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

The EMBO Journal Pub Date : 2025-05-12 DOI:10.1038/s44318-025-00448-7

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

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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-AMPKαThr172 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-AMPKαThr172 levels and reduces those of phospho-mTORSer2448. 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.

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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。

胰岛β细胞高血糖时胰岛素mRNA翻译的上调涉及几种rna结合蛋白。在这里，我们发现G3BP1，一个在2型糖尿病患者胰岛中下调的应激颗粒标记物，以葡萄糖浓度依赖的方式与胰岛素mRNA结合。在暴露于空腹葡萄糖水平的小鼠胰岛素瘤MIN6-K8细胞中，我们发现G3BP1及其类似的G3BP2与eIF3b、phospho-AMPKαThr172和Ins1/2 mRNA共定位于胞浆凝聚物。葡萄糖刺激溶解G3BP1+/2+凝聚物，使其组分在细胞质中重新分布。醛缩酶抑制剂aldometanib阻止葡萄糖和丙酮酸诱导的G3BP1+/2+凝聚物的溶解，增加phospho-AMPKαThr172水平，降低phospho-mTORSer2448水平。G3BP1或G3BP2的耗尽阻止了凝析油的组装。G3BP1的KO降低了Ins1/2 mRNA的丰度和翻译以及胰岛素原水平，并损害了葡萄糖刺激的胰岛素分泌。此外，其他胰岛素分泌剂如exendin-4和棕榈酸盐，但不是高KCl，促进G3BP1+/2+凝聚物的溶解。G3BP1+/2+/Ins mRNA+凝聚体也存在于小鼠和人原代β细胞中。因此，G3BP1+/2+凝聚物代表了一个保守的糖酵解/醛缩酶调节的室，在静息β细胞中对胰岛素mRNA进行生理储存和保护。

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 EMBO Journal

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