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USP1 通过去泛素化 Akt 来抑制长时间饥饿时肌肉中的 PI3K-Akt-FoxO 信号通路。

USP1 deubiquitinates Akt to inhibit PI3K-Akt-FoxO signaling in muscle during prolonged starvation.

机构信息

Faculty of Biology, Technion Institute of Technology, Haifa, Israel.

出版信息

EMBO Rep. 2020 Apr 3;21(4):e48791. doi: 10.15252/embr.201948791. Epub 2020 Mar 5.

DOI:10.15252/embr.201948791
PMID:32133736
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7132338/
Abstract

PI3K-Akt-FoxO-mTOR signaling is the central pathway controlling growth and metabolism in all cells. Ubiquitination of the protein kinase Akt prior to its phosphorylation is required for PI3K-Akt activity. Here, we found that the deubiquitinating (DUB) enzyme USP1 removes K63-linked polyubiquitin chains on Akt to restrict PI3K-Akt-FoxO signaling in mouse muscle during prolonged starvation. DUB screening platform identified USP1 as a direct DUB for Akt, and USP1 depletion in mouse muscle increased Akt ubiquitination, PI3K-Akt-FoxO signaling, and glucose uptake during fasting. Co-immunoprecipitation and mass spectrometry identified disabled homolog-2 (Dab2), the tuberous sclerosis complex TSC1/TSC2, and PHLPP1 as USP1 bound proteins. During starvation, Dab2 is essential for Akt recruitment to USP1-TSC1-PHLPP1 complex, and for PI3K-Akt-FoxO inhibition. Surprisingly, USP1 limits TSC1 levels to sustain mTOR-mediated basal protein synthesis rates and maintain its own protein levels. We propose that Dab2 recruits Akt to USP1-TSC1-PHLPP1 complex to efficiently terminate the transmission of growth signals when cellular energy level is low.

摘要

PI3K-Akt-FoxO-mTOR 信号通路是控制所有细胞生长和代谢的核心途径。在 Akt 磷酸化之前,其蛋白激酶的泛素化对于 PI3K-Akt 活性是必需的。在这里,我们发现去泛素化(DUB)酶 USP1 去除 Akt 上的 K63 连接多泛素链,以限制长时间饥饿期间小鼠肌肉中的 PI3K-Akt-FoxO 信号通路。DUB 筛选平台将 USP1 鉴定为 Akt 的直接 DUB,并且小鼠肌肉中的 USP1 耗竭增加了 Akt 泛素化、PI3K-Akt-FoxO 信号通路和禁食期间的葡萄糖摄取。免疫共沉淀和质谱鉴定出Disabled homolog-2(Dab2)、结节性硬化复合物 TSC1/TSC2 和 PHLPP1 是 USP1 结合蛋白。在饥饿期间,Dab2 对于 Akt 招募到 USP1-TSC1-PHLPP1 复合物以及 PI3K-Akt-FoxO 抑制至关重要。令人惊讶的是,USP1 限制 TSC1 水平以维持 mTOR 介导的基础蛋白合成率并维持其自身的蛋白水平。我们提出,Dab2 将 Akt 招募到 USP1-TSC1-PHLPP1 复合物,以在细胞能量水平较低时有效地终止生长信号的传递。

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