Mapping the genomic landscape of multidrug resistance in Plasmodium falciparum and its impact on parasite fitness
Drug-resistant Plasmodium falciparum parasites have swept across Southeast Asia and now threaten Africa. By implementing a P. falciparum genetic cross using humanized mice, we report the identification of key determinants of resistance to artemisinin (ART) and piperaquine (PPQ) in the dominant Asian...
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sg-ntu-dr.10356-1738152024-03-04T15:32:32Z Mapping the genomic landscape of multidrug resistance in Plasmodium falciparum and its impact on parasite fitness Mok, Sachel Yeo, Tomas Hong, Davin Shears, Melanie J. Ross, Leila S. Ward, Kurt E. Dhingra, Satish K. Kanai, Mariko Bridgford, Jessica L. Tripathi, Abhai K. Mlambo, Godfree Burkhard, Anna Y. Ansbro, Megan R. Fairhurst, Kate J. Gil-Iturbe, Eva Park, Heekuk Rozenberg, Felix D. Kim, Jonathan Mancia, Filippo Fairhurst, Rick M. Quick, Matthias Uhlemann, Anne-Catrin Sinnis, Photini Fidock, David A. School of Biological Sciences Medicine, Health and Life Sciences Drug resistance Genetics Drug-resistant Plasmodium falciparum parasites have swept across Southeast Asia and now threaten Africa. By implementing a P. falciparum genetic cross using humanized mice, we report the identification of key determinants of resistance to artemisinin (ART) and piperaquine (PPQ) in the dominant Asian KEL1/PLA1 lineage. We mapped k13 as the central mediator of ART resistance in vitro and identified secondary markers. Applying bulk segregant analysis, quantitative trait loci mapping using 34 recombinant haplotypes, and gene editing, our data reveal an epistatic interaction between mutant PfCRT and multicopy plasmepsins 2/3 in mediating high-grade PPQ resistance. Susceptibility and parasite fitness assays implicate PPQ as a driver of selection for KEL1/PLA1 parasites. Mutant PfCRT enhanced susceptibility to lumefantrine, the first-line partner drug in Africa, highlighting a potential benefit of opposing selective pressures with this drug and PPQ. We also identified that the ABCI3 transporter can operate in concert with PfCRT and plasmepsins 2/3 in mediating multigenic resistance to antimalarial agents. Published version This work was supported by the Bill & Melinda Gates Foundation (OPP1201387 to D.A.F.), the US National Institutes of Health (R01 AI109023, AI050234, and AI124678 to D.A.F.; R21 AI159558 to S.K.D. and D.A.F.; R01 AI147628 to F.M., M.Q., and D.A.F.; and R01AI132359 to P.S.), and Bloomberg Philanthropies for support of the insectary and parasitology core facilities at the Johns Hopkins Malaria Research Institute. S.M. is a recipient of the Human Frontiers Science Program Long-Term Fellowship (LT000976/2016-L). D.H. received funding support from the Nanyang Technological University CN Yang Scholars Program. M.J.S. was a recipient of the Johns Hopkins Provost Postdoctoral Fellowship. M.K. received funding support from the Japanese Student Services Organization and New York Hideyo Noguchi Memorial Scholarship. J.L.B. is a recipient of the American-Australian Association Graduate Education Fund scholarship. 2024-02-28T08:16:41Z 2024-02-28T08:16:41Z 2023 Journal Article Mok, S., Yeo, T., Hong, D., Shears, M. J., Ross, L. S., Ward, K. E., Dhingra, S. K., Kanai, M., Bridgford, J. L., Tripathi, A. K., Mlambo, G., Burkhard, A. Y., Ansbro, M. R., Fairhurst, K. J., Gil-Iturbe, E., Park, H., Rozenberg, F. D., Kim, J., Mancia, F., ...Fidock, D. A. (2023). Mapping the genomic landscape of multidrug resistance in Plasmodium falciparum and its impact on parasite fitness. Science Advances, 9(45), eadi2364-. https://dx.doi.org/10.1126/sciadv.adi2364 2375-2548 https://hdl.handle.net/10356/173815 10.1126/sciadv.adi2364 37939186 2-s2.0-85176465760 45 9 eadi2364 en Science Advances © 2023 The Authors, some rights reserved; exclusive licensee American Associationfor the Advancementof Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution License 4.0 (CC BY). application/pdf |
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Medicine, Health and Life Sciences Drug resistance Genetics |
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Medicine, Health and Life Sciences Drug resistance Genetics Mok, Sachel Yeo, Tomas Hong, Davin Shears, Melanie J. Ross, Leila S. Ward, Kurt E. Dhingra, Satish K. Kanai, Mariko Bridgford, Jessica L. Tripathi, Abhai K. Mlambo, Godfree Burkhard, Anna Y. Ansbro, Megan R. Fairhurst, Kate J. Gil-Iturbe, Eva Park, Heekuk Rozenberg, Felix D. Kim, Jonathan Mancia, Filippo Fairhurst, Rick M. Quick, Matthias Uhlemann, Anne-Catrin Sinnis, Photini Fidock, David A. Mapping the genomic landscape of multidrug resistance in Plasmodium falciparum and its impact on parasite fitness |
| description |
Drug-resistant Plasmodium falciparum parasites have swept across Southeast Asia and now threaten Africa. By implementing a P. falciparum genetic cross using humanized mice, we report the identification of key determinants of resistance to artemisinin (ART) and piperaquine (PPQ) in the dominant Asian KEL1/PLA1 lineage. We mapped k13 as the central mediator of ART resistance in vitro and identified secondary markers. Applying bulk segregant analysis, quantitative trait loci mapping using 34 recombinant haplotypes, and gene editing, our data reveal an epistatic interaction between mutant PfCRT and multicopy plasmepsins 2/3 in mediating high-grade PPQ resistance. Susceptibility and parasite fitness assays implicate PPQ as a driver of selection for KEL1/PLA1 parasites. Mutant PfCRT enhanced susceptibility to lumefantrine, the first-line partner drug in Africa, highlighting a potential benefit of opposing selective pressures with this drug and PPQ. We also identified that the ABCI3 transporter can operate in concert with PfCRT and plasmepsins 2/3 in mediating multigenic resistance to antimalarial agents. |
| author2 |
School of Biological Sciences |
| author_facet |
School of Biological Sciences Mok, Sachel Yeo, Tomas Hong, Davin Shears, Melanie J. Ross, Leila S. Ward, Kurt E. Dhingra, Satish K. Kanai, Mariko Bridgford, Jessica L. Tripathi, Abhai K. Mlambo, Godfree Burkhard, Anna Y. Ansbro, Megan R. Fairhurst, Kate J. Gil-Iturbe, Eva Park, Heekuk Rozenberg, Felix D. Kim, Jonathan Mancia, Filippo Fairhurst, Rick M. Quick, Matthias Uhlemann, Anne-Catrin Sinnis, Photini Fidock, David A. |
| format |
Article |
| author |
Mok, Sachel Yeo, Tomas Hong, Davin Shears, Melanie J. Ross, Leila S. Ward, Kurt E. Dhingra, Satish K. Kanai, Mariko Bridgford, Jessica L. Tripathi, Abhai K. Mlambo, Godfree Burkhard, Anna Y. Ansbro, Megan R. Fairhurst, Kate J. Gil-Iturbe, Eva Park, Heekuk Rozenberg, Felix D. Kim, Jonathan Mancia, Filippo Fairhurst, Rick M. Quick, Matthias Uhlemann, Anne-Catrin Sinnis, Photini Fidock, David A. |
| author_sort |
Mok, Sachel |
| title |
Mapping the genomic landscape of multidrug resistance in Plasmodium falciparum and its impact on parasite fitness |
| title_short |
Mapping the genomic landscape of multidrug resistance in Plasmodium falciparum and its impact on parasite fitness |
| title_full |
Mapping the genomic landscape of multidrug resistance in Plasmodium falciparum and its impact on parasite fitness |
| title_fullStr |
Mapping the genomic landscape of multidrug resistance in Plasmodium falciparum and its impact on parasite fitness |
| title_full_unstemmed |
Mapping the genomic landscape of multidrug resistance in Plasmodium falciparum and its impact on parasite fitness |
| title_sort |
mapping the genomic landscape of multidrug resistance in plasmodium falciparum and its impact on parasite fitness |
| publishDate |
2024 |
| url |
https://hdl.handle.net/10356/173815 |
| _version_ |
1794549448463876096 |