Sheena Vered, Hertz Rachel, Nousbeck Janna, Berman Ina, Magenheim Judith, Bar-Tana Jacob
Department of Human Nutrition and Metabolism, Hebrew University Medical School, Jerusalem, Israel 91120.
J Lipid Res. 2005 Feb;46(2):328-41. doi: 10.1194/jlr.M400371-JLR200. Epub 2004 Nov 16.
Microsomal triglyceride transfer protein (MTP) catalyzes the assembly of triglyceride (TG)-rich apolipoprotein B-containing liver (e.g., VLDL) and intestinal (e.g., chylomicron) lipoproteins. The human MTP gene promoter is reported here to associate in vivo with endogenous hepatocyte nuclear factor-4alpha (HNF-4alpha) and to be transactivated or transsuppressed by overexpressed or by dominant negative HNF-4alpha, respectively. Human MTP (hMTP) transactivation by HNF-4alpha is accounted for by the concerted activity of distal (-83/-70) and proximal (-50/-38) direct repeat 1 elements of the hMTP promoter that bind HNF-4alpha. Transactivation by HNF-4alpha is specifically antagonized by chicken ovalbumin upstream promoter. Transcriptional activation of hMTP by HNF-4alpha is mediated by HNF-4alpha domains engaged in ligand binding and ligand-driven transactivation and is further complemented by HNF-4alpha/HNF-1alpha synergism that involves the HNF-4alpha activation function 1 (AF-1) domain. hMTP transactivation by HNF-4alpha is specifically inhibited by beta,beta-tetramethyl-hexadecanedioic acid acting as an HNF-4alpha antagonist ligand. hMTP transactivation by HNF-4alpha may account for the activation or inhibition of MTP expression and the production of TG-rich lipoproteins by agonist (e.g., saturated fatty acids) or antagonist [e.g., (n-3) PUFA, hypolipidemic fibrates, or Methyl-substituted dicarboxylic acid (Medica) compounds] HNF-4alpha ligands.
微粒体甘油三酯转运蛋白(MTP)催化富含甘油三酯(TG)的、含载脂蛋白B的肝脏脂蛋白(如极低密度脂蛋白,VLDL)和肠道脂蛋白(如乳糜微粒)的组装。本文报道,人类MTP基因启动子在体内与内源性肝细胞核因子-4α(HNF-4α)相关联,并且分别被过表达的或显性负性HNF-4α反式激活或反式抑制。HNF-4α对人类MTP(hMTP)的反式激活是由hMTP启动子中结合HNF-4α的远端(-83/-70)和近端(-50/-38)直接重复序列1元件的协同活性所导致的。HNF-4α的反式激活被鸡卵清蛋白上游启动子特异性拮抗。HNF-4α对hMTP的转录激活是由参与配体结合和配体驱动的反式激活的HNF-4α结构域介导的,并且通过涉及HNF-4α激活功能1(AF-1)结构域的HNF-4α/HNF-1α协同作用得到进一步补充。作为HNF-4α拮抗剂配体的β,β-四甲基十六烷二酸特异性抑制HNF-4α对hMTP的反式激活。HNF-4α对hMTP的反式激活可能解释了激动剂(如饱和脂肪酸)或拮抗剂[如(n-3)多不饱和脂肪酸、降血脂贝特类药物或甲基取代的二羧酸(Medica)化合物]HNF-4α配体对MTP表达的激活或抑制以及富含TG脂蛋白的产生。
