Interaction between Gallotannin and a Recombinant Form of Arginine Kinase of Trypanosoma brucei: Thermodynamic and Spectrofluorimetric Evaluation.

O S Adeyemi, A F Sulaiman, O M Iniaghe
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引用次数: 3

Abstract

Current chemotherapies against trypanosomiasis are beset with diverse challenges, a situation which underscores the numerous research efforts aimed at finding newer and effective treatments. Arginine kinase of trypanosome has been validated as target for drug development against trypanosomiasis. The present study investigated the interaction between a recombinant form of the arginine kinase (rTbAK) of trypanosome and gallotannin. The interaction between gallotannin and recombinant arginine kinase of Trypanosoma brucei caused significant decrease of enzyme activity. Kinetic analysis revealed the interaction to be of noncompetitive inhibition. Further thermodynamic analysis showed that the interaction between gallotannin and the recombinant arginine kinase was nonspontaneous and involved hydrophobic forces. The K sv values and the FRET analysis suggest that static quenching of fluorescence intensity by gallotannin was static. Data revealed inhibitory interactions between gallotannin and rTbAK of trypanosome. Although the mechanism of inhibition is not clear yet, molecular docking studies are ongoing to clearly define the inhibitory interactions between the gallotannin and rTbAK. The knowledge of such binding properties would enrich development of selective inhibitors for the arginine kinase of Trypanosoma brucei.

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没菜丁宁与重组形式的布鲁氏锥虫精氨酸激酶的相互作用:热力学和荧光光谱评价。
目前针对锥虫病的化疗面临着各种挑战,这种情况强调了旨在寻找更新和有效治疗方法的大量研究工作。锥虫精氨酸激酶已被证实为抗锥虫病药物开发的靶点。本研究研究了重组形式的锥虫精氨酸激酶(rTbAK)与没食子丁宁之间的相互作用。没食子肽与重组精氨酸激酶相互作用后,酶活性显著降低。动力学分析表明相互作用为非竞争性抑制。进一步的热力学分析表明,没食子肽与重组精氨酸激酶之间的相互作用是非自发的,并且涉及疏水力。ksv值和FRET分析表明,没食子丹宁对荧光强度的静态猝灭是静态的。数据显示没食子丁宁与锥虫的rTbAK之间存在抑制相互作用。虽然抑制机制尚不清楚,但分子对接研究正在进行中,以明确没食子丹宁与rTbAK之间的抑制相互作用。了解这种结合特性将丰富布鲁氏锥虫精氨酸激酶选择性抑制剂的开发。
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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