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顺式作用元件是硒调节谷胱甘肽过氧化物酶-1 mRNA水平所必需的。

Cis-acting elements are required for selenium regulation of glutathione peroxidase-1 mRNA levels.

作者信息

Weiss S L, Sunde R A

机构信息

Department of Biochemistry, University of Missouri, Columbia 65211, USA.

出版信息

RNA. 1998 Jul;4(7):816-27. doi: 10.1017/s1355838298971990.

Abstract

Classical glutathione peroxidase (GPX1) mRNA levels can decrease to less than 10% in selenium (Se)-deficient rat liver. The cis-acting nucleic acid sequence requirements for Se regulation of GPX1 mRNA levels were studied by transfecting Chinese hamster ovary (CHO) cells with GPX1 DNA constructs in which specific regions of the GPX1 gene were mutated, deleted, or replaced by comparable regions from unregulated genes such as phospholipid hydroperoxide glutathione peroxidase (GPX4). For each construct, stable transfectants were pooled two weeks after transfection, divided into Se-deficient (2 nM Se) or Se-adequate (200 nM Se) medium, and grown for an additional four days. On day of harvest, Se-deficient GPX1 and GPX4 activities averaged 13 +/- 2% and 15 +/- 2% of Se adequate levels, confirming that cellular Se status was dramatically altered by Se supplementation. RNA was isolated from replicate plates of cells and transfected mRNA levels were specifically determined by RNase protection assay. Analysis of chimeric GPX1/GPX4 constructs showed that the GPX4 3'-UTR can completely replace the GPX1 3'-UTR in Se regulation of GPX1 mRNA. We did not find any GPX1 coding regions that could be replaced by the corresponding GPX4 coding regions without diminishing or eliminating Se regulation of the transfected GPX1 mRNA. Further analysis of the GPX1 coding region demonstrated that the GPX1 Sec codon (UGA) and the GPX1 intron sequences are required for full Se regulation of transfected GPX1 mRNA levels. Mutations that moved the GPX1 Sec codon to three different positions within the GPX1 coding region suggest that the mechanism for Se regulation of GPX1 mRNA requires a Sec codon within exon 1. Lastly, we found that addition of the GPX1 3'-UTR to beta-globin mRNA can convey significant Se regulation to beta-globin mRNA levels when a UGA codon is placed within exon 1. We conclude that Se regulation of GPX1 mRNA requires a functional selenocysteine insertion sequence (SECIS) in the 3'-UTR and a Sec codon followed by an intron.

摘要

在缺硒大鼠肝脏中,经典谷胱甘肽过氧化物酶(GPX1)的mRNA水平可降至不足10%。通过用GPX1 DNA构建体转染中国仓鼠卵巢(CHO)细胞来研究GPX1 mRNA水平硒调节的顺式作用核酸序列要求,其中GPX1基因的特定区域发生了突变、缺失或被来自非调节基因(如磷脂氢过氧化物谷胱甘肽过氧化物酶(GPX4))的可比区域所取代。对于每个构建体,转染两周后将稳定转染子汇集起来,分为缺硒(2 nM硒)或富硒(200 nM硒)培养基,并再培养四天。收获当天,缺硒的GPX1和GPX4活性平均为富硒水平的13±2%和15±2%,证实补充硒可显著改变细胞硒状态。从细胞的重复平板中分离RNA,并通过核糖核酸酶保护测定法特异性测定转染的mRNA水平。对嵌合GPX1/GPX4构建体的分析表明,在GPX1 mRNA的硒调节中,GPX4 3'-非翻译区(UTR)可完全取代GPX1 3'-UTR。我们未发现任何GPX1编码区在不减少或消除转染的GPX1 mRNA的硒调节的情况下可被相应的GPX4编码区所取代。对GPX1编码区的进一步分析表明,GPX1硒代半胱氨酸密码子(UGA)和GPX1内含子序列是转染的GPX1 mRNA水平完全硒调节所必需的。将GPX1硒代半胱氨酸密码子移至GPX1编码区内三个不同位置的突变表明,GPX1 mRNA硒调节的机制需要外显子1内有一个硒代半胱氨酸密码子。最后,我们发现当在外显子1内放置一个UGA密码子时,将GPX1 3'-UTR添加到β-珠蛋白mRNA可使β-珠蛋白mRNA水平具有显著的硒调节作用。我们得出结论,GPX1 mRNA的硒调节需要3'-UTR中有一个功能性硒代半胱氨酸插入序列(SECIS)以及一个硒代半胱氨酸密码子后接一个内含子。

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