硫氧还蛋白-谷胱甘肽还原酶(TGR)滞回动力学行为的机理基础研究。

Q2 Biochemistry, Genetics and Molecular Biology Enzyme Research Pub Date : 2018-09-05 eCollection Date: 2018-01-01 DOI:10.1155/2018/3215462
Juan L Rendón, Mauricio Miranda-Leyva, Alberto Guevara-Flores, José de Jesús Martínez-González, Irene Patricia Del Arenal, Oscar Flores-Herrera, Juan P Pardo
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引用次数: 2

摘要

对囊尾蚴中硫氧还蛋白-谷胱甘肽还原酶(TGR)进行了动力学研究。初速度实验和产物抑制实验结果表明,该酶遵循一个双向乒乓动力学机制,即底物和产物都以快速平衡的方式结合。底物GSSG在中等或高浓度时发挥抑制作用,并伴有滞回样进展曲线的观察。研究了NADPH对TGR表观滞后行为的影响。在低浓度NADPH和中等浓度GSSG存在的情况下,观察到非典型的时间进展曲线,包括最初的爆发样阶段,随后是滞后期,滞后期的幅度和持续时间取决于NADPH和GSSG的浓度。基于所有关于TGR的动力学和结构证据,建立了基于机理的模型。该模型假设GSSG的非竞争性抑制模式,其中二硫化物通过其在替代位点的结合和还原,作为亲和标签样试剂,导致酶进入非活性状态。模型的临界点是抑制GSSG-酶复合物中残留的GSSG还原酶活性的持久性和GSH对活性形式的酶的再生。因此,TGR还原GSSG的滞后样进展曲线是GSH和GSSG之间持续竞争的结果,分别将酶驱动到活性或非活性状态。利用一组任意但一致的速率常数,在计算机上成功地再现了实验的全过程曲线。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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Insight into the Mechanistic Basis of the Hysteretic-Like Kinetic Behavior of Thioredoxin-Glutathione Reductase (TGR).

A kinetic study of thioredoxin-glutathione reductase (TGR) from Taenia crassiceps metacestode (cysticerci) was carried out. The results obtained from both initial velocity and product inhibition experiments suggest the enzyme follows a two-site ping-pong bi bi kinetic mechanism, in which both substrates and products are bound in rapid equilibrium fashion. The substrate GSSG exerts inhibition at moderate or high concentrations, which is concomitant with the observation of hysteretic-like progress curves. The effect of NADPH on the apparent hysteretic behavior of TGR was also studied. At low concentrations of NADPH in the presence of moderate concentrations of GSSG, atypical time progress curves were observed, consisting of an initial burst-like stage, followed by a lag whose amplitude and duration depended on the concentration of both NADPH and GSSG. Based on all the kinetic and structural evidence available on TGR, a mechanism-based model was developed. The model assumes a noncompetitive mode of inhibition by GSSG in which the disulfide behaves as an affinity label-like reagent through its binding and reduction at an alternative site, leading the enzyme into an inactive state. The critical points of the model are the persistence of residual GSSG reductase activity in the inhibited GSSG-enzyme complexes and the regeneration of the active form of the enzyme by GSH. Hence, the hysteretic-like progress curves of GSSG reduction by TGR are the result of a continuous competition between GSH and GSSG for driving the enzyme into active or inactive states, respectively. By using an arbitrary but consistent set of rate constants, the experimental full progress curves were successfully reproduced in silico.

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Enzyme Research
Enzyme Research Biochemistry, Genetics and Molecular Biology-Biochemistry
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