HeLa细胞的定量蛋白质组学显示,缺氧强烈影响线粒体核糖体蛋白和转座酶。

International journal of proteomics Pub Date : 2015-01-01 Epub Date: 2015-09-02 DOI:10.1155/2015/678527
Paula A Bousquet, Joe Alexander Sandvik, Magnus Ø Arntzen, Nina F Jeppesen Edin, Stine Christoffersen, Ute Krengel, Erik O Pettersen, Bernd Thiede
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引用次数: 23

摘要

缺氧是许多人类肿瘤的一个重要而共同的特征。由于与预后差和放化疗耐药相关,是临床的一个挑战。了解缺氧的生化反应将促进癌症治疗新疗法的发展。在这里,我们通过使用细胞培养氨基酸稳定同位素标记(SILAC)结合LCMS/MS进行定量蛋白质组分析,研究了基因表达对缺氧反应的改变。人类HeLa细胞分别保存在缺氧环境和常氧条件下。共发现125个蛋白受到调控,最大变化幅度达18倍。特别地,鉴定了三组差异调节蛋白,显示糖酵解显著上调,线粒体核糖体蛋白和转座酶显著下调。这种相互作用可能是由HIF-1精心策划的。我们还研究了缺氧对细胞周期的影响,在这些条件下,细胞周期在G1期积累,S期延长。的影响。这项工作不仅提高了我们对缺氧反应的理解,而且揭示了恶性进展的重要蛋白质,这可能是未来治疗的目标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Hypoxia Strongly Affects Mitochondrial Ribosomal Proteins and Translocases, as Shown by Quantitative Proteomics of HeLa Cells.

Hypoxia Strongly Affects Mitochondrial Ribosomal Proteins and Translocases, as Shown by Quantitative Proteomics of HeLa Cells.

Hypoxia Strongly Affects Mitochondrial Ribosomal Proteins and Translocases, as Shown by Quantitative Proteomics of HeLa Cells.

Hypoxia Strongly Affects Mitochondrial Ribosomal Proteins and Translocases, as Shown by Quantitative Proteomics of HeLa Cells.

Hypoxia is an important and common characteristic of many human tumors. It is a challenge clinically due to the correlation with poor prognosis and resistance to radiation and chemotherapy. Understanding the biochemical response to hypoxia would facilitate the development of novel therapeutics for cancer treatment. Here, we investigate alterations in gene expression in response to hypoxia by quantitative proteome analysis using stable isotope labeling with amino acids in cell culture (SILAC) in conjunction with LCMS/MS. Human HeLa cells were kept either in a hypoxic environment or under normoxic conditions. 125 proteins were found to be regulated, with maximum alteration of 18-fold. In particular, three clusters of differentially regulated proteins were identified, showing significant upregulation of glycolysis and downregulation of mitochondrial ribosomal proteins and translocases. This interaction is likely orchestrated by HIF-1. We also investigated the effect of hypoxia on the cell cycle, which shows accumulation in G1 and a prolonged S phase under these conditions. Implications. This work not only improves our understanding of the response to hypoxia, but also reveals proteins important for malignant progression, which may be targeted in future therapies.

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