4.7 Article

Transcriptional Regulation Associated with Subcutaneous Adipogenesis in Porcine ACSL1 Gene

Journal

BIOMOLECULES
Volume 13, Issue 7, Pages -

Publisher

MDPI
DOI: 10.3390/biom13071057

Keywords

pig; ACSL1; transactivation; SNPs; linkage disequilibrium; adipogenesis; transcript variant

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This study reveals the important role of ACSL1 in fatty acid metabolism and fat deposition, and identifies C/EBPα as a key transcription factor regulating ACSL1 expression. Other transcription factors, such as cAMP-response element binding protein, are also involved in the regulation of ACSL1 gene expression.
Long-chain acyl-CoA synthetase 1 (ACSL1) plays an important role in fatty acid metabolism and fat deposition. The transcription of the ACSL1 gene is regulated specifically among cells and physiological processes, and transcriptional regulation of ACSL1 in adipogenesis remains elusive. Here, we characterize transcription factors (TFs) associated with adipogenesis in the porcine ACSL1 gene. CCAAT-enhancer binding protein (C/EBP)& alpha;, a well-known adipogenic marker, was found to enhance the expression of the ACSL1 gene via binding two tandem motifs in the promoter. Further, we demonstrate that ACSL1 mediates C/EBP & alpha; effects on adipogenesis in preadipocytes cultured from subcutaneous fat tissue of pigs via gain- and loss-of-function analyses. The cAMP-response element binding protein, another TF involved in adipogenesis, was also identified in the regulation of ACSL1 gene expression. Additionally, single nucleotide polymorphisms (SNPs) were screened in the promoter of ACSL1 among four breeds including the Chinese indigenous Min, and Duroc, Berkshire, and Yorkshire pigs through sequencing of PCR products. Two tightly linked SNPs, -517G>T and -311T>G, were found exclusively in Min pigs. The haplotype mutation decreases promoter activity in PK-15 and ST cells, and in vivo the expression of ACSL1, illustrating a possible role in adipogenesis regulated by C/EBP & alpha;/ACSL1 axis. Additionally, a total of 24 alternative splicing transcripts were identified, indicating the complexity of alternative splicing in the ACSL1 gene. The results will contribute to further revealing the regulatory mechanisms of ACSL1 during adipogenesis and to the characterization of molecular markers for selection of fat deposition in pigs.

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