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胆小管多特异性有机阴离子转运体基因(MRP2/cMOAT)的基因组结构及杜宾-约翰逊综合征中ATP结合盒区域的突变。

Genomic structure of the canalicular multispecific organic anion-transporter gene (MRP2/cMOAT) and mutations in the ATP-binding-cassette region in Dubin-Johnson syndrome.

作者信息

Toh S, Wada M, Uchiumi T, Inokuchi A, Makino Y, Horie Y, Adachi Y, Sakisaka S, Kuwano M

机构信息

Department of Biochemistry, Kyushu University School of Medicine, Maidashi 3-1-1, Fukuoka 812-8582, Japan.

出版信息

Am J Hum Genet. 1999 Mar;64(3):739-46. doi: 10.1086/302292.

DOI:10.1086/302292
PMID:10053008
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1377791/
Abstract

Dubin-Johnson syndrome (DJS) is an autosomal recessive disease characterized by conjugated hyperbilirubinemia. Previous studies of the defects in the human canalicular multispecific organic anion transporter gene (MRP2/cMOAT) in patients with DJS have suggested that the gene defects are responsible for DJS. In this study, we determined the exon/intron structure of the human MRP2/cMOAT gene and further characterized mutations in patients with DJS. The human MRP2/cMOAT gene contains 32 exons, and it has a structure that is highly conserved with that of another ATP-binding-cassette gene, that for a multidrug resistance-associated protein. We then identified three mutations, including two novel ones. All mutations identified to date are in the cytoplasmic domain, which includes the two ATP-binding cassettes and the linker region, or adjacent putative transmembrane domain. Our results confirm that MRP2/cMOAT is the gene responsible for DJS. The finding that mutations are concentrated in the first ATP-binding-cassette domain strongly suggests that a disruption of this region is a critical route to loss of function.

摘要

杜宾-约翰逊综合征(DJS)是一种以结合性高胆红素血症为特征的常染色体隐性疾病。先前针对DJS患者的人胆小管多特异性有机阴离子转运体基因(MRP2/cMOAT)缺陷的研究表明,基因缺陷是导致DJS的原因。在本研究中,我们确定了人MRP2/cMOAT基因的外显子/内含子结构,并进一步对DJS患者的突变进行了特征分析。人MRP2/cMOAT基因包含32个外显子,其结构与另一个ATP结合盒基因(多药耐药相关蛋白基因)的结构高度保守。然后我们鉴定出三个突变,其中包括两个新发现的突变。迄今鉴定出的所有突变均位于胞质结构域,该结构域包括两个ATP结合盒和连接区,或相邻的假定跨膜结构域。我们的结果证实MRP2/cMOAT是导致DJS的基因。突变集中在第一个ATP结合盒结构域这一发现强烈表明,该区域的破坏是功能丧失的关键途径。

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