A genetically hard-wired metabolic transcriptome in Plasmodium falciparum fails to mount protective responses to lethal antifolates
Genome sequences of Plasmodium falciparum allow for global analysis of drug responses to antimalarial agents. It was of interest to learn how DNA microarrays may be used to study drug action in malaria parasites. In one large, tightly controlled study involving 123 microarray hybridizations between...
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th-mahidol.188372018-07-12T09:28:55Z A genetically hard-wired metabolic transcriptome in Plasmodium falciparum fails to mount protective responses to lethal antifolates Karthikeyan Ganesan Napawan Ponmee Lei Jiang Joseph W. Fowble John White Sumalee Kamchonwongpaisan Yongyuth Yuthavong Prapon Wilairat Pradipsinh K. Rathod University of Washington, Seattle Mahidol University Thailand National Center for Genetic Engineering and Biotechnology Orchid Research Laboratories Limited Biochemistry, Genetics and Molecular Biology Immunology and Microbiology Genome sequences of Plasmodium falciparum allow for global analysis of drug responses to antimalarial agents. It was of interest to learn how DNA microarrays may be used to study drug action in malaria parasites. In one large, tightly controlled study involving 123 microarray hybridizations between cDNA from isogenic drug-sensitive and drug-resistant parasites, a lethal antifolate (WR99210) failed to over-produce RNA for the genetically proven principal target, dihydrofolate reductasethymidylate synthase (DHFR-TS). This transcriptional rigidity carried over to metabolically related RNA encoding folate and pyrimidine biosynthesis, as well as to the rest of the parasite genome. No genes were reproducibly up-regulated by more than 2-fold until 24 h after initial drug exposure, even though clonal viability decreased by 50% within 6 h. We predicted and showed that while the parasites do not mount protective transcriptional responses to antifolates in real time, P. falciparum cells transfected with human DHFR gene, and adapted to long-term WR99210 exposure, adjusted the hard-wired transcriptome itself to thrive in the presence of the drug. A system-wide incapacity for changing RNA levels in response to specific metabolic perturbations may contribute to selective vulnerabilities of Plasmodium falciparum to lethal antimetabolites. In addition, such regulation affects how DNA microarrays are used to understand the mode of action of antimetabolites. © 2008 Ganesan et al. 2018-07-12T02:16:42Z 2018-07-12T02:16:42Z 2008-11-01 Article PLoS Pathogens. Vol.4, No.11 (2008) 10.1371/journal.ppat.1000214 15537374 15537366 2-s2.0-57149109574 https://repository.li.mahidol.ac.th/handle/123456789/18837 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=57149109574&origin=inward |
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Biochemistry, Genetics and Molecular Biology Immunology and Microbiology Karthikeyan Ganesan Napawan Ponmee Lei Jiang Joseph W. Fowble John White Sumalee Kamchonwongpaisan Yongyuth Yuthavong Prapon Wilairat Pradipsinh K. Rathod A genetically hard-wired metabolic transcriptome in Plasmodium falciparum fails to mount protective responses to lethal antifolates |
| description |
Genome sequences of Plasmodium falciparum allow for global analysis of drug responses to antimalarial agents. It was of interest to learn how DNA microarrays may be used to study drug action in malaria parasites. In one large, tightly controlled study involving 123 microarray hybridizations between cDNA from isogenic drug-sensitive and drug-resistant parasites, a lethal antifolate (WR99210) failed to over-produce RNA for the genetically proven principal target, dihydrofolate reductasethymidylate synthase (DHFR-TS). This transcriptional rigidity carried over to metabolically related RNA encoding folate and pyrimidine biosynthesis, as well as to the rest of the parasite genome. No genes were reproducibly up-regulated by more than 2-fold until 24 h after initial drug exposure, even though clonal viability decreased by 50% within 6 h. We predicted and showed that while the parasites do not mount protective transcriptional responses to antifolates in real time, P. falciparum cells transfected with human DHFR gene, and adapted to long-term WR99210 exposure, adjusted the hard-wired transcriptome itself to thrive in the presence of the drug. A system-wide incapacity for changing RNA levels in response to specific metabolic perturbations may contribute to selective vulnerabilities of Plasmodium falciparum to lethal antimetabolites. In addition, such regulation affects how DNA microarrays are used to understand the mode of action of antimetabolites. © 2008 Ganesan et al. |
| author2 |
University of Washington, Seattle |
| author_facet |
University of Washington, Seattle Karthikeyan Ganesan Napawan Ponmee Lei Jiang Joseph W. Fowble John White Sumalee Kamchonwongpaisan Yongyuth Yuthavong Prapon Wilairat Pradipsinh K. Rathod |
| format |
Article |
| author |
Karthikeyan Ganesan Napawan Ponmee Lei Jiang Joseph W. Fowble John White Sumalee Kamchonwongpaisan Yongyuth Yuthavong Prapon Wilairat Pradipsinh K. Rathod |
| author_sort |
Karthikeyan Ganesan |
| title |
A genetically hard-wired metabolic transcriptome in Plasmodium falciparum fails to mount protective responses to lethal antifolates |
| title_short |
A genetically hard-wired metabolic transcriptome in Plasmodium falciparum fails to mount protective responses to lethal antifolates |
| title_full |
A genetically hard-wired metabolic transcriptome in Plasmodium falciparum fails to mount protective responses to lethal antifolates |
| title_fullStr |
A genetically hard-wired metabolic transcriptome in Plasmodium falciparum fails to mount protective responses to lethal antifolates |
| title_full_unstemmed |
A genetically hard-wired metabolic transcriptome in Plasmodium falciparum fails to mount protective responses to lethal antifolates |
| title_sort |
genetically hard-wired metabolic transcriptome in plasmodium falciparum fails to mount protective responses to lethal antifolates |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/18837 |
| _version_ |
1763490824591507456 |