AKT介导的TSC2磷酸化控制刺激和组织特异性的mTORC1信号传导及器官生长。

AKT-mediated phosphorylation of TSC2 controls stimulus- and tissue-specific mTORC1 signaling and organ growth.

作者信息

Cormerais Yann, Lapp Samuel C, Kalafut Krystle C, Cissé Madi Y, Shin Jong, Stefadu Benjamin, Personnaz Jean, Schrotter Sandra, D'Amore Angelica, Martin Emma R, Salussolia Catherine L, Sahin Mustafa, Menon Suchithra, Byles Vanessa, Manning Brendan D

机构信息

Department of Molecular Metabolism, Harvard T.H. Chan School of Public Health, Boston, MA, 02115, USA.

Department of Cell Biology, Harvard Medical School, Boston, MA, 02115, USA.

出版信息

bioRxiv. 2024 Sep 23:2024.09.23.614519. doi: 10.1101/2024.09.23.614519.

DOI:10.1101/2024.09.23.614519

PMID:39386441

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11463511/

Abstract

Mechanistic target of rapamycin (mTOR) complex 1 (mTORC1) integrates diverse intracellular and extracellular growth signals to regulate cell and tissue growth. How the molecular mechanisms regulating mTORC1 signaling established through biochemical and cell biological studies function under physiological states in specific mammalian tissues are unknown. Here, we characterize a genetic mouse model lacking the 5 phosphorylation sites on the tuberous sclerosis complex 2 (TSC2) protein through which the growth factor-stimulated protein kinase AKT can active mTORC1 signaling in cell culture models. These phospho-mutant mice (TSC2-5A) are developmentally normal but exhibit reduced body weight and the weight of specific organs, such as brain and skeletal muscle, associated with cell intrinsic decreases in growth factor-stimulated mTORC1 signaling. The TSC2-5A mouse model demonstrates that TSC2 phosphorylation is a primary mechanism of mTORC1 activation in some, but not all, tissues and provides a genetic tool to facilitate studies on the physiological regulation of mTORC1.

摘要

雷帕霉素作用的分子靶点（mTOR）复合物1（mTORC1）整合多种细胞内和细胞外生长信号，以调节细胞和组织生长。通过生化和细胞生物学研究建立的调节mTORC1信号传导的分子机制在特定哺乳动物组织的生理状态下如何发挥作用尚不清楚。在此，我们描述了一种基因敲除小鼠模型，该模型的结节性硬化复合物2（TSC2）蛋白上缺少5个磷酸化位点，在细胞培养模型中，生长因子刺激的蛋白激酶AKT可通过这些位点激活mTORC1信号传导。这些磷酸化突变小鼠（TSC2-5A）发育正常，但体重以及特定器官（如脑和骨骼肌）的重量降低，这与生长因子刺激的mTORC1信号传导的细胞内在性降低有关。TSC2-5A小鼠模型表明，TSC2磷酸化是某些（但不是所有）组织中mTORC1激活的主要机制，并提供了一种遗传工具，便于研究mTORC1的生理调节。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d2b0/11463511/fd35da1912d6/nihpp-2024.09.23.614519v1-f0001.jpg

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AKT介导的TSC2磷酸化控制刺激和组织特异性的mTORC1信号传导及器官生长。

AKT-mediated phosphorylation of TSC2 controls stimulus- and tissue-specific mTORC1 signaling and organ growth.

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