K13 mutations and pfmdr1 copy number variation in Plasmodium falciparum malaria in Myanmar
© 2016 Win et al. Background: Artemisinin-based combination therapy has been first-line treatment for falciparum malaria in Myanmar since 2005. The wide extent of artemisinin resistance in the Greater Mekong sub-region and the presence of mefloquine resistance at the Myanmar-Thailand border raise co...
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th-mahidol.408562019-03-14T15:01:46Z K13 mutations and pfmdr1 copy number variation in Plasmodium falciparum malaria in Myanmar Aye A. Win Mallika Imwong Myat P. Kyaw Charles J. Woodrow Kesinee Chotivanich Borimas Hanboonkunupakarn Sasithon Pukrittayakamee Institute of Medicine (1) Mahidol University Department of Medical Research (Lower Myanmar) Nuffield Department of Clinical Medicine Immunology and Microbiology © 2016 Win et al. Background: Artemisinin-based combination therapy has been first-line treatment for falciparum malaria in Myanmar since 2005. The wide extent of artemisinin resistance in the Greater Mekong sub-region and the presence of mefloquine resistance at the Myanmar-Thailand border raise concerns over resistance patterns in Myanmar. The availability of molecular markers for resistance to both drugs enables assessment even in remote malaria-endemic areas. Methods: A total of 250 dried blood spot samples collected from patients with Plasmodium falciparum malarial infection in five malaria-endemic areas across Myanmar were analysed for kelch 13 sequence (k13) and pfmdr1 copy number variation. K13 mutations in the region corresponding to amino acids 210-726 (including the propeller region of the protein) were detected by nested PCR amplification and sequencing, and pfmdr1 copy number variation by real-time PCR. In two sites, a sub-set of patients were prospectively followed up for assessment of day-3 parasite clearance rates after a standard course of artemether-lumefantrine. Results: K13 mutations and pfmdr1 amplification were successfully analysed in 206 and 218 samples, respectively. Sixty-nine isolates (33.5 %) had mutations within the k13 propeller region with 53 of these (76.8 %) having mutations already known to be associated with artemisinin resistance. F446I (32 isolates) and P574L (15 isolates) were the most common examples. K13 mutation was less common in sites in western border regions (29 of 155 isolates) compared to samples from the east and north (40 of 51 isolates; p < 0.0001). The overall proportion of parasites with multiple pfmdr1 copies (greater than 1.5) was 5.5 %. Seven samples showed both k13 mutation and multiple copies of pfmdr1. Only one of 36 patients followed up after artemether-lumefantrine treatment still had parasites at day 3; molecular analysis indicated wild-type k13 and single copy pfmdr1. Conclusion: The proportion of P. falciparum isolates with mutations in the propeller region of k13 indicates that artemisinin resistance extends across much of Myanmar. There is a low prevalence of parasites with multiple pfmdr1 copies across the country. The efficacy of artemisinin-based combination therapy containing mefloquine and lumefantrine is, therefore, expected to be high, although regular monitoring of efficacy will be important. 2018-12-11T03:05:22Z 2019-03-14T08:01:46Z 2018-12-11T03:05:22Z 2019-03-14T08:01:46Z 2016-02-24 Article Malaria Journal. Vol.15, No.1 (2016) 10.1186/s12936-016-1147-3 14752875 2-s2.0-84971238737 https://repository.li.mahidol.ac.th/handle/123456789/40856 Mahidol University SCOPUS https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84971238737&origin=inward |
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Immunology and Microbiology Aye A. Win Mallika Imwong Myat P. Kyaw Charles J. Woodrow Kesinee Chotivanich Borimas Hanboonkunupakarn Sasithon Pukrittayakamee K13 mutations and pfmdr1 copy number variation in Plasmodium falciparum malaria in Myanmar |
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© 2016 Win et al. Background: Artemisinin-based combination therapy has been first-line treatment for falciparum malaria in Myanmar since 2005. The wide extent of artemisinin resistance in the Greater Mekong sub-region and the presence of mefloquine resistance at the Myanmar-Thailand border raise concerns over resistance patterns in Myanmar. The availability of molecular markers for resistance to both drugs enables assessment even in remote malaria-endemic areas. Methods: A total of 250 dried blood spot samples collected from patients with Plasmodium falciparum malarial infection in five malaria-endemic areas across Myanmar were analysed for kelch 13 sequence (k13) and pfmdr1 copy number variation. K13 mutations in the region corresponding to amino acids 210-726 (including the propeller region of the protein) were detected by nested PCR amplification and sequencing, and pfmdr1 copy number variation by real-time PCR. In two sites, a sub-set of patients were prospectively followed up for assessment of day-3 parasite clearance rates after a standard course of artemether-lumefantrine. Results: K13 mutations and pfmdr1 amplification were successfully analysed in 206 and 218 samples, respectively. Sixty-nine isolates (33.5 %) had mutations within the k13 propeller region with 53 of these (76.8 %) having mutations already known to be associated with artemisinin resistance. F446I (32 isolates) and P574L (15 isolates) were the most common examples. K13 mutation was less common in sites in western border regions (29 of 155 isolates) compared to samples from the east and north (40 of 51 isolates; p < 0.0001). The overall proportion of parasites with multiple pfmdr1 copies (greater than 1.5) was 5.5 %. Seven samples showed both k13 mutation and multiple copies of pfmdr1. Only one of 36 patients followed up after artemether-lumefantrine treatment still had parasites at day 3; molecular analysis indicated wild-type k13 and single copy pfmdr1. Conclusion: The proportion of P. falciparum isolates with mutations in the propeller region of k13 indicates that artemisinin resistance extends across much of Myanmar. There is a low prevalence of parasites with multiple pfmdr1 copies across the country. The efficacy of artemisinin-based combination therapy containing mefloquine and lumefantrine is, therefore, expected to be high, although regular monitoring of efficacy will be important. |
| author2 |
Institute of Medicine (1) |
| author_facet |
Institute of Medicine (1) Aye A. Win Mallika Imwong Myat P. Kyaw Charles J. Woodrow Kesinee Chotivanich Borimas Hanboonkunupakarn Sasithon Pukrittayakamee |
| format |
Article |
| author |
Aye A. Win Mallika Imwong Myat P. Kyaw Charles J. Woodrow Kesinee Chotivanich Borimas Hanboonkunupakarn Sasithon Pukrittayakamee |
| author_sort |
Aye A. Win |
| title |
K13 mutations and pfmdr1 copy number variation in Plasmodium falciparum malaria in Myanmar |
| title_short |
K13 mutations and pfmdr1 copy number variation in Plasmodium falciparum malaria in Myanmar |
| title_full |
K13 mutations and pfmdr1 copy number variation in Plasmodium falciparum malaria in Myanmar |
| title_fullStr |
K13 mutations and pfmdr1 copy number variation in Plasmodium falciparum malaria in Myanmar |
| title_full_unstemmed |
K13 mutations and pfmdr1 copy number variation in Plasmodium falciparum malaria in Myanmar |
| title_sort |
k13 mutations and pfmdr1 copy number variation in plasmodium falciparum malaria in myanmar |
| publishDate |
2018 |
| url |
https://repository.li.mahidol.ac.th/handle/123456789/40856 |
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1763494504305786880 |