Lamba Jatinder Kaur, Adachi Masashi, Sun Daxi, Tammur Jaana, Schuetz Erin G, Allikmets Rando, Schuetz John D
St Jude Children's Research Hospital, Department of Pharmaceutical Sciences, Memphis, TN, USA.
Hum Mol Genet. 2003 Jan 15;12(2):99-109. doi: 10.1093/hmg/ddg011.
Drug transporters are an important part of the defense of cells against cytotoxic agents. One major group of transporters is known as multidrug resistance associated proteins (MRP; ABCC gene family). The MRPs belong to the ATP binding cassette transporter superfamily. One family member, ABCC4 (also known as MRP4) functions as a cellular efflux pump for anti-HIV drugs, such as 9-(2-phoshoenylmethoxyethyl) adenine and azido-thymidine-monophosphate, an antiviral nucleotide, ganciclovir-monophosphate, and anti-cancer agents such as thiopurines. We isolated a ABCC4 cDNA encoding a non-functional protein, owing to an insertion, and subsequently determined the ABCC4 gene structure. This analysis revealed that the insertion was attributed to two additional exons that would be predicted to produce premature termination codons (PTC) in ABCC4. The highly similar mouse Abcc4 gene also contained these exons, which were remarkable because their size and sequence identity were much higher than the overall similarity between these genes. Further, a comparison of human, monkey and rodent ABCC4 genes revealed that these same PTC-producing exons were also highly conserved in evolution. As all the ABCC4 mRNA containing these PTC exons might produce nonsense mRNA, we further tested the hypothesis that these mRNAs were targets of nonsense-mediated mRNA decay (NMD). Protein synthesis inhibition selectively stabilized PTC containing ABCC4 transcripts in human, monkey and rodent cell lines. Moreover, the amount of PTC-containing ABCC4 transcripts was critically dependent upon protein synthesis, as removal of the inhibitor dramatically decreased expression, which correlated with the resumption of protein synthesis. These are the first studies to indicate that the highly conserved PTC exons of the ABCC4 gene may dictate its expression.
药物转运蛋白是细胞抵御细胞毒性药物的重要组成部分。其中一大类转运蛋白被称为多药耐药相关蛋白(MRP;ABCC基因家族)。MRP属于ATP结合盒转运蛋白超家族。该家族成员之一ABCC4(也称为MRP4)作为一种细胞外排泵,可转运抗HIV药物,如9-(2-磷酸烯醇甲氧基乙基)腺嘌呤和叠氮胸苷单磷酸(一种抗病毒核苷酸)、更昔洛韦单磷酸,以及硫嘌呤等抗癌药物。我们分离出了一个由于插入而编码无功能蛋白的ABCC4 cDNA,随后确定了ABCC4基因结构。该分析表明,插入是由于另外两个外显子导致的,预计这两个外显子会在ABCC4中产生过早终止密码子(PTC)。高度相似的小鼠Abcc4基因也包含这些外显子,值得注意的是,它们的大小和序列同一性远高于这些基因之间的整体相似性。此外,对人类、猴子和啮齿动物ABCC4基因的比较表明,这些产生PTC的外显子在进化过程中也高度保守。由于所有含有这些PTC外显子的ABCC4 mRNA可能会产生无义mRNA,我们进一步测试了这些mRNA是无义介导的mRNA降解(NMD)靶点的假设。蛋白质合成抑制可选择性地稳定人类、猴子和啮齿动物细胞系中含有PTC的ABCC4转录本。此外,含有PTC的ABCC4转录本的量严重依赖于蛋白质合成,因为去除抑制剂会显著降低表达,这与蛋白质合成的恢复相关。这些是首次表明ABCC4基因高度保守的PTC外显子可能决定其表达的研究。
