TSC2活性的正负调控及其对mTOR通路下游效应器的影响。

Positive and negative regulation of TSC2 activity and its effects on downstream effectors of the mTOR pathway.

作者信息

Jozwiak Jaroslaw, Jozwiak Sergiusz, Grzela Tomasz, Lazarczyk Maciej

机构信息

Department of Histology and Embryology, Center for Biostructure Research, Medical University of Warsaw, 02-004 Warsaw, ul. Chalubinskiego 5, Poland.

出版信息

Neuromolecular Med. 2005;7(4):287-96. doi: 10.1385/NMM:7:4:287.

DOI:10.1385/NMM:7:4:287

PMID:16391386

Abstract

Tuberous sclerosis is an autosomal-dominant disorder caused by the mutation of one of the two tumor suppressor genes: TSC1 or TSC2, encoding protein products, hamartin, and tuberin, respectively. Both proteins form intracellular complexes exerting inhibitory activity on mammalian target of rapamycin (mTOR) kinase. It has been demonstrated that signal transduction from tuberin to mTOR is mediated by a G protein, Ras homologue enriched in brain (Rheb). In normal cells, tuberin having GTPase-activating protein properties toward Rheb controls signals of nutrient depletion, hypoxia, or stress, not allowing activation of mTOR and subsequent protein translation and cell proliferation. However, when environmental conditions change, tuberin is phosphorylated and it forms a complex with hamartin is degraded, and downstream targets of mTOR, S6K, and eEF2K, can be activated. In this review, we summarize very recent information contributing to our knowledge of TSC2 regulation by four cellular signaling pathways: PI3K/Akt, Ras/MAPK, LKB1/AMPK, and REDD1.

摘要

结节性硬化症是一种常染色体显性疾病，由两个肿瘤抑制基因TSC1或TSC2之一发生突变引起，这两个基因分别编码蛋白产物错构瘤蛋白和结节蛋白。这两种蛋白均形成细胞内复合物，对雷帕霉素哺乳动物靶点（mTOR）激酶发挥抑制活性。业已证明，从结节蛋白到mTOR的信号转导由一种G蛋白——富含脑的Ras同源物（Rheb）介导。在正常细胞中，对Rheb具有GTP酶激活蛋白特性的结节蛋白控制营养物质耗竭、缺氧或应激信号，不允许mTOR激活以及随后的蛋白质翻译和细胞增殖。然而，当环境条件改变时，结节蛋白被磷酸化，它与错构瘤蛋白形成的复合物被降解，mTOR的下游靶点S6K和eEF2K可被激活。在本综述中，我们总结了近期通过四种细胞信号通路（PI3K/Akt、Ras/MAPK、LKB1/AMPK和REDD1）对TSC2调控的认识所做出的贡献。

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TSC2活性的正负调控及其对mTOR通路下游效应器的影响。

Positive and negative regulation of TSC2 activity and its effects on downstream effectors of the mTOR pathway.

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