Agellon L B, Cheema S K
Department of Biochemistry, and the Lipid and Lipoprotein Research Group, University of Alberta, 328 Heritage Medical Research Centre, Edmonton, Alberta T6G 2S2, Canada.
Biochem J. 1997 Dec 1;328 ( Pt 2)(Pt 2):393-9. doi: 10.1042/bj3280393.
To investigate the importance of the 3'-untranslated region (UTR) of the mouse cholesterol 7alpha-hydroxylase (cyp7) mRNA in post-transcriptional regulation of expression of the cyp7 gene, chimaeric genes encoding mRNA containing the structural sequence of chloramphenicol acetyltransferase (CAT) linked to either the 3'-UTR of the mouse cyp7 mRNA or the SV40 early gene mRNA were constructed. The human cytomegalovirus (CMV) promoter was used to drive the expression of all the chimaeric genes. Thus the transgenes had identical sequences in the promoter, the regions encoding the 5'-UTR and translated sequence but differed in the region encoding the 3'-UTR of their respective mRNA species. The transgene containing the entire cyp7 3'-UTR (designated CMV.CAT.CYP7) gave rise to CAT activity in transfected hepatoma cells that was one-quarter of that obtained in cells transfected with the transgene containing the SV40 3'-UTR (designated CMV.CAT.SV40). The 3'-UTR of the cyp7 mRNA contains sequences resembling AU-rich elements (AREs). Deleting eight of nine putative AREs from the CYP7 3'-UTR sequence increased the CAT activity to a level greater than that observed for CMV.CAT. SV40, whereas deletion of the intron region had no effect. These results show that the AREs of the 3'-UTR of the cyp7 mRNA decrease transgene expression. Bile acids are known to repress the expression of the cyp7 gene. To test whether the 3'-UTR of the cyp7 mRNA has a role in this process, the expression of the chimaeric genes was evaluated in hepatoma cells competent for bile acid uptake. Conjugated bile acids, but not unconjugated bile acids, further decreased the expression of the CMV.CAT.CYP7 transgene. The same bile acids had no effect on the expression of the CMV.CAT.SV40 transgene. Deletion of the intron from the cyp7 sequence did not alter the CAT activity compared with the parental plasmid, and also did not alter the sensitivity of the transgene to the conjugated bile acids. Deletion of the AREs from the cyp7 3'-UTR, which increased the expression of the transgene, did not abolish the sensitivity of the transgene to repression by conjugated bile acids. Thus the 3'-UTR of the mouse cyp7 mRNA also contains elements that facilitate the further repression of transgene expression in the presence of conjugated bile acids. The results indicate that the 3'-UTR of the mouse cyp7 mRNA contains information specifying regulation at the post-transcriptional level.
为了研究小鼠胆固醇7α-羟化酶(cyp7)mRNA的3'-非翻译区(UTR)在cyp7基因表达的转录后调控中的重要性,构建了嵌合基因,这些基因编码的mRNA含有与小鼠cyp7 mRNA的3'-UTR或SV40早期基因mRNA相连的氯霉素乙酰转移酶(CAT)结构序列。使用人巨细胞病毒(CMV)启动子驱动所有嵌合基因的表达。因此,转基因在启动子、编码5'-UTR和翻译序列的区域具有相同的序列,但在各自mRNA物种的编码3'-UTR的区域有所不同。含有完整cyp7 3'-UTR的转基因(命名为CMV.CAT.CYP7)在转染的肝癌细胞中产生的CAT活性是用含有SV40 3'-UTR的转基因(命名为CMV.CAT.SV40)转染的细胞中所获活性的四分之一。cyp7 mRNA的3'-UTR包含类似于富含AU元件(AREs)的序列。从CYP7 3'-UTR序列中删除九个推定AREs中的八个,可使CAT活性提高到高于CMV.CAT.SV40所观察到的水平,而删除内含子区域则没有影响。这些结果表明,cyp7 mRNA的3'-UTR中的AREs会降低转基因表达。已知胆汁酸会抑制cyp7基因的表达。为了测试cyp7 mRNA的3'-UTR在此过程中是否起作用,在能够摄取胆汁酸 的肝癌细胞中评估了嵌合基因的表达。结合型胆汁酸而非非结合型胆汁酸会进一步降低CMV.CAT.CYP7转基因的表达。相同的胆汁酸对CMV.CAT.SV40转基因的表达没有影响。与亲本质粒相比,从cyp7序列中删除内含子不会改变CAT活性,也不会改变转基因对结合型胆汁酸的敏感性。从cyp7 3'-UTR中删除AREs会增加转基因的表达,但不会消除转基因对结合型胆汁酸抑制作用的敏感性。因此,小鼠cyp7 mRNA的3'-UTR还包含在存在结合型胆汁酸的情况下促进转基因表达进一步受抑制的元件。结果表明,小鼠cyp7 mRNA的3'-UTR包含在转录后水平上指定调控的信息。