Screening the Medicines for Malaria Venture "Malaria Box" against the Plasmodium falciparum aminopeptidases, M1, M17 and M18.

Alessandro Paiardini,Shailesh N. Mistry,Komagal Kannan-Sivaraman,Nyssa Drinkwater,Sheena McGowan,Rebecca S. Bamert,Peter J. Scammells,Juan Carlos Pizarro

doi:10.1371/journal.pone.0115859

Alessandro Paiardini, Shailesh N. Mistry + Show 6 more

Open Access

https://doi.org/10.1371/journal.pone.0115859

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Journal: PloS one	Publication Date: Feb 20, 2015
Citations: 36	License type: CC BY 4.0

Affiliation: Sapienza University of Rome, Monash University

Abstract

Malaria is a parasitic disease that remains a global health burden. The ability of the parasite to rapidly develop resistance to therapeutics drives an urgent need for the delivery of new drugs. The Medicines for Malaria Venture have compounds known for their antimalarial activity, but not necessarily the molecular targets. In this study, we assess the ability of the “MMV 400” compounds to inhibit the activity of three metalloaminopeptidases from Plasmodium falciparum, PfA-M1, PfA-M17 and PfM18 AAP. We have developed a multiplex assay system to allow rapid primary screening of compounds against all three metalloaminopeptidases, followed by detailed analysis of promising compounds. Our results show that there were no PfM18AAP inhibitors, whereas two moderate inhibitors of the neutral aminopeptidases PfA-M1 and PfA-M17 were identified. Further investigation through structure-activity relationship studies and molecular docking suggest that these compounds are competitive inhibitors with novel binding mechanisms, acting through either non-classical zinc coordination or independently of zinc binding altogether. Although it is unlikely that inhibition of PfA-M1 and/or PfA-M17 is the primary mechanism responsible for the antiplasmodial activity reported for these compounds, their detailed characterization, as presented in this work, pave the way for their further optimization as a novel class of dual PfA-M1/PfA-M17 inhibitors utilising non-classical zinc binding groups.

Highlights

IntroductionScreening the Malaria Box against P. falciparum Aminopeptidases is necessary to overcome the spread of malaria parasites that have become resistant to currently available drugs [2]
Malaria is a tropical disease that is caused by infection of the protozoan parasites of the genus Plasmodium
Screening the Malaria Box against P. falciparum Aminopeptidases is necessary to overcome the spread of malaria parasites that have become resistant to currently available drugs [2]

Summary

Introduction

Screening the Malaria Box against P. falciparum Aminopeptidases is necessary to overcome the spread of malaria parasites that have become resistant to currently available drugs [2]. To catalyse drug discovery and research, the non-profit foundation Medicines for Malaria Venture (MMV) and SCYNEXIS have provided a compound library (MMV400) for the research community [3]. These compounds are known for their antimalarial activity but their molecular targets and mode of action are not necessarily known. The MMV400 'Malaria Box' contains 200 drug-like compounds (for oral drug discovery and development) and 200 probe-like compounds for use as biological tools in malaria research. The compounds have been tested for cytotoxicity and are within levels considered acceptable for an initial drug discovery programme [3]

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