ATF3 coordinates the survival and proliferation of cardiac macrophages and protects against ischemia–reperfusion injury
Yihui Shao, Yang Li, Yan Liu, Shuolin Zhu, Jianing Wu, Ke Ma, Guoqi Li, Shan Huang, Haichu Wen, Congcong Zhang, Xinliang Ma, Ping Li, Jie Du, Yulin Li, Yulin Li, Yulin Li
Abstract
Abstract Cardiac resident MerTK + macrophages exert multiple protective roles after ischemic injury; however, the mechanisms regulating their fate are not fully understood. In the present study, we show that the GAS6-inducible transcription factor, activating transcription factor 3 (ATF3), prevents apoptosis of MerTK + macrophages after ischemia–reperfusion (IR) injury by repressing the transcription of multiple genes involved in type I interferon expression ( Ifih1 and Ifnb1 ) and apoptosis ( Apaf1 ). Mice lacking ATF3 in cardiac macrophages or myeloid cells showed excessive loss of MerTK + cardiac macrophages, poor angiogenesis and worse heart dysfunction after IR, which were rescued by the transfer of MerTK + cardiac macrophages. GAS6 administration improved cardiac repair in an ATF3-dependent manner. Finally, we showed a negative association of GAS6 and ATF3 expression with the risk of major adverse cardiac events in patients with ischemic heart disease. These results indicate that the GAS6–ATF3 axis has a protective role against IR injury by regulating MerTK + cardiac macrophage survival and/or proliferation.