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A cGAS-mediated mechanism in naked mole-rats potentiates DNA repair and delays aging

Yu Chen, Zhixi Chen, Hao Wang, Zhen Cui, Kaile Li, Zhiwei Song, Lingjiang Chen, Xiaoxiang Sun, Xiaoyu Xu, Yisu Zhang, Li Tan, Jian Yuan, Rong Tan, Min‐Hua Luo, Fang-Lin Sun, Haipeng Liu, Ying Jiang, Zhiyong Mao

2025Science37 citationsDOI

Abstract

Efficient DNA repair might make possible the longevity of naked mole-rats. However, whether they have distinctive mechanisms to optimize functions of DNA repair suppressors is unclear. We find that naked mole-rat cyclic guanosine monophosphate-adenosine monophosphate synthase (cGAS) lacks the suppressive function of human or mouse homologs in homologous recombination repair through the alteration of four amino acids during evolution. The changes enable cGAS to retain chromatin longer upon DNA damage by weakening TRIM41-mediated ubiquitination and interaction with the segregase P97. Prolonged chromatin binding of cGAS enhanced the interaction between repair factors FANCI and RAD50 to facilitate RAD50 recruitment to damage sites, thereby potentiating homologous recombination repair. Moreover, the four amino acids mediate the function of cGAS in antagonizing cellular and tissue aging and extending life span. Manipulating cGAS might therefore constitute a mechanism for life-span extension.

Topics & Concepts

Homologous recombinationDNA repairCell biologyChromatinRad50DNAChemistryHomologous chromosomeDNA damageMechanism (biology)UbiquitinFunction (biology)Replication protein ABiologyRAD51Naked DNABiochemistryGuanosineG2-M DNA damage checkpointDNA mismatch repairGeneticsDNA-binding proteininterferon and immune responsesRNA Research and SplicingCytomegalovirus and herpesvirus research
A cGAS-mediated mechanism in naked mole-rats potentiates DNA repair and delays aging | Litcius