DNA repair and anti-cancer mechanisms in the long-lived bowhead whale.

Denis Firsanov, Max Zacher, Xiao Tian, Todd L Sformo, Yang Zhao, Greg Tombline, J Yuyang Lu, Zhizhong Zheng, Luigi Perelli, Enrico Gurreri, Li Zhang, Jing Guo, Anatoly Korotkov, Valentin Volobaev, Seyed Ali Biashad, Zhihui Zhang, Johanna Heid, Alex Maslov, Shixiang Sun, Zhuoer Wu, Jonathan Gigas, Eric Hillpot, John Martinez, Minseon Lee, Alyssa Williams, Abbey Gilman, Nicholas Hamilton, Ena Haseljic, Avnee Patel, Maggie Straight, Nalani Miller, Julia Ablaeva, Lok Ming Tam, Chloé Couderc, Michael Hoopman, Robert Moritz, Shingo Fujii, Dan J Hayman, Hongrui Liu, Yuxuan Cai, Anthony K L Leung, Mirre J P Simons, Zhengdong Zhang, C Bradley Nelson, Lisa M Abegglen, Joshua D Schiffman, Vadim N Gladyshev, Mauro Modesti, Giannicola Genovese, Jan Vijg, Andrei Seluanov, Vera Gorbunova
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Abstract

At over 200 years, the maximum lifespan of the bowhead whale exceeds that of all other mammals. The bowhead is also the second-largest animal on Earth, reaching over 80,000 kg 1 . Despite its very large number of cells and long lifespan, the bowhead is not highly cancer-prone, an incongruity termed Peto's Paradox 2 . This phenomenon has been explained by the evolution of additional tumor suppressor genes in other larger animals, supported by research on elephants demonstrating expansion of the p53 gene 3-5 . Here we show that bowhead whale fibroblasts undergo oncogenic transformation after disruption of fewer tumor suppressors than required for human fibroblasts. However, analysis of DNA repair revealed that bowhead cells repair double strand breaks (DSBs) and mismatches with uniquely high efficiency and accuracy compared to other mammals. The protein CIRBP, implicated in protection from genotoxic stress, was present in very high abundance in the bowhead whale relative to other mammals. We show that CIRBP and its downstream protein RPA2, also present at high levels in bowhead cells, increase the efficiency and fidelity of DNA repair in human cells. These results indicate that rather than possessing additional tumor suppressor genes as barriers to oncogenesis, the bowhead whale relies on more accurate and efficient DNA repair to preserve genome integrity. This strategy which does not eliminate damaged cells but repairs them may be critical for the long and cancer-free lifespan of the bowhead whale.

长寿弓头鲸的 DNA 修复和抗癌机制。
弓头鲸的最长寿命超过 200 年,超过了所有其他哺乳动物。弓头鲸也是地球上第二大动物,体重超过 8 万公斤1 。尽管弓头鲸的细胞数量非常多,寿命也很长,但它并不容易患癌症,这被称为 "佩托悖论"(Peto's Paradox)2 。这种现象的原因是其他大型动物进化出了更多的肿瘤抑制基因,对大象的研究也证明了 p53 基因的扩增 3-5 。在这里,我们发现弓头鲸的成纤维细胞在破坏了比人类成纤维细胞所需的更少的肿瘤抑制基因后发生了致癌转化。然而,对 DNA 修复的分析表明,与其他哺乳动物相比,弓头鲸细胞修复双链断裂(DSB)和错配的效率和准确性都很高。与其他哺乳动物相比,弓头鲸体内的蛋白质 CIRBP 的丰度非常高,而 CIRBP 与保护基因免受基因毒性应激有关。我们的研究表明,CIRBP 及其下游蛋白 RPA2(也在弓头鲸细胞中大量存在)提高了人类细胞 DNA 修复的效率和保真度。这些结果表明,与其说弓头鲸拥有额外的肿瘤抑制基因作为肿瘤发生的屏障,不如说它依靠更准确、更高效的 DNA 修复来保持基因组的完整性。这种不消除受损细胞,而是修复它们的策略,可能是弓头鲸寿命长、不患癌症的关键所在。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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