ABCG2 中的致痛风 Q141K 突变导致核苷酸结合域不稳定，可通过小分子进行纠正。

Gout-causing Q141K mutation in ABCG2 leads to instability of the nucleotide-binding domain and can be corrected with small molecules.

机构信息

Department of Physiology, The Johns Hopkins University School of Medicine, Baltimore, MD 21205, USA.

出版信息

Proc Natl Acad Sci U S A. 2013 Mar 26;110(13):5223-8. doi: 10.1073/pnas.1214530110. Epub 2013 Mar 14.

DOI:10.1073/pnas.1214530110

PMID:23493553

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3612674/

Abstract

The multidrug ATP-binding cassette, subfamily G, 2 (ABCG2) transporter was recently identified as an important human urate transporter, and a common mutation, a Gln to Lys substitution at position 141 (Q141K), was shown to cause hyperuricemia and gout. The nature of the Q141K defect, however, remains undefined. Here we explore the Q141K ABCG2 mutation using a comparative approach, contrasting it with another disease-causing mutation in an ABC transporter, the deletion of Phe-508 (ΔF508) in the cystic fibrosis transmembrane conductance regulator (CFTR). We found, much like in ΔF508 CFTR, that the Q141K mutation leads to instability in the nucleotide-binding domain (NBD), a defect that translates to significantly decreased protein expression. However, unlike the CFTR mutant, the Q141K mutation does not interfere with the nucleotide-binding domain/intracellular loop interactions. This investigation has also led to the identification of critical residues involved in the protein-protein interactions necessary for the dimerization of ABCG2: Lys-473 (K473) and Phe-142 (F142). Finally, we have demonstrated the utility of using small molecules to correct the Q141K defect in expression and function as a possible therapeutic approach for hyperuricemia and gout.

摘要

多药 ATP 结合盒，亚家族 G，2（ABCG2）转运蛋白最近被确定为一种重要的人类尿酸转运蛋白，一个常见的突变，即位置 141 的 Gln 到 Lys 的取代（Q141K），被证明会导致高尿酸血症和痛风。然而，Q141K 缺陷的性质仍未确定。在这里，我们使用比较方法研究了 Q141K ABCG2 突变，将其与另一种 ABC 转运蛋白中的致病突变进行对比，即囊性纤维化跨膜电导调节剂（CFTR）中的 Phe-508 缺失（ΔF508）。我们发现，与 ΔF508 CFTR 非常相似，Q141K 突变导致核苷酸结合域（NBD）不稳定，这一缺陷导致蛋白表达显著下降。然而，与 CFTR 突变体不同，Q141K 突变不会干扰核苷酸结合域/细胞内环相互作用。这项研究还确定了参与 ABCG2 二聚化所必需的蛋白-蛋白相互作用的关键残基：Lys-473（K473）和 Phe-142（F142）。最后，我们证明了使用小分子来纠正 Q141K 表达和功能缺陷的方法的有效性，这可能是治疗高尿酸血症和痛风的一种方法。

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