ALKBH5 Stabilized N 6 -Methyladenosine-Modified LOC4191 to Suppress E. coli -Induced Apoptosis.

E. coli is a ubiquitous pathogen that is responsible for over one million fatalities worldwide on an annual basis. In animals, E. coli can cause a variety of diseases, including mastitis in dairy cattle, which represents a potential public health hazard. However, the pathophysiology of E. coli remains unclear. We found that E. coli could induce global upregulation of m 6 A methylation and cause serious apoptosis in bovine mammary epithelial cells (MAC-T cells). Furthermore, numerous m 6 A-modified lncRNAs were identified through MeRIP-seq. Interestingly, we found that the expression of LOC4191 with hypomethylation increased in MAC-T cells upon E. coli -induced apoptosis. Knocking down LOC4191 promoted E. coli -induced apoptosis and ROS levels through the caspase 3-PARP pathway. Meanwhile, knocking down ALKBH5 resulted in the promotion of apoptosis through upregulated ROS and arrested the cell cycle in MAC-T cells. ALKBH5 silencing accelerated LOC4191 decay by upregulating its m 6 A modification level, and the process was recognized by hnRNP A1. Therefore, this indicates that ALKBH5 stabilizes m 6 A-modified LOC4191 to suppress E. coli -induced apoptosis. This report discusses an initial investigation into the mechanism of m 6 A-modified lncRNA in cells under E. coli -induced apoptosis and provides novel insights into infectious diseases.