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mTORC1-SLC4A7 轴刺激碳酸氢盐内流以增强从头核苷酸合成。

The mTORC1-SLC4A7 axis stimulates bicarbonate import to enhance de novo nucleotide synthesis.

机构信息

Department of Biochemistry and Molecular Genetics, Feinberg School of Medicine, Northwestern University, Chicago, IL 60611, USA; Robert H. Lurie Comprehensive Cancer Center, Northwestern University, Chicago, IL 60611, USA.

Department of Microbiology-Immunology, Northwestern University Feinberg School of Medicine, Chicago, IL 60611, USA.

出版信息

Mol Cell. 2022 Sep 1;82(17):3284-3298.e7. doi: 10.1016/j.molcel.2022.06.008. Epub 2022 Jun 29.

DOI:10.1016/j.molcel.2022.06.008
PMID:35772404
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9444906/
Abstract

Bicarbonate (HCO) ions maintain pH homeostasis in eukaryotic cells and serve as a carbonyl donor to support cellular metabolism. However, whether the abundance of HCO is regulated or harnessed to promote cell growth is unknown. The mechanistic target of rapamycin complex 1 (mTORC1) adjusts cellular metabolism to support biomass production and cell growth. We find that mTORC1 stimulates the intracellular transport of HCO to promote nucleotide synthesis through the selective translational regulation of the sodium bicarbonate cotransporter SLC4A7. Downstream of mTORC1, SLC4A7 mRNA translation required the S6K-dependent phosphorylation of the translation factor eIF4B. In mTORC1-driven cells, loss of SLC4A7 resulted in reduced cell and tumor growth and decreased flux through de novo purine and pyrimidine synthesis in human cells and tumors without altering the intracellular pH. Thus, mTORC1 signaling, through the control of SLC4A7 expression, harnesses environmental bicarbonate to promote anabolic metabolism, cell biomass, and growth.

摘要

碳酸氢根(HCO)离子在真核细胞中维持 pH 平衡,并作为羰基供体支持细胞代谢。然而,HCO 的丰度是否受到调节或利用来促进细胞生长尚不清楚。雷帕霉素复合物 1(mTORC1)调节细胞代谢以支持生物量产生和细胞生长。我们发现 mTORC1 通过对碳酸氢盐共转运蛋白 SLC4A7 的选择性翻译调节来刺激 HCO 的细胞内运输,以促进核苷酸合成。在 mTORC1 的下游,SLC4A7 mRNA 的翻译需要 S6K 依赖性磷酸化翻译因子 eIF4B。在 mTORC1 驱动的细胞中,SLC4A7 的缺失导致细胞和肿瘤生长减少,并降低了从头嘌呤和嘧啶合成中的通量,而不改变细胞内 pH。因此,mTORC1 信号通过控制 SLC4A7 的表达,利用环境中的碳酸氢盐来促进合成代谢、细胞生物量和生长。

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