氯喹结合揭示了醌还原酶 2 的黄素氧化还原开关功能。
Chloroquine binding reveals flavin redox switch function of quinone reductase 2.
机构信息
Department of Biochemistry, University of Western Ontario, London, Ontario N6A 5C1, Canada.
出版信息
J Biol Chem. 2013 Apr 19;288(16):11242-51. doi: 10.1074/jbc.M113.457002. Epub 2013 Mar 7.
Abstract
Quinone reductase 2 (NQO2) is an FAD-linked enzyme and the only known human target of two antimalarial drugs, primaquine (PQ) and chloroquine (CQ). The structural differences between oxidized and reduced NQO2 and the structural basis for inhibition by PQ and CQ were investigated by x-ray crystallography. Structures of oxidized NQO2 in complex with PQ and CQ were solved at 1.4 Å resolution. CQ binds preferentially to reduced NQO2, and upon reduction of NQO2-CQ crystals, the space group changed from P2(1)2(1)2(1) to P2(1), with 1-Å decreases in all three unit cell dimensions. The change in crystal packing originated in the negative charge and 4-5º bend in the reduced isoalloxazine ring of FAD, which resulted in a new mode of CQ binding and closure of a flexible loop (Phe(126)-Leu(136)) over the active site. This first structure of a reduced quinone reductase shows that reduction of the FAD cofactor and binding of a specific inhibitor lead to global changes in NQO2 structure and is consistent with a functional role for NQO2 as a flavin redox switch.
摘要
醌还原酶 2(NQO2)是一种 FAD 连接酶,也是两种抗疟药物——伯氨喹(PQ)和氯喹(CQ)唯一已知的人类靶点。通过 X 射线晶体学研究了氧化型和还原型 NQO2 的结构差异以及 PQ 和 CQ 抑制的结构基础。用 1.4Å 分辨率解决了与 PQ 和 CQ 结合的氧化型 NQO2 的结构。CQ 优先与还原型 NQO2 结合,当 NQO2-CQ 晶体还原时,空间群从 P2(1)2(1)2(1)变为 P2(1),所有三个晶胞尺寸都减少了 1Å。晶体堆积的变化源于 FAD 还原异咯嗪环的负电荷和 4-5°弯曲,这导致了 CQ 结合的新模式和活性位点上柔性环(Phe(126)-Leu(136))的闭合。这个还原型醌还原酶的第一个结构表明,FAD 辅因子的还原和特定抑制剂的结合导致 NQO2 结构的全局变化,这与 NQO2 作为黄素氧化还原开关的功能作用一致。
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