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一种催化失活的同源物对锥虫必需多胺生物合成酶的变构调节。

Allosteric regulation of an essential trypanosome polyamine biosynthetic enzyme by a catalytically dead homolog.

作者信息

Willert Erin K, Fitzpatrick Richard, Phillips Margaret A

机构信息

Department of Pharmacology, University of Texas Southwestern Medical Center, 6001 Forest Park Road, Dallas, TX 75390-9041, USA.

出版信息

Proc Natl Acad Sci U S A. 2007 May 15;104(20):8275-80. doi: 10.1073/pnas.0701111104. Epub 2007 May 7.

DOI:10.1073/pnas.0701111104
PMID:17485680
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1895940/
Abstract

African sleeping sickness is a fatal disease that is caused by the protozoan parasite Trypanosoma brucei. Polyamine biosynthesis is an essential pathway in the parasite and is a validated drug target for treatment of the disease. S-adenosylmethionine decarboxylase (AdoMetDC) catalyzes a key step in polyamine biosynthesis. Here, we show that trypanosomatids uniquely contain both a functional AdoMetDC and a paralog designated prozyme that has lost catalytic activity. The T. brucei prozyme forms a high-affinity heterodimer with AdoMetDC that stimulates its activity by 1,200-fold. Both genes are expressed in T. brucei, and analysis of AdoMetDC activity in T. brucei extracts supports the finding that the heterodimer is the functional enzyme in vivo. Thus, prozyme has evolved to be a catalytically dead but allosterically active subunit of AdoMetDC, providing an example of how regulators of multimeric enzymes can evolve through gene duplication and mutational drift. These data identify a distinct mechanism for regulating AdoMetDC in the parasite that suggests new strategies for the development of parasite-specific inhibitors of the polyamine biosynthetic pathway.

摘要

非洲昏睡病是一种由原生动物寄生虫布氏锥虫引起的致命疾病。多胺生物合成是该寄生虫的一条必需途径,也是治疗该疾病的一个经过验证的药物靶点。S-腺苷甲硫氨酸脱羧酶(AdoMetDC)催化多胺生物合成中的关键一步。在此,我们表明锥虫独特地同时含有一种有功能的AdoMetDC和一个已失去催化活性的旁系同源物,称为前酶。布氏锥虫前酶与AdoMetDC形成高亲和力异二聚体,可将其活性提高1200倍。这两个基因在布氏锥虫中均有表达,对布氏锥虫提取物中AdoMetDC活性的分析支持了异二聚体是体内功能酶这一发现。因此,前酶已进化成为AdoMetDC的一个催化失活但别构活性的亚基,为多聚体酶的调节因子如何通过基因复制和突变漂变进化提供了一个例子。这些数据确定了该寄生虫中调节AdoMetDC的一种独特机制,为开发多胺生物合成途径的寄生虫特异性抑制剂提出了新策略。

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