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Suppression of TREX1 deficiency-induced cellular senescence and interferonopathies by inhibition of DNA damage response

Hekang Du, Nanyang Xiao, Sitong Zhang, Xueyuan Zhou, Yangfan Zhang, Zengzeng Lu, Yuqian Fu, Miaohui Huang, Shan Xu, Qi Chen

2023iScience31 citationsDOIOpen Access PDF

Abstract

TREX1 encodes a major DNA exonuclease and mutations of this gene are associated with type I interferonopathies in human. Mice with Trex1 deletion or mutation have shortened life spans accompanied by a senescence-associated secretory phenotype. However, the contribution of cellular senescence in TREX1 deficiency-induced type I interferonopathies remains unknown. We found that features of cellular senescence present in Trex1 −/− mice are induced by multiple factors, particularly DNA damage. The cGAS-STING and DNA damage response pathways are required for maintaining TREX1 deletion-induced cellular senescence. Inhibition of the DNA damage response, such as with Checkpoint kinase 2 (CHK2) inhibitor, partially alleviated progression of type I interferonopathies and lupus-like features in the mice. These data provide insights into the initiation and development of type I interferonopathies and lupus-like diseases, and may help inform the development of targeted therapeutics.

Topics & Concepts

DNA damageBiologySenescencePhenotypeTelomereCell biologyCellular stress responseGeneEndocrinologyDNAGeneticsFight-or-flight responseinterferon and immune responsesInflammasome and immune disordersImmune Response and Inflammation
Suppression of TREX1 deficiency-induced cellular senescence and interferonopathies by inhibition of DNA damage response | Litcius