- Li, Xia;
- Zhang, Qian;
- Ding, Yuanyuan;
- Liu, Yiqi;
- Zhao, Dezhi;
- Zhao, Kai;
- Shen, Qicong;
- Liu, Xingguang;
- Zhu, Xuhui;
- Li, Nan;
- Cheng, Zhongyi;
- Fan, Guoping;
- Wang, Qingqing;
- Cao, Xuetao
The DNA methyltransferase Dnmt3a has high expression in terminally differentiated macrophages; however, its role in innate immunity remains unknown. Here we report that deficiency in Dnmt3a selectively impaired the production of type I interferons triggered by pattern-recognition receptors (PRRs), but not that of the proinflammatory cytokines TNF and IL-6. Dnmt3a-deficient mice exhibited enhanced susceptibility to viral challenge. Dnmt3a did not directly regulate the transcription of genes encoding type I interferons; instead, it increased the production of type I interferons through an epigenetic mechanism by maintaining high expression of the histone deacetylase HDAC9. In turn, HDAC9 directly maintained the deacetylation status of the key PRR signaling molecule TBK1 and enhanced its kinase activity. Our data add mechanistic insight into the crosstalk between epigenetic modifications and post-translational modifications in the regulation of PRR signaling and activation of antiviral innate immune responses.