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核定位信号在热休克蛋白 70 抑制氧化应激所致 细胞核仁分离中的作用
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国家重点基础研究发展规划项目(973)(G2000056908)和国家自然科学基金资助项目(30300177,30270533).


Roles of Nuclear Localization Signal (NLS) in Inhibitory Effect of HSP70 on Nucleolar Segregation Induced by Oxidative Stress
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This work was supported by grants from The Special Funds for Major State Basic Research of China (G200056908) and The National Natural Sciences Fundation of China (30300177,30270533).

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    摘要:

    为探讨核定位信号在热休克蛋白 70 (HSP70) 抑制 H2O2 所致核仁损伤中的作用,采用分子克隆技术分别构建了 4 个真核表达载体, pcDNA3.1(-)-HSP70WT (HSP70 野生型), pcDNA3.1(-)-HSP70ΔNLS (核定位信号缺失突变体 ), pEGFP-N1-HSP70WT, pEGFP-N1- HSP70ΔNLS. 向传代培养的 C2C12肌源细胞培养液中加入终浓度为 1.0 mmol/L 的 H2O2 模拟体外氧化应激 . 甲苯胺蓝染色细胞核仁发现,正常细胞仅有一个位于中央的、浓染致密的核仁颗粒 . 过氧化氢处理后 3 h ,可见明显的核仁分离 . 热休克反应处理的细胞及转 pcDNA3.1( - )-HSP70WT 细胞则能明显抑制氧化应激所致的核仁分离 . 荧光蛋白示踪及核仁蛋白质免疫印迹分析显示, H2O2处理后 1 h , HSP70WT 由正常时的细胞浆定位转为细胞核及核仁定位,而 HSP70ΔNLS 在 H2O2处理后仍定位于细胞浆,同时丧失了抑制核仁分离的作用 . 上述结果提示,野生型 HSP70 能显著抑制氧化应激所致细胞核仁分离,核定位信号通过介导 HSP70 向细胞核及核仁移位而决定 HSP70 对核仁损伤的保护作用 .

    Abstract:

    To clarify the roles of nuclear localization signal (NLS) in inhibitory effect of HSP70 on H2O2-mediated nucleolar segregation, four eukaryotic vectors pcDNA3.1(-)-HSP70WT (wild type), pcDNA3.1(-)-HSP70ΔNLS (truncated mutant of HSP70 without NLS), pEGFP-N1-HSP70WT, and pEGFP-N1- HSP70ΔNLS were constructed respectively. To mimic oxidative stress in vitro, final concentration of 1.0 mmol/L hydrogen peroxide (H2O2) was added into cultured C2C12 myogenic cells. Toluidine blue staining showed predominantly compact, centrally localized nucleoli in intact control cells, but in H2O2-treated cells, an early onset of nucleolar segregation could be found after 3 h. The nucleolar segregation could be inhibited significantly in heat shock-pretreated cells and pcDNA3.1(-)-HSP70WT-transfected cells. Fluorescence microscopy and immunoblotting for nucleolar protein showed that HSP70WT was localized within cytoplasm in normal cells and redistributed to nucleus and nucleolus at 1 h after treatment with H2O2. NLS deletion mutation of HSP70 (pcDNA3.1(-)-HSP70ΔNLS) abolished H2O2-mediated translocation of HSP70 from cytoplasm to nucleus and nucleolus, and subsequently, its inhibitory effect on H2O2-mediated nucleolar impairment. It was suggested that wild type of HSP70 can attenuate significantly nucleolar segregation induced by oxidative stress. By mediating translocation of HSP70 from cytoplasm to nucleus and nucleolus, NLS played important role in the inhibitory effect of HSP70 against nucleolar impairment induced by oxidative stress.

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王慷慨,鄂顺梅,蒋 磊,张华莉,刘 可,张玲莉,肖献忠.核定位信号在热休克蛋白 70 抑制氧化应激所致 细胞核仁分离中的作用[J].生物化学与生物物理进展,2005,32(5):456-462

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