Acute Depletion Of Mettl3 Implicates N-6-Methyladenosine In Alternative Intron/Exon Inclusion In The Nascent Transcriptome

RNA N-6-methyladenosine (m(6)A) modification plays important roles in multiple aspects of RNA regulation. m(6)A is installed cotranscriptionally by the METTL3/14 complex, but its direct roles in RNA processing remain unclear. Here, we investigate the presence of m(6)A in nascent RNA of mouse embryonic stem cells. We find that around 10% of m(6)A peaks are located in alternative introns/exons, often close to 5' splice sites. m(6)A peaks significantly overlap with RBM15 RNA binding sites and the histone modification H3K36me3. Acute depletion of METTL3 disrupts inclusion of alternative introns/exons in the nascent transcriptome, particularly at 5' splice sites that are proximal to m(6)A peaks. For terminal or variable-length exons, m(6)A peaks are generally located on or immediately downstream from a 5' splice site that is suppressed in the presence of m(6)A and upstream of a 5' splice site that is promoted in the presence of m(6)A. Genes with the most immediate effects on splicing include several components of the m(6)A pathway, suggesting an autoregulatory function. Collectively, our findings demonstrate crosstalk between the m(6)A machinery and the regulation of RNA splicing.