The production of natural antimicrobial peptides has emerged as an important mechanism of innate immunity in animals. Defensins, members of a large family of antimicrobial peptides, have been suggested as effector molecules in host defence against bacteria, fungi, protozoa and enveloped viruses. However, the molecular mechanism underlying defensin upregulation in bacterial infection remains poorly understood. The modification of mRNA by N6-adenosine methylation (m6A) on internal bases influences gene expression in eukaryotes. Here, we show that β-defensin production triggered by Enterotoxigenic Escherichia coli K88 (E. coli K88) infection is controlled by the cellular m6A methyltransferase METTL3. Adding back with METTL3 robustly stimulated the re-expression of defensin, which further supports the conclusion. Furthermore, using a MeRIP-seq approach, we identified a functional connection between m6A dependent GPR161 signalling and the expression of defensins. Mechanistically, we found that the transcription factor FOXO6 interacted with METTL3 to trigger the transcription of GPR161 and the subsequent regulation of β-defensin expression. The study has shed light on the mechanisms by which enterotoxigenic Escherichia coli infection promotes enteric defensin expression.
Keywords: Enterotoxigenic Escherichia coli; FOXO6; GPR161; METTL3; N6-adenosine methylation; defensin.