Change in mutation patterns of Plasmodium vivax dihydrofolate reductase (Pvdhfr) and dihydropteroate synthase (Pvdhps) in P. vivax isolates from malaria endemic areas of Thailand

Malaria is the most important public health problem in several countries. In Thailand, co-infections of Plasmodium vivax and Plasmodium falciparum are common. We examined the prevalence and patterns of mutations in P. vivax dihydrofolate reductase (Pvdhfr) and P. vivax dihydropteroate synthase (Pvdhps) in 103 blood samples collected from patients with P. vivax infection who had attended the malaria clinic in Mae Sot, Tak Province during 2009 and 2010. Using nested polymerase chain reaction-restriction fragment length polymorfism, we examined single nucleotide polymorphisms-haplotypes at amino acid positions 13, 33, 57, 58, 61, 117 and 173 of Pvdhfr and 383 and 553 of Pvdhps. All parasite isolates carried mutant Pvdhfr alleles, of which the most common alleles were triple mutants (99 percent). Eight different types of Pvdhfr and combination alleles were found, as follows: 57I/58R/117T, 57I/58R/117T, 57I/58R/117T/N, 57L/58R/117T, 57L/58R/117T, 58R/61M/117N, 58R/61M/117N and 13L/57L/58R/117T. The most common Pvdhfr alleles were 57I/58R/117T (77.7 percent), 57I/58R/117T/N (1 percent), 57L/58R/117T (5.8 percent) and 58R/61M/117N (14.5 percent). The most common Pvdhfr alleles were 57I/58R/117T (77.7 percent), 57I/58R/117T/N (1 percent), 57L/58R/117T (5.8 percent) and 58R/61M/117N (14.5 percent). Additionally, we recovered one isolate of a carrying a quadruple mutant allele, 13L/57L/58R/117T. The most prevalent Pvdhps allele was a single mutation in amino acid 383 (82.5 percent), followed by the wild-type A383/A553 (17.5 percent) allele. Results suggest that all P. vivax isolates in Thailand carry some combination of mutations in Pvdhfr and Pvdhps. Our findings demonstrate that development of new antifolate drugs effective against sulfadoxine-pyrimethamine-resistant P. vivax is required.

Comparison of two in vitro sensitivity tests for Plasmodium falciparum.

The main purpose of the study was to compare the in vitro sensitivity results obtained from the two widely-used in vitro systems: (1) standard WHO micro-technique based on schizont maturation inhibition using fresh isolates (M-I), and (2) micro-technique based on incorporation of [3H]-hypoxanthine using culture-adapted isolates (M-II). The study was conducted during 1998 and 2002. A total of 473 Plasmodium falciparum isolates were collected from five highly malaria endemic areas of Thailand, ie, Mae Sot district, Tak (north-western), Kanchanaburi (western), Ranong (south-western), Ratchaburi (south-western) and Chantaburi (eastern) Provinces. The antimalarials tested were: mefloquine, quinine, chloroquine, artemisinin and dihydroartemisinin. The sensitivity results for mefloquine obtained from the two methods were significantly different from each other. The IC50 values for M-II was less than M-I. The median (95%C.I.) IC50 value for mefloquine using the M-II method was significantly lower [696.47 (393.11-1,233.2) nM] than for M-I [3,955.4 (1,035.61-5,108.9) nM]. The in vitro sensitivity results for quinine were significantly different from each other. The median (95% C.I.) IC50 value for M-II [161 (42-351) nM] was 2.5-fold that of M-I [66 (24-450) nM].