Wang Shuqi, Chen Junliang, Jiang Danli, Zhang Qinghao, You Cuihong, Tocher Douglas R, Monroig Óscar, Dong Yewei, Li Yuanyou
Guangdong Provincial Key Laboratory of Marine Biotechnology, Shantou University, Shantou, Guangdong, 515063, China.
Institute of Aquaculture, Faculty of Natural Sciences, University of Stirling, Stirling, Scotland, FK9 4LA, UK.
Fish Physiol Biochem. 2018 Jun;44(3):805-815. doi: 10.1007/s10695-018-0470-8. Epub 2018 Jan 19.
Long-chain polyunsaturated fatty acid (LC-PUFA) biosynthesis is an important metabolic pathway in vertebrates, especially fish, considering they are the major source of n-3 LC-PUFA in the human diet. However, most fish have only limited capability for biosynthesis of LC-PUFA. The rabbitfish (Siganus canaliculatus) is able to synthesize LC-PUFA as it has all the key enzyme activities required including Δ6Δ5 Fads2, Δ4 Fads2, Elovl5, and Elovl4. We previously reported a direct interaction between the transcription factor Hnf4α and the promoter regions of Δ4 and Δ6Δ5 Fads2, which suggested that Hnf4α was involved in the transcriptional regulation of fads2 in rabbitfish. For functionally investigating it further, a full-length cDNA of 1736-bp-encoding rabbitfish Hnf4α with 454 amino acids was cloned, which was highly expressed in intestine, followed by liver and eyes. Similar to the expression characteristics of its target genes Δ4 and Δ6Δ5 fads2, levels of hnf4α mRNA in liver and eyes were higher in fish reared at low salinity than those reared in high salinity. After the rabbitfish primary hepatocytes were, respectively, incubated with alverine, benfluorex or BI6015, which were anticipated agonists or antagonist for Hnf4α, the mRNA level of Δ6Δ5 and Δ4 fads2 displayed a similar change tendency with that of hnf4α mRNA. Furthermore, when the mRNA level of hhf4α was knocked down using siRNA, the expression of Δ6Δ5 and Δ4 fads2 also decreased. Together, these data suggest that Hnf4α is involved in the transcriptional regulation of LC-PUFA biosynthesis, specifically, by targeting Δ4 and Δ6Δ5 fads2 in rabbitfish.
长链多不饱和脂肪酸(LC-PUFA)生物合成是脊椎动物尤其是鱼类中的一条重要代谢途径,因为它们是人类饮食中n-3 LC-PUFA的主要来源。然而,大多数鱼类合成LC-PUFA的能力有限。黄斑蓝子鱼(Siganus canaliculatus)能够合成LC-PUFA,因为它具备所有所需的关键酶活性,包括Δ6Δ5 Fads2、Δ4 Fads2、Elovl5和Elovl4。我们之前报道了转录因子Hnf4α与Δ4和Δ6Δ5 Fads2的启动子区域之间存在直接相互作用,这表明Hnf4α参与了黄斑蓝子鱼中fads2的转录调控。为了进一步从功能上研究它,我们克隆了一个1736 bp编码454个氨基酸的黄斑蓝子鱼Hnf4α全长cDNA,其在肠道中高表达,其次是肝脏和眼睛。与其靶基因Δ4和Δ6Δ5 fads2的表达特征相似,低盐度养殖的鱼肝脏和眼睛中的hnf4α mRNA水平高于高盐度养殖的鱼。在黄斑蓝子鱼原代肝细胞分别与预期为Hnf4α激动剂或拮抗剂的阿尔维林、苯氟雷司或BI6015孵育后,Δ6Δ5和Δ4 fads2的mRNA水平与hnf4α mRNA呈现相似的变化趋势。此外,当使用siRNA敲低hhf4α的mRNA水平时,Δ6Δ5和Δ4 fads2的表达也下降。总之,这些数据表明Hnf4α参与了LC-PUFA生物合成的转录调控,具体而言,是通过靶向黄斑蓝子鱼中的Δ4和Δ6Δ5 fads2来实现的。
