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谷胱甘肽和谷胱甘肽亚精胺的醛类和次膦酸酯类似物:大肠杆菌双功能谷胱甘肽亚精胺合成酶/酰胺酶的强效、选择性结合抑制剂。

Aldehyde and phosphinate analogs of glutathione and glutathionylspermidine: potent, selective binding inhibitors of the E. coli bifunctional glutathionylspermidine synthetase/amidase.

作者信息

Lin C H, Chen S, Kwon D S, Coward J K, Walsh C T

机构信息

Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, 240 Longwood Avenue, Boston, MA 02115, USA.

出版信息

Chem Biol. 1997 Nov;4(11):859-66. doi: 10.1016/s1074-5521(97)90118-6.

DOI:10.1016/s1074-5521(97)90118-6
PMID:9384533
Abstract

INTRODUCTION

The tripeptide glutathione is converted to glutathionylspermidine (Gsp) in Escherichia coli and in trypanosomatid parasites by an ATP-cleaving Gsp synthetase activity. In parasites, an additional glutathionylation forms bis-(glutathionyl)-spermidine, trypanothione, believed to be the major surveillance thiol involved in oxidant defense mechanisms in trypanosomatid parasites. In E. coli, the Gsp synthetase is part of a bifunctional enzyme opposed by the hydrolytic Gsp amidase.

RESULTS

Gsp amidase and Gsp synthetase activities of the bifunctional E. coli enzyme can be separately targeted by potent, selective slow-binding inhibitors that induce time-dependent inhibition. The inhibitor gamma-Glu-Ala-Gly.CHO most probably captures Cys59 and accumulates as the tetrahedral adduct in the amidase active site. Inhibitory Gsp phosphinate analogs are phosphorylated by ATP to yield phosphinophosphate analogs in the synthetase active site. Binding of phosphinophosphate in the Gsp synthetase active site potentiates the inhibition affinity for the aldehyde at the Gsp amidase active site by two orders of magnitude.

CONCLUSIONS

Time-dependent inhibition of the Gsp amidase activity by the aldehyde substrate analog supports previous work that suggests glutathionyl acyl-enzyme intermediate formation in the Gsp amidase reaction mechanism. Use of potent selective inhibitors against Gsp amidase (aldehyde) and Gsp synthetase (phosphinate) activities provides further evidence of interdomain communication in the bifunctional enzyme from E. coli.

摘要

引言

在大肠杆菌和锥虫寄生虫中,三肽谷胱甘肽通过一种消耗ATP的谷胱甘氨酰亚精胺合成酶活性转化为谷胱甘氨酰亚精胺(Gsp)。在寄生虫中,额外的谷胱甘肽化形成双(谷胱甘氨酰)亚精胺,即锥虫硫醇,被认为是参与锥虫寄生虫氧化防御机制的主要监测硫醇。在大肠杆菌中,Gsp合成酶是一种双功能酶的一部分,该双功能酶与水解性Gsp酰胺酶相对。

结果

大肠杆菌双功能酶的Gsp酰胺酶和Gsp合成酶活性可分别被强效、选择性的慢结合抑制剂靶向,这些抑制剂会诱导时间依赖性抑制。抑制剂γ-Glu-Ala-Gly.CHO最有可能捕获Cys59并以四面体加合物的形式在酰胺酶活性位点积累。抑制性Gsp次膦酸类似物被ATP磷酸化,在合成酶活性位点产生膦酰磷酸类似物。膦酰磷酸在Gsp合成酶活性位点的结合使对Gsp酰胺酶活性位点醛的抑制亲和力增强两个数量级。

结论

醛底物类似物对Gsp酰胺酶活性的时间依赖性抑制支持了先前的研究工作,该研究表明在Gsp酰胺酶反应机制中形成了谷胱甘氨酰酰基酶中间体。使用针对Gsp酰胺酶(醛)和Gsp合成酶(次膦酸)活性的强效选择性抑制剂,进一步证明了大肠杆菌双功能酶中结构域间的通讯。

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