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一种用于鉴定具有生物学相关性的疟疾传播阻断药物的雌雄配子体功能活力测定法。

A male and female gametocyte functional viability assay to identify biologically relevant malaria transmission-blocking drugs.

作者信息

Ruecker A, Mathias D K, Straschil U, Churcher T S, Dinglasan R R, Leroy D, Sinden R E, Delves M J

机构信息

Department of Life Sciences, Imperial College, London, United Kingdom.

W. Harry Feinstone Department of Molecular Microbiology and Immunology and the Malaria Research Institute, Johns Hopkins Bloomberg School of Public Health, Baltimore, Maryland, USA.

出版信息

Antimicrob Agents Chemother. 2014 Dec;58(12):7292-302. doi: 10.1128/AAC.03666-14. Epub 2014 Sep 29.

DOI:10.1128/AAC.03666-14
PMID:25267664
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4249523/
Abstract

Malaria elimination will require interventions that prevent parasite transmission from the human host to the mosquito. Experimentally, this is usually determined by the expensive and laborious Plasmodium falciparum standard membrane feeding assay (PfSMFA), which has limited utility for high-throughput drug screening. In response, we developed the P. falciparum dual gamete formation assay (PfDGFA), which faithfully simulates the initial stages of the PfSMFA in vitro. It utilizes a dual readout that individually and simultaneously reports on the functional viability of male and female mature stage V gametocytes. To validate, we screen the Medicines for Malaria Venture (MMV) Malaria Box library with the PfDGFA. Unique to this assay, we find compounds that target male gametocytes only and also compounds with reversible and irreversible activity. Most importantly, we show that compound activity in the PfDGFA accurately predicts activity in PfSMFAs, which validates and supports its adoption into the transmission-stage screening pipeline.

摘要

疟疾消除需要采取干预措施来防止疟原虫从人类宿主传播到蚊子。在实验中,这通常通过昂贵且费力的恶性疟原虫标准膜饲育试验(PfSMFA)来确定,该试验在高通量药物筛选中的效用有限。作为回应,我们开发了恶性疟原虫双配子形成试验(PfDGFA),它在体外忠实地模拟了PfSMFA的初始阶段。它利用双读数分别并同时报告雄性和雌性成熟V期配子体的功能活力。为了进行验证,我们用PfDGFA筛选了疟疾药物事业(MMV)疟疾盒文库。该试验的独特之处在于,我们发现了仅靶向雄配子体的化合物以及具有可逆和不可逆活性的化合物。最重要的是,我们表明PfDGFA中的化合物活性准确预测了PfSMFA中的活性,这验证并支持将其纳入传播阶段筛选流程。

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