Axolotl epigenetic clocks offer insights into the nature of negligible senescence

bioRxiv - Developmental Biology Pub Date : 2024-09-10 DOI:10.1101/2024.09.09.611397

Yuliia Haluza, Joseph A Zoller, Ake T Lu, Hannah E Walters, Martina Lachnit, Robert Lowe, Amin Haghani, Robert T Brooke, Naomi Park, Maximina H Yun, Steve Horvath

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Abstract

Renowned for their regenerative abilities, axolotls also exhibit exceptional longevity, resistance to age-related diseases and apparent lack of physiological declines through lifespan, and have thus been considered organisms of negligible senescence. Whether axolotls display epigenetic hallmarks of ageing remains unknown. Here, we probe the axolotl DNA methylome throughout lifespan and present its first epigenetic clocks. Both at tissue-specific or pan-tissue levels, the clocks are biphasic, capable of predicting age during early life but not for the rest of its lifespan. We show that axolotls exhibit evolutionarily conserved features of epigenetic ageing during early life, yet their methylome is remarkably stable across lifespan, including at Polycomb Repressive Complex 2 (PRC2) target sites, suggesting that this species deviates from known patterns of epigenetic ageing. Lastly, we uncover structure-specific rejuvenation events upon regeneration. This study provides molecular insights into negligible senescence and furthers our understanding of the interplay between regeneration and ageing.

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轴叶虫表观遗传时钟揭示了可忽略衰老的本质

斧头鱼以其再生能力而闻名，同时还表现出超常的寿命、对与衰老有关的疾病的抵抗力以及在整个生命周期中明显的生理衰退，因此被认为是衰老可忽略不计的生物。轴头蜥是否显示出衰老的表观遗传学特征仍是未知数。在这里，我们探究了轴头蜥整个生命周期的DNA甲基组，并首次展示了其表观遗传时钟。在组织特异性或泛组织水平上，时钟都是双相的，能够预测生命早期的年龄，但不能预测生命期的其余时间。我们的研究表明，轴头蜥在生命早期表现出表观遗传老化的进化保守特征，但其甲基组在整个生命期却非常稳定，包括在多聚胞抑制复合体2（PRC2）的靶位点，这表明该物种偏离了已知的表观遗传老化模式。最后，我们发现了再生时结构特异性的返老还童事件。这项研究从分子角度揭示了可忽略不计的衰老，加深了我们对再生与衰老之间相互作用的理解。

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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bioRxiv - Developmental Biology

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