Huang Bin, Chen Shih Chung, Wang Danny Ling
Cardiovascular Division, Institute of Biomedical Sciences, Academia Sinica, 128 sec. 2 Academia Rd. NanKang, Taipei 11529, Taiwan.
Cardiovasc Res. 2009 Aug 1;83(3):536-46. doi: 10.1093/cvr/cvp154. Epub 2009 May 15.
Endothelial cells (ECs) constantly exposed to shear flow increase nitric oxide production via the activation of endothelial nitric oxide synthase. Nitric oxide-mediated S-nitrosylation has recently been identified as an important post-translational modification that may alter signalling and/or protein function. S-nitrosylation of endothelial proteins after shear flow treatment has not been fully explored. In this study, the CyDye switch method was utilized to examine S-nitrosylated proteins in ECs after exposure to shear flow.
Human umbilical vein ECs were subjected to shear flow for 30 min, and S-nitrosylated proteins were detected by the CyDye switch method. In principle, free thiols in proteins become blocked by alkylation, the S-nitrosylated bond is reduced by ascorbate, and then CyDye labels proteins. Proteins that separately labelled with Cy3 or Cy5 were mixed and subjected to two-dimensional gel electrophoresis for further analysis. More than 100 S-nitrosoproteins were detected in static and shear-treated ECs. Among these, 12 major proteins of heterogeneous function showed a significant increase in S-nitrosylation following shear flow. The S-nitrosylated residues in tropomyosin and vimentin, which were localized in the hydrophobic motif of each protein, were identified as Cys170 and Cys328, respectively.
Post-translational S-nitrosylation of proteins in ECs can be detected by a reliable CyDye switch method. This flow-induced S-nitrosylation of endothelial proteins may be essential for the adaptation and remodelling of ECs under flow conditions.
持续暴露于剪切流的内皮细胞(ECs)通过激活内皮型一氧化氮合酶增加一氧化氮的生成。一氧化氮介导的S-亚硝基化最近被确定为一种重要的翻译后修饰,可能会改变信号传导和/或蛋白质功能。剪切流处理后内皮蛋白的S-亚硝基化尚未得到充分研究。在本研究中,利用CyDye转换法检测暴露于剪切流后的ECs中的S-亚硝基化蛋白。
将人脐静脉内皮细胞置于剪切流中30分钟,采用CyDye转换法检测S-亚硝基化蛋白。原则上,蛋白质中的游离巯基通过烷基化被封闭,S-亚硝基化键被抗坏血酸还原,然后CyDye标记蛋白质。分别用Cy3或Cy5标记的蛋白质混合后进行二维凝胶电泳进一步分析。在静态和剪切处理的内皮细胞中检测到100多种S-亚硝基化蛋白。其中,12种功能各异的主要蛋白在剪切流后S-亚硝基化显著增加。原肌球蛋白和波形蛋白中的S-亚硝基化残基分别位于每种蛋白质的疏水基序中,被鉴定为Cys170和Cys328。
可通过可靠的CyDye转换法检测内皮细胞中蛋白质的翻译后S-亚硝基化。这种流动诱导的内皮蛋白S-亚硝基化可能对流动条件下内皮细胞的适应和重塑至关重要。
