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Insulin can up-regulate LC-PUFA biosynthesis with the involvement of Srebp-1c and stimulatory protein 1 (Sp1) in marine teleost Siganus canaliculatus

The rabbitfish Siganus canaliculatus is the first marine teleost found to have the biosynthetic ability of long-chain polyunsaturated fatty acids (LC-PUFA) from C18 precursors catalyzed by fatty acyl desaturases (Δ6/Δ5 Fads, Δ4 Fads) and elongases of very long chain fatty acids (Elovls). Previously, we predicted the existence of insulin (INS) response elements (IREs) including nuclear factor Y (NF-Y) and sterol regulatory element (SRE) in the core promoter region of rabbitfish Δ6/Δ5 fads and Δ4 fads. To clarify the potential regulatory effect and mechanism of INS in LC-PUFA biosynthesis, INS responding region was identified at -456 bp to + 51 bp of Δ6/Δ5 fads core promoter, but not in Δ4 fads promoter. Moreover, a unique stimulatory protein 1 (Sp1) element was predicted in the INS responding region of Δ6/Δ5 fads. Subsequently, SRE, NF-Y and Sp1 elements were proved as IREs in Δ6/Δ5 fads promoter. The up-regulation of INS on gene expression of Srebp-1c, Sp1, Δ6/Δ5 fads and elovl5 as well as the LC-PUFA biosynthesis was further demonstrated in S. canaliculatus hepatocyte line (SCHL) cells, but no influence was detected on Δ4 fads. Besides, inhibitors of transcription factors Srebp-1c (Fatostatin, PF-429242) and Sp1 (Mithramycin) could inhibit the gene expression of Srebp-1c, Δ6/Δ5 fads and elovl5, and abolish the up-regulation of INS on these genes' expression and LC-PUFA biosynthesis. These results indicated that INS could up-regulate LC-PUFA biosynthesis with the involvement of Srebp-1c and Sp1 in rabbitfish S. canaliculatus, which is the first report in teleost.

 

Comments:

The above passage describes a study on the biosynthesis of long-chain polyunsaturated fatty acids (LC-PUFA) in the marine teleost Siganus canaliculatus (rabbitfish). The study identified insulin response elements (IREs) in the core promoter region of the Δ6/Δ5 fads and Δ4 fads genes involved in LC-PUFA biosynthesis, and demonstrated that insulin (INS) could up-regulate LC-PUFA biosynthesis in rabbitfish through the involvement of transcription factors Srebp-1c and Sp1.

The study used a hepatocyte cell line derived from rabbitfish (SCHL cells) to investigate the effects of INS on LC-PUFA biosynthesis and gene expression. The researchers found that INS up-regulated the expression of Srebp-1c, Sp1, Δ6/Δ5 fads, and elovl5 genes, as well as LC-PUFA biosynthesis in SCHL cells, but had no effect on Δ4 fads gene expression.

Furthermore, the study showed that inhibitors of transcription factors Srebp-1c and Sp1 could inhibit the up-regulation of INS on gene expression of Srebp-1c, Δ6/Δ5 fads, and elovl5, and abolish the up-regulation of INS on LC-PUFA biosynthesis.

Overall, the study provides insight into the regulatory mechanism of LC-PUFA biosynthesis in rabbitfish and highlights the potential role of INS and transcription factors Srebp-1c and Sp1 in this process.

Related Products

Cat.No. Product Name Information
S6418 PF 429242 PF 429242 is known as a S1P inhibitor with an IC50 of 170 nM, showing no significant inhibition of trypsin, elastase, proteinase K, plasmin, kallikren, factor XIa, thrombin, or furin at concentrations up to 100 μM and only modest inhibition of urokinase (IC50 = 50 μM) and factor Xa (IC50 = 100 μM).

Related Targets

S1P Receptor