人类ABC转运蛋白ABCG2的结构揭示了药物外排的新机制。

The structure of the human ABC transporter ABCG2 reveals a novel mechanism for drug extrusion.

作者信息

Khunweeraphong Narakorn, Stockner Thomas, Kuchler Karl

机构信息

Center for Medical Biochemistry, Max F. Perutz Laboratories, Medical University of Vienna, Campus Vienna Biocenter, Dr. Bohr-Gasse 9/2, A-1030, Vienna, Austria.

Center for Physiology and Pharmacology, Institute of Pharmacology, Medical University Vienna, Währingerstrasse 13A, A-1090, Vienna, Austria.

出版信息

Sci Rep. 2017 Oct 23;7(1):13767. doi: 10.1038/s41598-017-11794-w.

DOI:10.1038/s41598-017-11794-w

PMID:29061978

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5653816/

Abstract

The human ABC transporter ABCG2 (Breast Cancer Resistance Protein, BCRP) is implicated in anticancer resistance, in detoxification across barriers and linked to gout. Here, we generate a novel atomic model of ABCG2 using the crystal structure of ABCG5/G8. Extensive mutagenesis verifies the structure, disclosing hitherto unrecognized essential residues and domains in the homodimeric ABCG2 transporter. The elbow helix, the first intracellular loop (ICL1) and the nucleotide-binding domain (NBD) constitute pivotal elements of the architecture building the transmission interface that borders a central cavity which acts as a drug trap. The transmission interface is stabilized by salt-bridge interactions between the elbow helix and ICL1, as well as within ICL1, which is essential to control the conformational switch of ABCG2 to the outward-open drug-releasing conformation. Importantly, we propose that ICL1 operates like a molecular spring that holds the NBD dimer close to the membrane, thereby enabling efficient coupling of ATP hydrolysis during the catalytic cycle. These novel mechanistic data open new opportunities to therapeutically target ABCG2 in the context of related diseases.

摘要

人类ABC转运蛋白ABCG2（乳腺癌耐药蛋白，BCRP）与抗癌耐药性、跨屏障解毒有关，并与痛风相关。在此，我们利用ABCG5/G8的晶体结构生成了一种新的ABCG2原子模型。广泛的诱变验证了该结构，揭示了同二聚体ABCG2转运蛋白中迄今未被识别的必需残基和结构域。肘部螺旋、第一个细胞内环（ICL1）和核苷酸结合结构域（NBD）构成了构建传输界面的结构的关键元件，该传输界面与作为药物陷阱的中央腔相邻。传输界面通过肘部螺旋与ICL1之间以及ICL1内部的盐桥相互作用得以稳定，这对于控制ABCG2向向外开放的药物释放构象的构象转换至关重要。重要的是，我们提出ICL1的作用类似于分子弹簧，将NBD二聚体保持在靠近膜的位置，从而在催化循环中实现ATP水解的有效偶联。这些新的机制数据为在相关疾病背景下对ABCG2进行治疗靶向提供了新的机会。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7ea4/5653816/e03eb74be824/41598_2017_11794_Fig1_HTML.jpg

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人类ABC转运蛋白ABCG2的结构揭示了药物外排的新机制。

The structure of the human ABC transporter ABCG2 reveals a novel mechanism for drug extrusion.

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