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腺瘤性结肠息肉病(Apc)中的致癌突变可激活小鼠和斑马鱼中的雷帕霉素机制性靶标复合物1(mTORC1)。

Oncogenic mutations in adenomatous polyposis coli (Apc) activate mechanistic target of rapamycin complex 1 (mTORC1) in mice and zebrafish.

作者信息

Valvezan Alexander J, Huang Jian, Lengner Christopher J, Pack Michael, Klein Peter S

机构信息

Cell and Molecular Biology Graduate Group, Perelman School of Medicine at the University of Pennsylvania, Philadelphia, PA, USA.

出版信息

Dis Model Mech. 2014 Jan;7(1):63-71. doi: 10.1242/dmm.012625. Epub 2013 Oct 2.

DOI:10.1242/dmm.012625
PMID:24092877
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3882049/
Abstract

Truncating mutations in adenomatous polyposis coli (APC) are strongly linked to colorectal cancers. APC is a negative regulator of the Wnt pathway and constitutive Wnt activation mediated by enhanced Wnt-β-catenin target gene activation is believed to be the predominant mechanism responsible for APC mutant phenotypes. However, recent evidence suggests that additional downstream effectors contribute to APC mutant phenotypes. We previously identified a mechanism in cultured human cells by which APC, acting through glycogen synthase kinase-3 (GSK-3), suppresses mTORC1, a nutrient sensor that regulates cell growth and proliferation. We hypothesized that truncating Apc mutations should activate mTORC1 in vivo and that mTORC1 plays an important role in Apc mutant phenotypes. We find that mTORC1 is strongly activated in apc mutant zebrafish and in intestinal polyps in Apc mutant mice. Furthermore, mTORC1 activation is essential downstream of APC as mTORC1 inhibition partially rescues Apc mutant phenotypes including early lethality, reduced circulation and liver hyperplasia. Importantly, combining mTORC1 and Wnt inhibition rescues defects in morphogenesis of the anterior-posterior axis that are not rescued by inhibition of either pathway alone. These data establish mTORC1 as a crucial, β-catenin independent effector of oncogenic Apc mutations and highlight the importance of mTORC1 regulation by APC during embryonic development. Our findings also suggest a new model of colorectal cancer pathogenesis in which mTORC1 is activated in parallel with Wnt/β-catenin signaling.

摘要

腺瘤性结肠息肉病(APC)的截短突变与结直肠癌密切相关。APC是Wnt信号通路的负调节因子,由增强的Wnt-β-连环蛋白靶基因激活介导的组成性Wnt激活被认为是导致APC突变表型的主要机制。然而,最近的证据表明,其他下游效应器也参与了APC突变表型的形成。我们之前在培养的人类细胞中发现了一种机制,即APC通过糖原合酶激酶-3(GSK-3)作用,抑制mTORC1,mTORC1是一种调节细胞生长和增殖的营养传感器。我们假设,截短的Apc突变在体内应激活mTORC1,且mTORC1在Apc突变表型中起重要作用。我们发现,mTORC1在apc突变斑马鱼和Apc突变小鼠的肠道息肉中被强烈激活。此外,mTORC1激活在APC下游至关重要,因为抑制mTORC1可部分挽救Apc突变表型,包括早期致死率、循环减少和肝脏增生。重要的是,联合抑制mTORC1和Wnt可挽救前后轴形态发生缺陷,而单独抑制任何一条通路均无法挽救该缺陷。这些数据表明mTORC1是致癌Apc突变的关键、β-连环蛋白非依赖性效应器,并突出了APC在胚胎发育过程中对mTORC1调节的重要性。我们的研究结果还提出了一种新的结直肠癌发病机制模型,其中mTORC1与Wnt/β-连环蛋白信号通路同时被激活。

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The adenomatous polyposis coli protein contributes to normal compaction of mitotic chromatin.腺瘤性结肠息肉蛋白有助于有丝分裂染色质的正常紧缩。
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