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一氧化碳和华法林与亚铁人血清血红素白蛋白结合的相互变构调节。

Reciprocal allosteric modulation of carbon monoxide and warfarin binding to ferrous human serum heme-albumin.

机构信息

Department of Clinical Sciences and Translational Medicine, University of Roma Tor Vergata, Roma, Italy.

出版信息

PLoS One. 2013;8(3):e58842. doi: 10.1371/journal.pone.0058842. Epub 2013 Mar 21.

DOI:10.1371/journal.pone.0058842
PMID:23555601
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3605432/
Abstract

Human serum albumin (HSA), the most abundant protein in human plasma, could be considered as a prototypic monomeric allosteric protein, since the ligand-dependent conformational adaptability of HSA spreads beyond the immediate proximity of the binding site(s). As a matter of fact, HSA is a major transport protein in the bloodstream and the regulation of the functional allosteric interrelationships between the different binding sites represents a fundamental information for the knowledge of its transport function. Here, kinetics and thermodynamics of the allosteric modulation: (i) of carbon monoxide (CO) binding to ferrous human serum heme-albumin (HSA-heme-Fe(II)) by warfarin (WF), and (ii) of WF binding to HSA-heme-Fe(II) by CO are reported. All data were obtained at pH 7.0 and 25°C. Kinetics of CO and WF binding to the FA1 and FA7 sites of HSA-heme-Fe(II), respectively, follows a multi-exponential behavior (with the same relative percentage for the two ligands). This can be accounted for by the existence of multiple conformations and/or heme-protein axial coordination forms of HSA-heme-Fe(II). The HSA-heme-Fe(II) populations have been characterized by resonance Raman spectroscopy, indicating the coexistence of different species characterized by four-, five- and six-coordination of the heme-Fe atom. As a whole, these results suggest that: (i) upon CO binding a conformational change of HSA-heme-Fe(II) takes place (likely reflecting the displacement of an endogenous ligand by CO), and (ii) CO and/or WF binding brings about a ligand-dependent variation of the HSA-heme-Fe(II) population distribution of the various coordinating species. The detailed thermodynamic and kinetic analysis here reported allows a quantitative description of the mutual allosteric effect of CO and WF binding to HSA-heme-Fe(II).

摘要

人血清白蛋白(HSA)是人类血浆中最丰富的蛋白质,可被视为典型的单体变构蛋白,因为 HSA 的配体依赖性构象适应性超出了结合部位的直接邻近范围。事实上,HSA 是血液中的主要转运蛋白,不同结合部位之间功能变构相互关系的调节代表了其转运功能知识的基本信息。本文报道了变构调节的动力学和热力学:(i)华法林(WF)对亚铁人血清血红素白蛋白(HSA-heme-Fe(II))与一氧化碳(CO)结合的调节,以及(ii)CO 对 HSA-heme-Fe(II)与 WF 结合的调节。所有数据均在 pH 7.0 和 25°C 下获得。CO 和 WF 分别与 HSA-heme-Fe(II)的 FA1 和 FA7 位点的结合动力学遵循多指数行为(两种配体的相对百分比相同)。这可以用 HSA-heme-Fe(II)的多种构象和/或血红素-蛋白质轴向配位形式的存在来解释。通过共振拉曼光谱对 HSA-heme-Fe(II)的种群进行了表征,表明存在不同物种,其特征是血红素-Fe 原子的四、五和六配位。总的来说,这些结果表明:(i)CO 结合后,HSA-heme-Fe(II)发生构象变化(可能反映 CO 取代内源性配体),(ii)CO 和/或 WF 结合导致 HSA-heme-Fe(II)的各种配位物种的种群分布发生配体依赖性变化。本文报道的详细热力学和动力学分析允许对 CO 和 WF 与 HSA-heme-Fe(II)结合的相互变构效应进行定量描述。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/219a/3605432/46fe3856577d/pone.0058842.g010.jpg
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