醛缩酶调节的G3BP1/2凝聚物控制β细胞中胰岛素mRNA的储存。

Aldolase-regulated G3BP1/2 condensates control insulin mRNA storage in beta cells.

作者信息

Quezada Esteban, Knoch Klaus-Peter, Vasiljevic Jovana, Seiler Annika, Pal Akshaye, Gunasekaran Abishek, Münster Carla, Friedland Daniela, Schöniger Eyke, Sönmez Anke, Roch Pascal, Wegbrod Carolin, Ganß Katharina, Kipke Nicole, Alberti Simon, Nano Rita, Piemonti Lorenzo, Aust Daniela, Weitz Jürgen, Distler Marius, Solimena Michele

机构信息

Molecular Diabetology, University Hospital and Faculty of Medicine Carl Gustav Carus, TU Dresden, Dresden, Germany.

Paul Langerhans Institute Dresden (PLID) of the Helmholtz Center Munich at the University Hospital and Faculty of Medicine Carl Gustav Carus, TU Dresden, Dresden, Germany.

出版信息

EMBO J. 2025 May 12. doi: 10.1038/s44318-025-00448-7.

DOI:10.1038/s44318-025-00448-7

PMID:40355555

Abstract

Upregulation of insulin mRNA translation upon hyperglycemia in pancreatic islet β-cells involves several RNA-binding proteins. Here, we found that G3BP1, a stress granule marker downregulated in islets of subjects with type 2 diabetes, binds to insulin mRNA in glucose concentration-dependent manner. We show in mouse insulinoma MIN6-K8 cells exposed to fasting glucose levels that G3BP1 and its paralog G3BP2 colocalize to cytosolic condensates with eIF3b, phospho-AMPKα and Ins1/2 mRNA. Glucose stimulation dissolves G3BP1/2 condensates with cytosolic redistribution of their components. The aldolase inhibitor aldometanib prevents the glucose- and pyruvate-induced dissolution of G3BP1/2 condensates, increases phospho-AMPKα levels and reduces those of phospho-mTOR. G3BP1 or G3BP2 depletion precludes condensate assembly. KO of G3BP1 decreases Ins1/2 mRNA abundance and translation as well as proinsulin levels, and impaires glucose-stimulated insulin secretion. Further, other insulin secretagogues such as exendin-4 and palmitate, but not high KCl, prompts the dissolution of G3BP1/2 condensates. G3BP1/2/Ins mRNA condensates are also found in primary mouse and human β-cells. Hence, G3BP1/2 condensates represent a conserved glycolysis/aldolase-regulated compartment for the physiological storage and protection of insulin mRNA in resting β-cells.

摘要

胰岛β细胞在高血糖时胰岛素mRNA翻译的上调涉及多种RNA结合蛋白。在此，我们发现G3BP1（一种在2型糖尿病患者胰岛中下调的应激颗粒标志物）以葡萄糖浓度依赖的方式与胰岛素mRNA结合。我们在暴露于空腹血糖水平的小鼠胰岛素瘤MIN6 - K8细胞中发现，G3BP1及其旁系同源物G3BP2与eIF3b、磷酸化AMPKα和Ins1/2 mRNA共定位于胞质凝聚物中。葡萄糖刺激会使G3BP1/2凝聚物溶解，其成分在胞质中重新分布。醛缩酶抑制剂aldometanib可防止葡萄糖和丙酮酸诱导的G3BP1/2凝聚物溶解，增加磷酸化AMPKα水平并降低磷酸化mTOR水平。G3BP1或G3BP2的缺失会阻止凝聚物的组装。敲除G3BP1会降低Ins1/2 mRNA丰度、翻译水平以及胰岛素原水平，并损害葡萄糖刺激的胰岛素分泌。此外，其他胰岛素促分泌剂如艾塞那肽 - 4和棕榈酸酯（但不是高钾）会促使G3BP1/2凝聚物溶解。在原代小鼠和人β细胞中也发现了G3BP1/2/Ins mRNA凝聚物。因此，G3BP1/2凝聚物代表了一个保守的糖酵解/醛缩酶调节的区室，用于在静息β细胞中对胰岛素mRNA进行生理性储存和保护。

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醛缩酶调节的G3BP1/2凝聚物控制β细胞中胰岛素mRNA的储存。

Aldolase-regulated G3BP1/2 condensates control insulin mRNA storage in beta cells.

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