Population genomics and transcriptomics of Plasmodium falciparum in Cambodia and Vietnam uncover key components of the artemisinin resistance genetic background
The emergence of Plasmodium falciparum parasites resistant to artemisinins compromises the efficacy of Artemisinin Combination Therapies (ACTs), the global first-line malaria treatment. Artemisinin resistance is a complex genetic trait in which nonsynonymous SNPs in PfK13 cooperate with other geneti...
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2025
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Medicine, Health and Life Sciences Artemisinin Antimalarial agent |
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Medicine, Health and Life Sciences Artemisinin Antimalarial agent Nayak, Sourav Peto, Thomas J. Kucharski, Michal Tripura, Rupam Callery, James J. Duong, Tien Quang Huy Gendrot, Mathieu Lek, Dysoley Ho, Dang Trung Nghia van der Pluijm, Rob W. Nguyen, Dong Le, Thanh Long Vongpromek, Ranitha Rekol, Huy Nguyen, Hoang Chau Miotto, Olivo Mukaka, Mavuto Dhorda, Mehul von Seidlein, Lorenz Imwong, Mallika Roca, Xavier Day, Nicholas P. J. White, Nicholas J. Dondorp, Arjen M. Bozdech, Zbynek Population genomics and transcriptomics of Plasmodium falciparum in Cambodia and Vietnam uncover key components of the artemisinin resistance genetic background |
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The emergence of Plasmodium falciparum parasites resistant to artemisinins compromises the efficacy of Artemisinin Combination Therapies (ACTs), the global first-line malaria treatment. Artemisinin resistance is a complex genetic trait in which nonsynonymous SNPs in PfK13 cooperate with other genetic variations. Here, we present population genomic/transcriptomic analyses of P. falciparum collected from patients with uncomplicated malaria in Cambodia and Vietnam between 2018 and 2020. Besides the PfK13 SNPs, several polymorphisms, including nonsynonymous SNPs (N1131I and N821K) in PfRad5 and an intronic SNP in PfWD11 (WD40 repeat-containing protein on chromosome 11), appear to be associated with artemisinin resistance, possibly as new markers. There is also a defined set of genes whose steady-state levels of mRNA and/or splice variants or antisense transcripts correlate with artemisinin resistance at the base level. In vivo transcriptional responses to artemisinins indicate the resistant parasite's capacity to decelerate its intraerythrocytic developmental cycle (IDC), which can contribute to the resistant phenotype. During this response, PfRAD5 and PfWD11 upregulate their respective alternatively/aberrantly spliced isoforms, suggesting their contribution to the protective response to artemisinins. PfRAD5 and PfWD11 appear under selective pressure in the Greater Mekong Sub-region over the last decade, suggesting their role in the genetic background of the artemisinin resistance. |
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School of Biological Sciences Nayak, Sourav Peto, Thomas J. Kucharski, Michal Tripura, Rupam Callery, James J. Duong, Tien Quang Huy Gendrot, Mathieu Lek, Dysoley Ho, Dang Trung Nghia van der Pluijm, Rob W. Nguyen, Dong Le, Thanh Long Vongpromek, Ranitha Rekol, Huy Nguyen, Hoang Chau Miotto, Olivo Mukaka, Mavuto Dhorda, Mehul von Seidlein, Lorenz Imwong, Mallika Roca, Xavier Day, Nicholas P. J. White, Nicholas J. Dondorp, Arjen M. Bozdech, Zbynek |
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Article |
| author |
Nayak, Sourav Peto, Thomas J. Kucharski, Michal Tripura, Rupam Callery, James J. Duong, Tien Quang Huy Gendrot, Mathieu Lek, Dysoley Ho, Dang Trung Nghia van der Pluijm, Rob W. Nguyen, Dong Le, Thanh Long Vongpromek, Ranitha Rekol, Huy Nguyen, Hoang Chau Miotto, Olivo Mukaka, Mavuto Dhorda, Mehul von Seidlein, Lorenz Imwong, Mallika Roca, Xavier Day, Nicholas P. J. White, Nicholas J. Dondorp, Arjen M. Bozdech, Zbynek |
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Nayak, Sourav |
| title |
Population genomics and transcriptomics of Plasmodium falciparum in Cambodia and Vietnam uncover key components of the artemisinin resistance genetic background |
| title_short |
Population genomics and transcriptomics of Plasmodium falciparum in Cambodia and Vietnam uncover key components of the artemisinin resistance genetic background |
| title_full |
Population genomics and transcriptomics of Plasmodium falciparum in Cambodia and Vietnam uncover key components of the artemisinin resistance genetic background |
| title_fullStr |
Population genomics and transcriptomics of Plasmodium falciparum in Cambodia and Vietnam uncover key components of the artemisinin resistance genetic background |
| title_full_unstemmed |
Population genomics and transcriptomics of Plasmodium falciparum in Cambodia and Vietnam uncover key components of the artemisinin resistance genetic background |
| title_sort |
population genomics and transcriptomics of plasmodium falciparum in cambodia and vietnam uncover key components of the artemisinin resistance genetic background |
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2025 |
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https://hdl.handle.net/10356/182046 |
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1821237126224674816 |
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sg-ntu-dr.10356-1820462025-01-06T15:32:22Z Population genomics and transcriptomics of Plasmodium falciparum in Cambodia and Vietnam uncover key components of the artemisinin resistance genetic background Nayak, Sourav Peto, Thomas J. Kucharski, Michal Tripura, Rupam Callery, James J. Duong, Tien Quang Huy Gendrot, Mathieu Lek, Dysoley Ho, Dang Trung Nghia van der Pluijm, Rob W. Nguyen, Dong Le, Thanh Long Vongpromek, Ranitha Rekol, Huy Nguyen, Hoang Chau Miotto, Olivo Mukaka, Mavuto Dhorda, Mehul von Seidlein, Lorenz Imwong, Mallika Roca, Xavier Day, Nicholas P. J. White, Nicholas J. Dondorp, Arjen M. Bozdech, Zbynek School of Biological Sciences Medicine, Health and Life Sciences Artemisinin Antimalarial agent The emergence of Plasmodium falciparum parasites resistant to artemisinins compromises the efficacy of Artemisinin Combination Therapies (ACTs), the global first-line malaria treatment. Artemisinin resistance is a complex genetic trait in which nonsynonymous SNPs in PfK13 cooperate with other genetic variations. Here, we present population genomic/transcriptomic analyses of P. falciparum collected from patients with uncomplicated malaria in Cambodia and Vietnam between 2018 and 2020. Besides the PfK13 SNPs, several polymorphisms, including nonsynonymous SNPs (N1131I and N821K) in PfRad5 and an intronic SNP in PfWD11 (WD40 repeat-containing protein on chromosome 11), appear to be associated with artemisinin resistance, possibly as new markers. There is also a defined set of genes whose steady-state levels of mRNA and/or splice variants or antisense transcripts correlate with artemisinin resistance at the base level. In vivo transcriptional responses to artemisinins indicate the resistant parasite's capacity to decelerate its intraerythrocytic developmental cycle (IDC), which can contribute to the resistant phenotype. During this response, PfRAD5 and PfWD11 upregulate their respective alternatively/aberrantly spliced isoforms, suggesting their contribution to the protective response to artemisinins. PfRAD5 and PfWD11 appear under selective pressure in the Greater Mekong Sub-region over the last decade, suggesting their role in the genetic background of the artemisinin resistance. Ministry of Education (MOE) National Medical Research Council (NMRC) Published version The authors thank the funding agencies for supporting this work, including the Singapore Ministry of Education (grant # MOE2019-T3-1- 007) (Z.B.) and The Singapore National Medical Research Council (grant # MOH-001107) (Z.B.). 2025-01-06T06:27:39Z 2025-01-06T06:27:39Z 2024 Journal Article Nayak, S., Peto, T. J., Kucharski, M., Tripura, R., Callery, J. J., Duong, T. Q. H., Gendrot, M., Lek, D., Ho, D. T. N., van der Pluijm, R. W., Nguyen, D., Le, T. L., Vongpromek, R., Rekol, H., Nguyen, H. C., Miotto, O., Mukaka, M., Dhorda, M., von Seidlein, L., ...Bozdech, Z. (2024). Population genomics and transcriptomics of Plasmodium falciparum in Cambodia and Vietnam uncover key components of the artemisinin resistance genetic background. Nature Communications, 15(1), 10625-. https://dx.doi.org/10.1038/s41467-024-54915-6 2041-1723 https://hdl.handle.net/10356/182046 10.1038/s41467-024-54915-6 39639029 2-s2.0-85211170705 1 15 10625 en MOE2019-T3-1-007 MOH-001107 Nature Communications © 2024 The Author(s). Open Access. This article is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License, which permits any non-commercial use, sharing, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons licence, and indicate if you modified the licensed material. You do not have permission under this licence to share adapted material derived from this article or parts of it. The images or other third party material in this article are included in the article’s Creative Commons licence, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons licence and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this licence, visit http:// creativecommons.org/licenses/by-nc-nd/4.0/. application/pdf |