作者
Lingxia Wang,Xixi Zhang,Haiwei Zhang,Kaili Lu,Ming Li,Xiao‐Ming Li,Yangjing Ou,Xiaoming Zhao,Xiaoxia Wu,Xuanhui Wu,Jianling Liu,Mingyan Xing,Han Liu,Yue Zhang,Yongchang Tan,Fang Li,Xiaoxue Deng,Jiangshan Deng,Xiaojie Zhang,Jinbao Li,Yuwu Zhao,Qiurong Ding,Haikun Wang,Xiuzhe Wang,Yan Luo,Ben Zhou,Haibing Zhang
摘要
In mammals, the most remarkable T cell variations with aging are the shrinking of the naïve T cell pool and the enlargement of the memory T cell pool, which are partially caused by thymic involution. However, the mechanism underlying the relationship between T-cell changes and aging remains unclear. In this study, we find that T-cell-specific Rip1 KO mice show similar age-related T cell changes and exhibit signs of accelerated aging-like phenotypes, including inflammation, multiple age-related diseases, and a shorter lifespan. Mechanistically, Rip1-deficient T cells undergo excessive apoptosis and promote chronic inflammation. Consistent with this, blocking apoptosis by co-deletion of Fadd in Rip1-deficient T cells significantly rescues lymphopenia, the imbalance between naïve and memory T cells, and aging-like phenotypes, and prolongs life span in T-cell-specific Rip1 KO mice. These results suggest that the reduction and hyperactivation of T cells can have a significant impact on organismal health and lifespan, underscoring the importance of maintaining T cell homeostasis for healthy aging and prevention or treatment of age-related diseases.