材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-11-01 Epub Date: 2024-10-02 DOI:10.1091/mbc.E24-02-0062

José M Liboy-Lugo, Carla A Espinoza, Jessica Sheu-Gruttadauria, Jesslyn E Park, Albert Xu, Ziad Jowhar, Angela L Gao, José A Carmona-Negrón, Torsten Wittmann, Natalia Jura, Stephen N Floor

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Abstract

Stress granules (SGs) are macromolecular assemblies that form under cellular stress. Formation of these membraneless organelles is driven by the condensation of RNA and RNA-binding proteins such as G3BPs. G3BPs form SGs following stress-induced translational arrest. Three G3BP paralogues (G3BP1, G3BP2A, and G3BP2B) have been identified in vertebrates. However, the contribution of different G3BP paralogues to SG formation and gene expression changes is incompletely understood. Here, we probed the functions of G3BPs by identifying important residues for SG assembly at their N-terminal domain such as V11. This conserved amino acid is required for formation of the G3BP-Caprin-1 complex, hence promoting SG assembly. Total RNA sequencing and ribosome profiling revealed that a G3BP^V11A mutant leads to changes in mRNA levels and ribosome engagement during the integrated stress response (ISR). Moreover, we found that G3BP2B preferentially forms SGs and promotes changes in mRNA expression under endoplasmic reticulum (ER) stress. Furthermore, our work is a resource for researchers to study gene expression changes under cellular stress. Together, this work suggests that perturbing protein-protein interactions mediated by G3BPs affect SG assembly and gene expression during the ISR, and such functions are differentially regulated by G3BP paralogues under ER stress.

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在细胞应激过程中，G3BP 同工酶会对应激颗粒的组装和基因表达产生不同影响。

应激颗粒（SG）是在细胞应激状态下形成的大分子集合体。这些无膜细胞器的形成是由 RNA 和 RNA 结合蛋白（如 G3BPs）的凝聚作用驱动的。G3BPs 在应激诱导的翻译停止后形成 SG。在脊椎动物中已经发现了三种 G3BP 同源物（G3BP1、G3BP2A 和 G3BP2B）。然而，人们对不同的 G3BP 对系物在应激颗粒形成和基因表达变化中所起的作用尚不完全清楚。在这里，我们通过鉴定 G3BPs N 端结构域（如 V11）中应激颗粒组装的重要残基，探究了 G3BPs 的功能。这个保守氨基酸是形成 G3BP-Caprin-1 复合物所必需的，从而促进了 SG 的组装。总 RNA 测序和核糖体分析表明，G3BPV11A 突变体会导致综合应激反应（ISR）期间 mRNA 水平和核糖体参与的变化。此外，我们还发现在内质网（ER）应激下，G3BP2B 会优先形成应激颗粒并促进 mRNA 表达的变化。此外，我们的工作还为研究人员研究细胞应激下的基因表达变化提供了资源。总之，这项工作表明，由G3BPs介导的蛋白-蛋白相互作用会影响ISR过程中应激颗粒的组装和基因表达，而这些功能在ER应激下会受到G3BP旁系亲属的不同调控。

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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