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本文引用的文献

1
TGF-beta signalling is regulated by Schnurri-2-dependent nuclear translocation of CLIC4 and consequent stabilization of phospho-Smad2 and 3.转化生长因子-β信号传导由CLIC4依赖Schnurri-2的核转位以及随后磷酸化的Smad2和Smad3的稳定所调节。
Nat Cell Biol. 2009 Jun;11(6):777-84. doi: 10.1038/ncb1885. Epub 2009 May 17.
2
Chloride intracellular channel 4 is involved in endothelial proliferation and morphogenesis in vitro.氯离子细胞内通道 4 参与体外血管内皮细胞的增殖和形态发生。
Angiogenesis. 2009;12(3):209-20. doi: 10.1007/s10456-009-9139-3. Epub 2009 Feb 27.
3
Chloride intracellular channel protein-4 functions in angiogenesis by supporting acidification of vacuoles along the intracellular tubulogenic pathway.氯离子细胞内通道蛋白4通过支持沿细胞内管状发生途径的液泡酸化在血管生成中发挥作用。
Am J Pathol. 2009 Mar;174(3):1084-96. doi: 10.2353/ajpath.2009.080625. Epub 2009 Feb 5.
4
Plant immunity requires conformational changes [corrected] of NPR1 via S-nitrosylation and thioredoxins.植物免疫需要通过S-亚硝基化和硫氧还蛋白使NPR1发生构象变化[已修正]。
Science. 2008 Aug 15;321(5891):952-6. doi: 10.1126/science.1156970. Epub 2008 Jul 17.
5
Regulated protein denitrosylation by cytosolic and mitochondrial thioredoxins.由胞质和线粒体硫氧还蛋白调控的蛋白质去亚硝基化作用
Science. 2008 May 23;320(5879):1050-4. doi: 10.1126/science.1158265.
6
Isolation and short-term culture of primary keratinocytes, hair follicle populations and dermal cells from newborn mice and keratinocytes from adult mice for in vitro analysis and for grafting to immunodeficient mice.从新生小鼠中分离并短期培养原代角质形成细胞、毛囊细胞群和真皮细胞,以及从成年小鼠中分离角质形成细胞,用于体外分析和移植到免疫缺陷小鼠体内。
Nat Protoc. 2008;3(5):799-810. doi: 10.1038/nprot.2008.50.
7
Determination of glutathione, glutathione reductase, glutathione peroxidase and glutathione S-transferase levels in human lung cancer tissues.人肺癌组织中谷胱甘肽、谷胱甘肽还原酶、谷胱甘肽过氧化物酶和谷胱甘肽S-转移酶水平的测定
Cancer Lett. 1997 Oct 28;119(1):13-9. doi: 10.1016/s0304-3835(97)00245-0.
8
Pro-oxidant effect of transforming growth factor- beta1 mediates contractile dysfunction in rat ventricular myocytes.转化生长因子-β1的促氧化作用介导大鼠心室肌细胞的收缩功能障碍。
Cardiovasc Res. 2008 Jan;77(1):107-17. doi: 10.1093/cvr/cvm022. Epub 2007 Sep 19.
9
CLIC4 mediates and is required for Ca2+-induced keratinocyte differentiation.CLIC4介导钙离子诱导的角质形成细胞分化,且该过程需要CLIC4的参与。
J Cell Sci. 2007 Aug 1;120(Pt 15):2631-40. doi: 10.1242/jcs.002741. Epub 2007 Jul 17.
10
S-nitrosylation-induced conformational change in blackfin tuna myoglobin.S-亚硝基化诱导黑鳍金枪鱼肌红蛋白的构象变化。
J Biol Chem. 2007 Jul 6;282(27):19773-80. doi: 10.1074/jbc.M701363200. Epub 2007 May 8.

S-亚硝基化调节氯离子细胞内通道蛋白 CLIC4 的核转位。

S-nitrosylation regulates nuclear translocation of chloride intracellular channel protein CLIC4.

机构信息

Laboratory of Cancer Biology and Genetics, Center for Cancer Research, NCI, National Institutes of Health, Bethesda, MD 20892, USA.

出版信息

J Biol Chem. 2010 Jul 30;285(31):23818-28. doi: 10.1074/jbc.M109.091611. Epub 2010 May 26.

DOI:10.1074/jbc.M109.091611
PMID:20504765
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2911286/
Abstract

Nuclear translocation of chloride intracellular channel protein CLIC4 is essential for its role in Ca(2+)-induced differentiation, stress-induced apoptosis, and modulating TGF-beta signaling in mouse epidermal keratinocytes. However, post-translational modifications on CLIC4 that govern nuclear translocation and thus these activities remain to be elucidated. The structure of CLIC4 is dependent on the redox environment, in vitro, and translocation may depend on reactive oxygen and nitrogen species in the cell. Here we show that NO directly induces nuclear translocation of CLIC4 that is independent of the NO-cGMP pathway. Indeed, CLIC4 is directly modified by NO through S-nitrosylation of a cysteine residue, as measured by the biotin switch assay. NO enhances association of CLIC4 with the nuclear import proteins importin alpha and Ran. This is likely a result of the conformational change induced by S-nitrosylated CLIC4 that leads to unfolding of the protein, as exhibited by CD spectra analysis and trypsinolysis of the modified protein. Cysteine mutants of CLIC4 exhibit altered nitrosylation, nuclear residence, and stability, compared with the wild type protein likely as a consequence of altered tertiary structure. Moreover, tumor necrosis factor alpha-induced nuclear translocation of CLIC4 is dependent on nitric-oxide synthase activity. Inhibition of nitric-oxide synthase activity inhibits tumor necrosis factor alpha-induced nitrosylation and association with importin alpha and Ran and ablates CLIC4 nuclear translocation. These results suggest that S-nitrosylation governs CLIC4 structure, its association with protein partners, and thus its intracellular distribution.

摘要

氯离子通道蛋白 4(CLIC4)的核转位对于其在 Ca(2+)诱导的分化、应激诱导的细胞凋亡以及调节小鼠表皮角质形成细胞中的 TGF-β信号中的作用至关重要。然而,调节核转位和这些活性的 CLIC4 的翻译后修饰仍有待阐明。CLIC4 的结构取决于氧化还原环境,体外,转位可能依赖于细胞中的活性氧和活性氮物质。在这里,我们表明,NO 直接诱导 CLIC4 的核转位,这与 NO-cGMP 途径无关。事实上,CLIC4 通过 NO 对一个半胱氨酸残基的 S-亚硝基化直接被修饰,如通过生物素转移测定测量。NO 增强 CLIC4 与核输入蛋白 importin alpha 和 Ran 的结合。这可能是由于 S-亚硝基化的 CLIC4 诱导的构象变化导致蛋白质展开的结果,如 CD 光谱分析和修饰蛋白的胰蛋白酶水解所表现的那样。与野生型蛋白相比,CLIC4 的半胱氨酸突变体表现出改变的亚硝基化、核居留和稳定性,这可能是由于三级结构改变的结果。此外,肿瘤坏死因子-α诱导的 CLIC4 核转位依赖于一氧化氮合酶活性。一氧化氮合酶活性的抑制抑制肿瘤坏死因子-α诱导的亚硝基化和与 importin alpha 和 Ran 的结合,并使 CLIC4 核转位失活。这些结果表明,S-亚硝基化调节 CLIC4 的结构、与蛋白伴侣的结合,从而调节其细胞内分布。