The mTORC2 signaling network: targets and cross-talks.

IF 4.4 3区 生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY Biochemical Journal Pub Date : 2024-01-25 DOI:10.1042/BCJ20220325
Aparna Ragupathi, Christian Kim, Estela Jacinto
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引用次数: 0

Abstract

The mechanistic target of rapamycin, mTOR, controls cell metabolism in response to growth signals and stress stimuli. The cellular functions of mTOR are mediated by two distinct protein complexes, mTOR complex 1 (mTORC1) and mTORC2. Rapamycin and its analogs are currently used in the clinic to treat a variety of diseases and have been instrumental in delineating the functions of its direct target, mTORC1. Despite the lack of a specific mTORC2 inhibitor, genetic studies that disrupt mTORC2 expression unravel the functions of this more elusive mTOR complex. Like mTORC1 which responds to growth signals, mTORC2 is also activated by anabolic signals but is additionally triggered by stress. mTORC2 mediates signals from growth factor receptors and G-protein coupled receptors. How stress conditions such as nutrient limitation modulate mTORC2 activation to allow metabolic reprogramming and ensure cell survival remains poorly understood. A variety of downstream effectors of mTORC2 have been identified but the most well-characterized mTORC2 substrates include Akt, PKC, and SGK, which are members of the AGC protein kinase family. Here, we review how mTORC2 is regulated by cellular stimuli including how compartmentalization and modulation of complex components affect mTORC2 signaling. We elaborate on how phosphorylation of its substrates, particularly the AGC kinases, mediates its diverse functions in growth, proliferation, survival, and differentiation. We discuss other signaling and metabolic components that cross-talk with mTORC2 and the cellular output of these signals. Lastly, we consider how to more effectively target the mTORC2 pathway to treat diseases that have deregulated mTOR signaling.

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mTORC2 信号网络:目标和交叉联系。
雷帕霉素的机制靶标(mTOR)控制着细胞的新陈代谢,以应对生长信号和应激刺激。mTOR 的细胞功能由两个不同的蛋白复合物介导,即 mTOR 复合物 1(mTORC1)和 mTORC2。雷帕霉素及其类似物目前在临床上用于治疗多种疾病,并在阐明其直接靶标 mTORC1 的功能方面发挥了重要作用。尽管缺乏特异性的 mTORC2 抑制剂,但通过基因研究破坏 mTORC2 的表达,可以揭示这一更难以捉摸的 mTOR 复合物的功能。与 mTORC1 响应生长信号一样,mTORC2 也会被合成代谢信号激活,但也会被压力触发。人们对营养限制等应激条件如何调节 mTORC2 的激活以实现代谢重编程并确保细胞存活仍知之甚少。mTORC2的下游效应因子种类繁多,但表征最明确的mTORC2底物包括AGC蛋白激酶家族成员Akt、PKC和SGK。在此,我们回顾了 mTORC2 是如何受细胞刺激调控的,包括复杂成分的区隔和调节是如何影响 mTORC2 信号传导的。我们详细阐述了其底物(尤其是 AGC 激酶)的磷酸化如何介导其在生长、增殖、存活和分化中的各种功能。我们还讨论了与 mTORC2 交叉作用的其他信号和代谢成分,以及这些信号的细胞输出。最后,我们将探讨如何更有效地针对 mTORC2 通路治疗 mTOR 信号失调的疾病。
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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来源期刊
Biochemical Journal
Biochemical Journal 生物-生化与分子生物学
CiteScore
8.00
自引率
0.00%
发文量
255
审稿时长
1 months
期刊介绍: Exploring the molecular mechanisms that underpin key biological processes, the Biochemical Journal is a leading bioscience journal publishing high-impact scientific research papers and reviews on the latest advances and new mechanistic concepts in the fields of biochemistry, cellular biosciences and molecular biology. The Journal and its Editorial Board are committed to publishing work that provides a significant advance to current understanding or mechanistic insights; studies that go beyond observational work using in vitro and/or in vivo approaches are welcomed. Painless publishing: All papers undergo a rigorous peer review process; however, the Editorial Board is committed to ensuring that, if revisions are recommended, extra experiments not necessary to the paper will not be asked for. Areas covered in the journal include: Cell biology Chemical biology Energy processes Gene expression and regulation Mechanisms of disease Metabolism Molecular structure and function Plant biology Signalling
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