Apex1 safeguards genomic stability to ensure a cytopathic T cell fate in autoimmune disease models
Xiang Xiao, Yong Du, Si Sun, Xiaojun Su, Junji Xing, Guangchuan Wang, Steven M. Elzein, Dawei Zou, Laurie J. Minze, Zhuyun Mao, Rafik M. Ghobrial, Ashton A. Connor, Wenhao Chen, Zhiqiang Zhang, Xian C. Li
Xiang Xiao, Yong Du, Si Sun, Xiaojun Su, Junji Xing, Guangchuan Wang, Steven M. Elzein, Dawei Zou, Laurie J. Minze, Zhuyun Mao, Rafik M. Ghobrial, Ashton A. Connor, Wenhao Chen, Zhiqiang Zhang, Xian C. Li
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Research Article Autoimmunity Immunology

Apex1 safeguards genomic stability to ensure a cytopathic T cell fate in autoimmune disease models

Abstract

T cells have a remarkable capacity to clonally expand, a process that is intricately linked to their effector activities. As vigorously proliferating T cell also incur substantial DNA lesions, how the dividing T cells safeguard their genomic integrity to allow the generation of T effector cells remains largely unknown. Here we report the identification of the apurinic/apyrimidinic endonuclease-1 (Apex1) as an indispensable molecule for the induction of cytopathic T effectors in mouse models. We demonstrate that conditional deletion of Apex1 in T cells resulted in a remarkable accumulation of baseless DNA sites in the genome of proliferating T cells, which further led to genomic instability and apoptotic cell death. Consequently, Apex1-deleted T cells failed to acquire any effector features after activation and failed to mediate autoimmune diseases and allergic tissue damages. Detailed mutational analyses pinpointed the importance of its endonuclease domain in the generation of T effector cells. We provide further evidence that inhibiting the base repair activities of Apex1 with chemical inhibitors similarly abrogated the induction of autoimmune diseases. Collectively, our study suggests that Apex1 serves as a gatekeeper for the generation of cytopathic T cells and that therapeutically targeting Apex1 may have important clinical implications in the treatment of autoimmune diseases.

Authors

Xiang Xiao, Yong Du, Si Sun, Xiaojun Su, Junji Xing, Guangchuan Wang, Steven M. Elzein, Dawei Zou, Laurie J. Minze, Zhuyun Mao, Rafik M. Ghobrial, Ashton A. Connor, Wenhao Chen, Zhiqiang Zhang, Xian C. Li

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Figure 3

Failure of A/P site repairs results in genomic instability and apoptotic T cell death.

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Failure of A/P site repairs results in genomic instability and apoptotic...
(AE) WT CD4+ 2D2 (CD45.1+/–) and Apex1fl/flCd4Cre 2D2 (CD45.2+) T cells were mixed at a 1:1 ratio (2 million each), labeled with CTV, and co-transferred into CD45.1+/+ WT B6 mice 1 day before EAE induction. The transferred 2D2 cells were tracked and analyzed at the indicated time point after EAE induction. (A) A cartoon rendering of experimental designs. (B) Flow cytometry plot showing frequencies of cell division cycles (0, 1–2, and >2) among the transferred 2D2 cells in the draining lymph nodes (dLNs) 4 days after EAE induction (n = 4 mice). (C) Bar graphs showing the number of A/P sites in divided 2D2 cells in (B) (n = 3 mice). (D) Representative flow cytometry plots (left) and bar graph (right) showing γH2A.X expression in the transferred 2D2 cells from dLNs on day 5 (D5) and D7 (n = 3 mice per group). (E) Flow cytometry plots showing the frequencies of effector 2D2 cells from the dLNs on day 8 and day 12 (n = 3 mice per group). (FK) Analyses of CTV-labeled WT CD45.1+/+ and Apex1fl/flCd4Cre (CD45.2+) CD4+ T cells co-transferred into irradiated CD45.1+/– syngeneic B6 mice at a 1:1 ratio (1 million each). (F) A cartoon rendering of experimental designs. (G and H) Representative flow cytometry plots showing cell divisions in vivo (G) and γH2A.X expression (H) of CTV-labeled CD4+ cells in the lymph nodes on day 9 (n = 3 mice). (I) Bar graphs showing the number of A/P sites among divided CD4+ cells on day 5 (n = 3 mice). (J) Flow cytometry plots showing the frequencies of transferred CD4+ T cells and their expression cleaved caspase-3 on day 5 (n = 3 mice). (K) Flow cytometry plots and bar graphs showing annexin V expression (n = 5 mice) among divided CD4+ cells on day 5. Data are presented as mean ± SD. The P values are from a 2-tailed, paired (C, D, J, and H) and unpaired (I) Student’s t test.