mRNA m6A plays opposite role in regulating UCP2 and PNPLA2 protein expression in adipocytes

Our data demonstrated a conserved and yet dynamically regulated m6A methylome in pig transcriptomes and provided an important resource for studying the function of m6A epitranscriptomic modification in obesity development.

Using Jinhua and Landrace pigs as fat and lean models, we presented a comprehensive transcriptome-wide m6A profiling in adipose tissues from these two pig breeds. Two differentially methylated genes were selected to explore the mechanisms of m6A-mediated regulation of gene function.

N6-methyladenosine (m6A) modification of mRNA plays an important role in regulating adipogenesis. However, its underlying mechanism remains largely unknown. Subjects/

The ratio of m6A/A in the layer of backfat (LB) was significantly higher in Landrace than that in Jinhua. Transcriptome-wide m6A profiling revealed that m6A modification on mRNA occurs in the conserved sequence motif of RRACH and that the pig transcriptome contains 0.53-0.91 peak per actively expressed transcript. The relative density of m6A peaks in the 3'UTR were higher than in 5'UTR. Genes with common m6A peaks from both Landrace (L-LB) and Jinhua (J-LB) were enriched in RNA splicing and cellular lipid metabolic process. The unique m6A peak genes (UMGs) from L-LB were mainly enriched in the extracellular matrix (ECM) and collagen catabolic process, whereas the UMGs from J-LB are mainly involved in RNA splicing, etc. Lipid metabolism processes were not significantly enriched in the UMGs from L-LB or J-LB. Uncoupling protein-2 (UCP2) and patatin-like phospholipase domain containing 2 (PNPLA2) were two of the UMGs in L-LB. Synonymous mutations (MUT) were conducted to reduce m6A level of UCP2 and PNPLA2 mRNAs. Adipogenesis test showed that UCP2-MUT further inhibited adipogenesis, while PNPLA2-MUT promoted lipid accumulation compared with UCP2-WT and PNPLA2-WT, respectively. Further study showed m6A negatively mediates UCP2 protein expression and positively mediates PNPLA2 protein expression. m6A modification affects the translation of PNPLA2 most likely through YTHDF1, whereas UCP2 is likely neither the target of YTHDF2 nor the target of YTHDF1.