T cell antigen-receptor (TCR) signaling controls the development, activation and survival of T cells by involving several layers and numerous mechanisms of gene regulation. N-methyladenosine (mA) is the most prevalent messenger RNA modification affecting splicing, translation and stability of transcripts. In the present study, we describe the Wtap protein as essential for mA methyltransferase complex function and reveal its crucial role in TCR signaling in mouse T cells. Wtap and mA methyltransferase functions were required for the differentiation of thymocytes, control of activation-induced death of peripheral T cells and prevention of colitis by enabling gut RORγt regulatory T cell function. Transcriptome and epitranscriptomic analyses reveal that mA modification destabilizes Orai1 and Ripk1 mRNAs. Lack of post-transcriptional repression of the encoded proteins correlated with increased store-operated calcium entry activity and diminished survival of T cells with conditional genetic inactivation of Wtap. These findings uncover how mA modification impacts on TCR signal transduction and determines activation and survival of T cells.
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