Identification of novel alternative splicing of bovine lncRNA lncFAM200B and its effects on preadipocyte proliferation.

Adipogenesis is closely related to human health, livestock growth, and meat quality. A previous study identified that bovine lncFAM200B promoter has high activity in 3T3-L1 mice preadipocytes. Thus, lncFAM200B was a candidate gene for regulating adipogenesis. This study aimed to uncover the role of lncFAM200B in bovine adipogenesis and identify novel genetic variations within the bovine lncFAM200B gene. An expression analysis found that lncFAM200B was expressed higher in fat than that in muscle, but the difference was not related to the total methylation level of the promoter active region. Moreover, the expression of lncFAM200B exhibited a significant positive correlation with the expression of C/EBPa during bovine adipocyte differentiation. To uncover the function of lncFAM200B, the full-length lncFAM200B was cloned, and four kinds of transcript variants were found. Protein-coding potential prediction and prokaryotic expression system analysis showed that these four transcript variants were noncoding RNAs. The quantitative reverse-transcription polymerase chain reaction and 5-ethynyl-2'-deoxyuridine assay showed that the transcript variants decreased the messenger RNA expression of Cyclin D1 and inhibited the proliferation of bovine preadipocytes. Considering the important role of lncFAM200B in adipogenesis, we identified genetic variations in lncFAM200B. Three single-nucleotide polymorphisms (SNPs) were revealed, and two of them (SNP1 and SNP3) were associated with Nanyang cattle body measurement traits. In conclusion, this study found that bovine lncFAM200B inhibited preadipocyte proliferation, and two genetic variations of lncFAM200B could be used in cattle breeding.