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诱导的磷脂酰肌醇-3-羟基激酶/哺乳动物雷帕霉素靶蛋白激活增加缺氧诱导因子-1α,以促进人胃细胞中细胞周期蛋白D1的丢失和G0/G1期细胞周期阻滞。

Induced Phosphatidylinositol-3-OH Kinase/mTOR Activation Increases Hypoxia Inducible Factor-1α to Promote Loss of Cyclin D1 and G0/G1 Cell Cycle Arrest in Human Gastric Cells.

作者信息

Canales Jimena, Valenzuela Manuel, Bravo Jimena, Cerda-Opazo Paulina, Jorquera Carla, Toledo Héctor, Bravo Denisse, Quest Andrew F G

机构信息

Laboratorio de Comunicaciones Celulares, Facultad De Medicina, Centro de Estudios Moleculares De la Célula, Centro de Estudios Avanzados en Enfermedades Crónicas, Programa De Biología Celular y Molecular, Instituto de Ciencias Biomédicas, Universidad de Chile Santiago, Chile.

Laboratorio de Comunicaciones Celulares, Facultad De Medicina, Centro de Estudios Moleculares De la Célula, Centro de Estudios Avanzados en Enfermedades Crónicas, Programa De Biología Celular y Molecular, Instituto de Ciencias Biomédicas, Universidad de ChileSantiago, Chile; Facultad de Ciencias de la Salud, Universidad Central de ChileSantiago, Chile.

出版信息

Front Cell Infect Microbiol. 2017 Mar 28;7:92. doi: 10.3389/fcimb.2017.00092. eCollection 2017.

DOI:10.3389/fcimb.2017.00092
PMID:28401064
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5368181/
Abstract

() is a human gastric pathogen that has been linked to the development of several gastric pathologies, such as gastritis, peptic ulcer, and gastric cancer. In the gastric epithelium, the bacterium modifies many signaling pathways, resulting in contradictory responses that favor both proliferation and apoptosis. Consistent with such observations, activates routes associated with cell cycle progression and cell cycle arrest. infection also induces the hypoxia-induced factor HIF-1α, a transcription factor known to promote expression of genes that permit metabolic adaptation to the hypoxic environment in tumors and angiogenesis. Recently, however, also roles for HIF-1α in the repair of damaged DNA and inhibition of gene expression were described. Here, we investigated signaling pathways induced by in gastric cells that favor HIF-1α expression and the consequences thereof in infected cells. Our results revealed that promoted PI3K/mTOR-dependent HIF-1α induction, HIF-1α translocation to the nucleus, and activity as a transcription factor as evidenced using a reporter assay. Surprisingly, however, transcription of known HIF-1α effector genes evaluated by qPCR analysis, revealed either no change (LDHA and GAPDH), statistically insignificant increases SLC2A1 (GLUT-1) or greatly enhance transcription (VEGFA), but in an HIF-1α-independent manner, as quantified by PCR analysis in cells with shRNA-mediated silencing of HIF-1α. Instead, HIF-1α knockdown facilitated G1/S progression and increased Cyclin D1 protein half-life, via a post-translational pathway. Taken together, these findings link -induced PI3K-mTOR activation to HIF-1α induced G0/G1 cell cycle arrest by a Cyclin D1-dependent mechanism. Thus, HIF-1α is identified here as a mediator between survival and cell cycle arrest signaling activated by infection.

摘要

()是一种人类胃部病原体,与多种胃部疾病的发生有关,如胃炎、消化性溃疡和胃癌。在胃上皮细胞中,这种细菌会改变许多信号通路,导致有利于增殖和凋亡的矛盾反应。与这些观察结果一致,()激活了与细胞周期进程和细胞周期停滞相关的途径。()感染还会诱导缺氧诱导因子HIF-1α,这是一种转录因子,已知可促进允许肿瘤代谢适应缺氧环境和血管生成的基因的表达。然而,最近也描述了HIF-1α在受损DNA修复和基因表达抑制中的作用。在这里,我们研究了()在胃细胞中诱导的有利于HIF-1α表达的信号通路及其在感染细胞中的后果。我们的结果表明,()促进了PI3K/mTOR依赖性HIF-1α的诱导、HIF-1α向细胞核的转位以及作为转录因子的活性,这通过报告基因检测得到了证实。然而,令人惊讶的是,通过qPCR分析评估的已知HIF-1α效应基因的转录,显示没有变化(LDHA和GAPDH),SLC2A1(GLUT-1)有统计学上不显著的增加,或者转录大大增强(VEGFA),但以HIF-1α非依赖性方式,这通过在具有shRNA介导的HIF-1α沉默的细胞中的PCR分析进行了定量。相反,HIF-1α敲低通过翻译后途径促进了G1/S进程并增加了细胞周期蛋白D1的蛋白质半衰期。综上所述,这些发现将()诱导的PI3K-mTOR激活与通过细胞周期蛋白D1依赖性机制诱导的HIF-1α G0/G1细胞周期停滞联系起来。因此,在这里HIF-1α被确定为()感染激活的生存和细胞周期停滞信号之间的介质。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/b6e507f4a42d/fcimb-07-00092-g0009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/3947a1b648ff/fcimb-07-00092-g0001.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/5dceec79f50f/fcimb-07-00092-g0003.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/ea3778d745d8/fcimb-07-00092-g0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/6b249602259b/fcimb-07-00092-g0006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/0abdb528cec4/fcimb-07-00092-g0007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/b6e507f4a42d/fcimb-07-00092-g0009.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/3947a1b648ff/fcimb-07-00092-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/3980e0097e72/fcimb-07-00092-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/5dceec79f50f/fcimb-07-00092-g0003.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/a752feef66a3/fcimb-07-00092-g0004.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/ea3778d745d8/fcimb-07-00092-g0005.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/6b249602259b/fcimb-07-00092-g0006.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/0abdb528cec4/fcimb-07-00092-g0007.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/cf28c8d40726/fcimb-07-00092-g0008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9e8c/5368181/b6e507f4a42d/fcimb-07-00092-g0009.jpg

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