mTOR复合物2通过抑制糖原合酶激酶3依赖性及SCF-FBXW7介导的降解来稳定Mcl-1蛋白。

mTOR Complex 2 Stabilizes Mcl-1 Protein by Suppressing Its Glycogen Synthase Kinase 3-Dependent and SCF-FBXW7-Mediated Degradation.

作者信息

Koo Junghui, Yue Ping, Deng Xingming, Khuri Fadlo R, Sun Shi-Yong

机构信息

Department of Hematology and Medical Oncology, Emory University School of Medicine and Winship Cancer Institute, Atlanta, Georgia, USA.

Department of Radiation Oncology, Emory University School of Medicine and Winship Cancer Institute, Atlanta, Georgia, USA.

出版信息

Mol Cell Biol. 2015 Jul;35(13):2344-55. doi: 10.1128/MCB.01525-14. Epub 2015 Apr 27.

DOI:10.1128/MCB.01525-14

PMID:25918246

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4456440/

Abstract

mTOR complex 2 (mTORC2) regulates cell survival and growth through undefined mechanisms. Mcl-1, a Bcl-2 family protein, functions as an oncogenic protein. The connection between mTORC2 and Mcl-1 stability has not been established and was thus the focus of this study. Mcl-1 levels in cancer cells were decreased by mTOR kinase inhibitors (TORKinibs), which inhibit both mTORCs, by knocking down rictor and by knocking out rictor or Sin1 but not by silencing raptor. TORKinib treatment and rictor knockdown did not alter Mcl-1 mRNA levels but rather decreased its protein stability. Moreover, TORKinib-induced Mcl-1 reduction was rescued by proteasome inhibition. Consistently, TORKinib increased Mcl-1 ubiquitination. Hence, it is clear that inhibition of mTORC2 enhances Mcl-1 degradation, resulting in Mcl-1 reduction. Suppression of glycogen synthase kinase 3 (GSK3) or FBXW7 rescued Mcl-1 reduction induced by TORKinibs or rictor knockdown. Thus, mTORC2 inhibition apparently induces Mcl-1 degradation through a GSK3-dependent and SCF-FBXW7-mediated mechanism. Intriguingly, we detected a direct association between mTORC2 and SCF-FBXW7; this association could be inhibited by TORKinib treatment, suggesting that mTORC2 may directly associate with and inhibit the SCF-FBXW7 complex, resulting in delayed Mcl-1 degradation. Collectively, our findings highlight a novel mechanism by which mTORC2 regulates cell survival and growth by stabilizing Mcl-1.

摘要

雷帕霉素靶蛋白复合物2（mTORC2）通过未知机制调节细胞存活和生长。髓细胞白血病-1（Mcl-1）是一种Bcl-2家族蛋白，具有致癌蛋白的功能。mTORC2与Mcl-1稳定性之间的联系尚未确立，因此是本研究的重点。mTOR激酶抑制剂（TORKinibs）可降低癌细胞中的Mcl-1水平，该抑制剂可同时抑制两种mTORC，敲低rictor、敲除rictor或Sin1也可降低Mcl-1水平，但沉默raptor则无此效果。TORKinib处理和rictor敲低并未改变Mcl-1的mRNA水平，而是降低了其蛋白质稳定性。此外，蛋白酶体抑制可挽救TORKinib诱导的Mcl-1减少。一致地，TORKinib增加了Mcl-1的泛素化。因此，很明显抑制mTORC2可增强Mcl-1的降解，导致Mcl-1减少。糖原合酶激酶3（GSK3）或FBXW7的抑制可挽救由TORKinibs或rictor敲低诱导的Mcl-1减少。因此，mTORC2抑制显然通过GSK3依赖和SCF-FBXW7介导的机制诱导Mcl-1降解。有趣的是，我们检测到mTORC2与SCF-FBXW7之间存在直接关联；这种关联可被TORKinib处理抑制，表明mTORC2可能直接与SCF-FBXW7复合物结合并抑制其活性，导致Mcl-1降解延迟。总的来说，我们的研究结果揭示了一种新的机制，即mTORC2通过稳定Mcl-1来调节细胞存活和生长。

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