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过氧化氢通过激活转录和翻译途径调节骨桥蛋白的表达。

Hydrogen peroxide regulates osteopontin expression through activation of transcriptional and translational pathways.

机构信息

From the Division of Cardiology and.

出版信息

J Biol Chem. 2014 Jan 3;289(1):275-85. doi: 10.1074/jbc.M113.489641. Epub 2013 Nov 18.

DOI:10.1074/jbc.M113.489641
PMID:24247243
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3879550/
Abstract

Recent in vivo studies establish that osteopontin (OPN) expression is hydrogen peroxide (H2O2)-dependent. However, the mechanisms by which H2O2 increases OPN expression remain poorly defined. OPN protein expression increased in an unusual biphasic pattern in response to H2O2. To investigate whether these increases were mediated through transcriptional and/or translational regulation of OPN, smooth muscle cells stimulated with 50 μM H2O2 were used as an in vitro cell system. Early protein increases at 6 h were not preceded by increased mRNA, whereas later increases (18 h) were, suggesting multiple mechanisms of regulation by H2O2. Polyribosomal fractionation assays established that early increases (6 h) in OPN expression were due to increased translation. This increase in translation occurred through phosphorylation of 4E-BP1 at the reactive oxygen species-sensitive Ser-65, which allowed for release and activation of eukaryotic initiation factor eIF4E and subsequent OPN translation. This early increase (6 h) in OPN was blunted in cells expressing a phospho-deficient 4E-BP1 mutant. H2O2 stimulation increased rat OPN promoter activity at 8 and 18 h, and promoter truncation studies established that promoter region -2284 to -795 is crucial for H2O2-dependent OPN transcription. ChIP studies determined that H2O2-dependent transcription is mediated by the reactive oxygen species-sensitive transcription factors NF-κB and AP-1. In conclusion, H2O2 stimulates OPN expression in a unique biphasic pattern, where early increases are translational and late increases are transcriptional.

摘要

最近的体内研究证实,骨桥蛋白(OPN)的表达依赖于过氧化氢(H2O2)。然而,H2O2 增加 OPN 表达的机制仍未明确。OPN 蛋白的表达在对 H2O2 的反应中呈非典型的双相增加模式。为了研究这些增加是否是通过 OPN 的转录和/或翻译调控介导的,使用 50 μM H2O2 刺激的平滑肌细胞作为体外细胞系统。早期的蛋白质增加发生在 6 小时内,并没有伴随着 mRNA 的增加,而晚期的增加(18 小时)则表明 H2O2 有多种调节机制。多核糖体分级分离试验证实,OPN 表达的早期增加(6 小时)是由于翻译增加。这种翻译的增加是通过 4E-BP1 在活性氧敏感的 Ser-65 处的磷酸化来实现的,这允许真核起始因子 eIF4E 的释放和激活,以及随后的 OPN 翻译。这种早期的 OPN 增加(6 小时)在表达磷酸化缺陷的 4E-BP1 突变体的细胞中被削弱。H2O2 刺激在 8 小时和 18 小时增加了大鼠 OPN 启动子活性,启动子截断研究确立了启动子区域-2284 到-795 对于 H2O2 依赖性 OPN 转录是至关重要的。ChIP 研究确定,H2O2 依赖性转录是由活性氧敏感的转录因子 NF-κB 和 AP-1 介导的。总之,H2O2 以独特的双相模式刺激 OPN 的表达,其中早期的增加是翻译的,晚期的增加是转录的。

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