跨膜螺旋12调节ABCB1中ATP催化循环的进程。

Transmembrane helix 12 modulates progression of the ATP catalytic cycle in ABCB1.

作者信息

Crowley Emily, O'Mara Megan L, Reynolds Catherine, Tieleman D Peter, Storm Janet, Kerr Ian D, Callaghan Richard

机构信息

Nuffield Department of Clinical Laboratory Sciences, John Radcliffe Hospital, University of Oxford, Oxford OX3 9DU, United Kingdom.

出版信息

Biochemistry. 2009 Jul 7;48(26):6249-58. doi: 10.1021/bi900373x.

DOI:10.1021/bi900373x

PMID:19456124

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2791873/

Abstract

Multidrug efflux pumps, such as P-glycoprotein (ABCB1), present major barriers to the success of chemotherapy in a number of clinical settings. Molecular details of the multidrug efflux process by ABCB1 remain elusive, in particular, the interdomain communication associated with bioenergetic coupling. The present investigation has focused on the role of transmembrane helix 12 (TM12) in the multidrug efflux process of ABCB1. Cysteine residues were introduced at various positions within TM12, and their effect on ATPase activity, nucleotide binding, and drug interaction were assessed. Mutation of several residues within TM12 perturbed the maximal ATPase activity of ABCB1, and the underlying cause was a reduction in basal (i.e., drug-free) hydrolysis of the nucleotide. Two of the mutations (L976C and F978C) were found to reduce the binding of [gamma-(32)P]-azido-ATP to ABCB1. In contrast, the A980C mutation within TM12 enhanced the rate of ATP hydrolysis; once again, this was due to modified basal activity. Several residues also caused reductions in the potency of stimulation of ATP hydrolysis by nicardipine and vinblastine, although the effects were independent of changes in drug binding per se. Overall, the results indicate that TM12 plays a key role in the progression of the ATP hydrolytic cycle in ABCB1, even in the absence of the transported substrate.

摘要

多药外排泵，如P-糖蛋白（ABCB1），在许多临床环境中是化疗成功的主要障碍。ABCB1介导的多药外排过程的分子细节仍不清楚，特别是与生物能量偶联相关的结构域间通讯。本研究聚焦于跨膜螺旋12（TM12）在ABCB1多药外排过程中的作用。在TM12内的不同位置引入半胱氨酸残基，并评估它们对ATP酶活性、核苷酸结合和药物相互作用的影响。TM12内几个残基的突变扰乱了ABCB1的最大ATP酶活性，其根本原因是核苷酸的基础（即无药物）水解减少。发现其中两个突变（L976C和F978C）降低了[γ-(32)P]-叠氮基ATP与ABCB1的结合。相反，TM12内的A980C突变提高了ATP水解速率；同样，这是由于基础活性的改变。几个残基也导致尼卡地平和长春碱刺激ATP水解的效力降低，尽管这些影响与药物结合本身的变化无关。总体而言，结果表明TM12在ABCB1的ATP水解循环进程中起关键作用，即使在没有转运底物的情况下也是如此。

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