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Proposal for a new therapy for drug-resistant malaria using Plasmodium synthetic lethality inference

•Potential antimalarial drug targets were suggested using by homology analysis of yeast–human–Plasmodium.•A antimalarial drug candidates were inferred by searching drugs that cause a fitness defect in yeast SL genes.•Information on new usage for already-described drugs are provided. Many antimalaria...

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Published in:	International journal for parasitology -- drugs and drug resistance 2013-12, Vol.3, p.119-128
Main Authors:	Lee, Sang Joon, Seo, Eunseok, Cho, Yonghyun
Format:	Article
Language:	English
Subjects:	Antimalarial therapy Drug targeting Drug-resistant malaria Synthetic lethality
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creator	Lee, Sang Joon Seo, Eunseok Cho, Yonghyun
description	•Potential antimalarial drug targets were suggested using by homology analysis of yeast–human–Plasmodium.•A antimalarial drug candidates were inferred by searching drugs that cause a fitness defect in yeast SL genes.•Information on new usage for already-described drugs are provided. Many antimalarial drugs kill malaria parasites, but antimalarial drug resistance (ADR) and toxicity to normal cells limit their usefulness. To solve this problem, we suggest a new therapy for drug-resistant malaria. The approach consists of data integration and inference through homology analysis of yeast–human–Plasmodium. If one gene of a Plasmodium synthetic lethal (SL) gene pair has a mutation that causes ADR, a drug targeting the other gene of the SL pair might be used as an effective treatment for drug-resistant strains of malaria. A simple computational tool to analyze the inferred SL genes of Plasmodium species (malaria parasites Plasmodium falciparum and Plasmodium vivax for human malarial therapy, and rodent parasite Plasmodium berghei for in vivo studies of human malarias) was established to identify SL genes that can be used as drug targets. Information on SL gene pairs with ADR genes and their first neighbors was inferred from yeast SL genes to search for pertinent antimalarial drug targets. We not only suggest drug target gene candidates for further experimental validation, but also provide information on new usage for already-described drugs. The proposed specific antimalarial drug candidates can be inferred by searching drugs that cause a fitness defect in yeast SL genes.
doi_str_mv	10.1016/j.ijpddr.2013.06.001
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Information on SL gene pairs with ADR genes and their first neighbors was inferred from yeast SL genes to search for pertinent antimalarial drug targets. We not only suggest drug target gene candidates for further experimental validation, but also provide information on new usage for already-described drugs. 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Many antimalarial drugs kill malaria parasites, but antimalarial drug resistance (ADR) and toxicity to normal cells limit their usefulness. To solve this problem, we suggest a new therapy for drug-resistant malaria. The approach consists of data integration and inference through homology analysis of yeast–human–Plasmodium. If one gene of a Plasmodium synthetic lethal (SL) gene pair has a mutation that causes ADR, a drug targeting the other gene of the SL pair might be used as an effective treatment for drug-resistant strains of malaria. A simple computational tool to analyze the inferred SL genes of Plasmodium species (malaria parasites Plasmodium falciparum and Plasmodium vivax for human malarial therapy, and rodent parasite Plasmodium berghei for in vivo studies of human malarias) was established to identify SL genes that can be used as drug targets. 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subjects	Antimalarial therapy Drug targeting Drug-resistant malaria Synthetic lethality
title	Proposal for a new therapy for drug-resistant malaria using Plasmodium synthetic lethality inference
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