代谢组学揭示了苯硝唑在克氏锥虫中的生物转化及多个作用靶点。

Benznidazole biotransformation and multiple targets in Trypanosoma cruzi revealed by metabolomics.

作者信息

Trochine Andrea, Creek Darren J, Faral-Tello Paula, Barrett Michael P, Robello Carlos

机构信息

Unidad de Biología Molecular, Institut Pasteur de Montevideo, Montevideo, Uruguay.

The Wellcome Trust Centre for Molecular Parasitology, Institute for Infection, Immunity and Inflammation and Glasgow Polyomics, College of Medical, Veterinary and Life Sciences, University of Glasgow, Glasgow, United Kingdom; Department of Biochemistry and Molecular Biology, Bio21 Molecular Science and Biotechnology Institute, University of Melbourne, Parkville, Victoria, Australia.

出版信息

PLoS Negl Trop Dis. 2014 May 22;8(5):e2844. doi: 10.1371/journal.pntd.0002844. eCollection 2014 May.

DOI:10.1371/journal.pntd.0002844

PMID:24853684

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4031082/

Abstract

BACKGROUND

The first line treatment for Chagas disease, a neglected tropical disease caused by the protozoan parasite Trypanosoma cruzi, involves administration of benznidazole (Bzn). Bzn is a 2-nitroimidazole pro-drug which requires nitroreduction to become active, although its mode of action is not fully understood. In the present work we used a non-targeted MS-based metabolomics approach to study the metabolic response of T. cruzi to Bzn.

METHODOLOGY/PRINCIPAL FINDINGS: Parasites treated with Bzn were minimally altered compared to untreated trypanosomes, although the redox active thiols trypanothione, homotrypanothione and cysteine were significantly diminished in abundance post-treatment. In addition, multiple Bzn-derived metabolites were detected after treatment. These metabolites included reduction products, fragments and covalent adducts of reduced Bzn linked to each of the major low molecular weight thiols: trypanothione, glutathione, γ-glutamylcysteine, glutathionylspermidine, cysteine and ovothiol A. Bzn products known to be generated in vitro by the unusual trypanosomal nitroreductase, TcNTRI, were found within the parasites, but low molecular weight adducts of glyoxal, a proposed toxic end-product of NTRI Bzn metabolism, were not detected.

CONCLUSIONS/SIGNIFICANCE: Our data is indicative of a major role of the thiol binding capacity of Bzn reduction products in the mechanism of Bzn toxicity against T. cruzi.

摘要

背景

恰加斯病是一种由原生动物寄生虫克氏锥虫引起的被忽视的热带病，其一线治疗方法包括使用苯硝唑（Bzn）。Bzn是一种2-硝基咪唑前药，需要经过硝基还原才能变得活跃，尽管其作用方式尚未完全明确。在本研究中，我们采用基于非靶向质谱的代谢组学方法来研究克氏锥虫对Bzn的代谢反应。

方法/主要发现：与未处理的锥虫相比，用Bzn处理的寄生虫变化极小，不过处理后氧化还原活性硫醇三胺基谷胱甘肽、同型三胺基谷胱甘肽和半胱氨酸的丰度显著降低。此外，处理后检测到多种Bzn衍生的代谢产物。这些代谢产物包括还原Bzn的还原产物、片段以及与每种主要低分子量硫醇相连的共价加合物：三胺基谷胱甘肽、谷胱甘肽、γ-谷氨酰半胱氨酸、谷胱甘肽亚精胺、半胱氨酸和卵硫醇A。在寄生虫体内发现了已知由不寻常的锥虫硝基还原酶TcNTRI在体外产生的Bzn产物，但未检测到乙二醛的低分子量加合物，乙二醛是NTRI Bzn代谢的一种潜在有毒终产物。

结论/意义：我们的数据表明，Bzn还原产物的硫醇结合能力在Bzn对克氏锥虫的毒性机制中起主要作用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/7b96/4031082/0dea5ba72c13/pntd.0002844.g001.jpg

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代谢组学揭示了苯硝唑在克氏锥虫中的生物转化及多个作用靶点。

Benznidazole biotransformation and multiple targets in Trypanosoma cruzi revealed by metabolomics.

作者信息

机构信息

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BACKGROUND

背景

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