Devin A King, Dakota E McCoy, Adrian Perdyan, Jakub Mieczkowski, Thierry Douki, Jennifer A Dionne, Rafael E Herrera, Ashby J Morrison
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引用次数: 0
摘要
p53 肿瘤抑制因子是 DNA 损伤反应不可或缺的调节因子,一旦发生突变会加速癌变。在本报告中,我们发现了一种新的机制,通过这种机制,p53 可以在没有典型 DNA 损伤反应激活的情况下维持基因组的完整性。具体来说,p53 的缺失会显著改变核外围的染色质结构,从而增加环境致癌物质紫外线(UV)辐射向细胞核的传递。p53缺陷原代细胞中紫外线诱导的DNA病变的全基因组图谱显示,病变丰度增加与恶性黑色素瘤的高突变负荷区域相对应。这些发现揭示了 p53 在抑制导致癌症的突变方面的新作用,并强调了核结构在调节对致癌物质的敏感性方面的关键影响。
p53 Regulates Nuclear Architecture to Reduce Carcinogen Sensitivity and Mutagenic Potential
The p53 tumor suppressor is an indispensable regulator of DNA damage responses that accelerates carcinogenesis when mutated. In this report, we uncover a new mechanism by which p53 maintains genomic integrity in the absence of canonical DNA damage response activation. Specifically, loss of p53 dramatically alters chromatin structure at the nuclear periphery, allowing increased transmission of an environmental carcinogen, ultraviolet (UV) radiation, into the nucleus. Genome-wide mapping of UV-induced DNA lesions in p53-deficient primary cells reveals increased lesion abundance corresponding to regions of high mutation burden in malignant melanomas. These findings uncover a novel role of p53 in the suppression of mutations that contribute to cancer and highlight the critical influence of nuclear architecture in regulating sensitivity to carcinogens.
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