Abstract
N6-methyladenosine (m6A) is the most prevalent modification of mRNA which controls diverse physiological processes. Although m6A modification has been reported to regulate type I interferon (IFN) responses by targeting the mRNA of IFN-β and the interferon-stimulated genes (ISGs), the detailed mechanism of how m6A methyltransferase complex (MTC) rapidly responds to conduct the modification on nascent mRNA during IFN-β stimulation remains largely unclear. Here, we demonstrate that WTAP, the adaptor protein of m6A MTC, undergoes dephosphorylation-regulated phase transition from aggregates to liquid-like condensates under IFN-β stimulation, thereby mediating m6A modification of a subset of ISGs to restrict their expression. The phase transition of WTAP promotes the interaction with nucleus-translocated transcription factor STAT1, recruits MTC to the promoter regions of ISGs and directs the co-transcriptional m6A modification on ISG mRNAs. Collectively, our findings reveal a novel regulatory role of WTAP phase transition in manipulating signaling pathways and fine-tuning immune response by orchestrating dynamic m6A modification through the cooperation of transcription factors and MTC. Our findings unveil a novel mechanism by which WTAP phase transition controls immune homeostasis via transcription factor-MTC-driven dynamic m6A modification, thereby proposing a potential therapeutic target for alleviating immune dysregulation.