在LEC突变大鼠的生长刺激下,铜细胞毒性损害DNA合成,但不损害蛋白质磷酸化。

J K Kim, T Yamada, K Matsumoto
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引用次数: 0

摘要

长-埃文斯肉桂(Long-Evans Cinnamon, LEC)突变大鼠具有肝细胞铜排斥通路阻断的遗传缺陷,是研究细胞铜毒性机制的良好模型。我们通过用EGF和胰岛素治疗LEC大鼠原代培养肝细胞,研究了铜毒性对DNA合成和蛋白质磷酸化的影响。与正常大鼠相比,LEC大鼠dna合成s期细胞比例明显降低。然而,LEC大鼠32p标记核蛋白的电泳模式和信号强度与正常大鼠没有明显区别。这些结果表明,在生长刺激下启动DNA合成所需的蛋白质磷酸化以外的细胞事件受到铜细胞毒性的损害。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Copper cytotoxicity impairs DNA synthesis but not protein phosphorylation upon growth stimulation in LEC mutant rat.

Long-Evans Cinnamon (LEC) mutant rat, which possesses a genetic defect of the block of copper exclusion pathway in the hepatocytes, is a good model for studying the mechanism of cellular copper toxicity. We have examined effects of copper toxicity on DNA synthesis and protein phosphorylation upon growth stimulation by treating LEC rat primary-cultured hepatocytes with EGF and insulin. The proportion of DNA-synthesizing S-phase cells in LEC rat markedly decreased when compared to that of normal rat. However, the electrophoretic pattern and the signal intensity of 32P-labeled nuclear proteins in LEC rat were indistinguishable from those of normal rat. These results suggest that a cellular event other than protein phosphorylation required for the initiation of DNA synthesis upon growth stimulation is impaired by copper cytotoxicity.

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