A multiprotein signaling complex sustains AKT and mTOR/S6K activity necessary for the survival of cancer cells undergoing stress.

Oriana Y Teran Pumar, Matthew R Zanotelli, Miao-Chong Joy Lin, Rebecca R Schmitt, Kai Su Green, Katherine S Rojas, Irene Y Hwang, Richard A Cerione, Kristin F Wilson
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Abstract

The ability of cancer cells to survive microenvironmental stresses is critical for tumor progression and metastasis; however, how they survive these challenges is not fully understood. Here, we describe a novel multiprotein complex (DockTOR) essential for the survival of cancer cells under stress, triggered by the GTPase Cdc42 and a signaling partner Dock7, which includes AKT, mTOR, and the mTOR regulators TSC1, TSC2, and Rheb. DockTOR enables cancer cells to maintain a low but critical mTORC2-dependent phosphorylation of AKT during serum deprivation by preventing AKT dephosphorylation through an interaction between phospho-AKT and the Dock7 DHR1 domain. This activity stimulates a Raptor-independent but Rapamycin-sensitive mTOR/S6K activity necessary for survival. These findings address long-standing questions of how Cdc42 signals result in mTOR activation and demonstrate how cancer cells survive conditions when growth factor-dependent activation of mTORC1 is off. Determining how cancer cells survive stress conditions could identify vulnerabilities that lead to new therapeutic strategies.

Abstract Image

Abstract Image

Abstract Image

Dock7调节癌症细胞转化表型和存活所需的AKT和mTOR/S6K活性。
癌症细胞,无论是在发展中的肿瘤内还是在转移扩散过程中,都会遇到许多压力,需要适应机制才能生存和维持恶性进展。在这里,我们描述了一种涉及小GTP酶Cdc42和Dock7的信号复合物,一种Cdc42/Rac GEF和独特的Cdc42效应物,它在血清饥饿期间调节AKT、mTOR和其他mTOR信号和调节伙伴(包括TSC1/TCS2复合物和S6K)中具有以前未被重视的作用。Dock7在三阴性乳腺癌中高度表达,对于几种癌症细胞系在营养缺乏的生长条件下的恶性特性至关重要。我们发现Dock7与磷酸化AKT相互作用,以维持在营养胁迫期间生存所需的雷帕霉素敏感性和猛禽非依赖性mTORC1样活性的低但关键的激活。从癌症细胞敲除Dock7后,AKT和磷酸酶PHLPP之间的相互作用增加,而AKT在Ser473的磷酸化减少,这表明Dock7保护AKT免受去磷酸化。Dock7的DHR1结构域以前功能未知,通过需要其C2样基序的相互作用,负责在血清饥饿期间维持AKT Ser473磷酸化。总之,这些发现表明,Dock7保护并维持AKT的磷酸化,以维持癌症细胞中对失巢细胞的抵抗所必需的紧张性mTOR/S6K活性,并防止它们在应激条件下发生凋亡。
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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