[Point mutations in dihydrofolate reductase and dihydropteroate synthase genes of Plasmodium falciparum from three endemic malaria regions in Colombia]. / Mutaciones puntuales en los genes dhfr y dhps de Plasmodium falciparum de tres regiones endémicas para malaria en Colombia.

INTRODUCTION: Plasmodium falciparum has the ability to counter the antiparasitic activity of sulphadoxine-pyrimethamine by progressively accumulating mutations in the dihydrofolate reductase (dhfr) and dihydropteroate synthase (dhps) genes. These mutations gradually increase the resistance of the parasite to these drugs and lead to therapeutic failure. OBJECTIVES: To determine the frequency of mutations associated with resistance to sulphadoxine and pyrimethamine in the dhfr and dhps genes of P. falciparum in samples from patients in three endemic zones of Colombia -La Carpa, Guaviare; Casuarito, Vichada; and Tierralta and Puerto Libertador, Córdoba. MATERIALS AND METHODS: Forty samples were selected from patients with uncomplicated P. falciparum malaria. The frequency profiles of the 108, 59 and 164 alleles of dhfr were obtained by application of an allele-specific polymerase chain reaction, whereas the other alleles (alleles 51 of the dhfr gene and 436, 437 and 540 of dhps) were obtained by polymerase chain reaction and restriction fragment length polymorphism. RESULTS: The 108N and 51I mutations in the dhfr gene were found in all of the 40 samples. No mutant alleles were found in the 59 and 164 codons of the dhfr gene, or in the 436 codon of the dhps gene. The 437G mutation was observed in 36 samples and the wild-type allele was present in 3 from Tierralta and one from La Carpa. The 540E mutation was only detected in two samples from Casuarito. CONCLUSIONS: The 108N, 51I and 437G mutations prevail in the populations of P. falciparum, indicating a cumulative effect of mutations and the need to continue surveillance for other changes which can lead to the total loss of the efficacy of sulphadoxine-pyrimethamine.

Mutaciones puntuales en los genes dhfr y dhps de Plasmodium falciparum de tres regiones endémicas para malaria en Colombia / Point mutations in dihydrofolate reductase and dihydropteroate synthase genes of Plasmodium falciparum from three endemic malaria regions in Colombia

Introducción. La acumulación progresiva de mutaciones en los genes dhfr y dhps lleva al parásito Plasmodium falciparum a evadir la acción de la sulfadoxina-pirimetamina, situación que aumenta el nivel de resistencia del parásito a estos medicamentos y conlleva a la aparición de fallas del tratamiento. Objetivos. Determinar la frecuencia de mutaciones en los genes dhfr y dhps de P. falciparum asociadas con resistencia a sulfadoxina-pirimetamina, en muestras de pacientes de tres zonas endémicas de Colombia: La Carpa, Guaviare; Casuarito, Vichada; Tierralta y Puerto Libertador, Córdoba. Materiales y métodos. Se incluyeron 40 muestras de pacientes con malaria no complicada por P. falciparum. Los alelos 108, 59 y 164 del gen dhfr se analizaron mediante PCR específica de alelo y los alelos 51 del gen dhfr y 436, 437 y 540 del gen dhps por PCR y restricción enzimática. Resultados. En el gen dhfr encontramos en todas las muestras las mutaciones asparagina 108 e isoleucina 51. No se detectaron alelos mutantes en los codones 59 y 164 del gen dhfr, ni en el codón 436 del gen dhps. La mutación glicina 437 estuvo presente en 36 muestras y el alelo silvestre alanina en tres de Tierralta y una de La Carpa. La mutación ácido glutámico 540 sólo se halló en Casuarito. Conclusiones. En las poblaciones de P. falciparum analizadas prevalecen los alelos asparagina 108, isoleucina 51 y glicina 437, lo que indica un efecto acumulativo de mutaciones y la necesidad de vigilar la aparición de nuevos alelos mutantes que puedan conducir a la pérdida total de la eficacia de la sulfadoxina-pirimetamina.

Introduction. Plasmodium falciparum has the ability to counter the antiparasitic activity of sulphadoxine-pyrimethamine by progressively accumulating mutations in the dihydrofolate reductase (dhfr) and dihydropteroate synthase (dhps) genes. These mutations gradually increase the resistance of the parasite to these drugs and lead to therapeutic failure. Objectives. To determine the frequency of mutations associated with resistance to sulphadoxine and pyrimethamine in the dhfr and dhps genes of P. falciparum in samples from patients in three endemic zones of Colombia -La Carpa, Guaviare; Casuarito, Vichada; and Tierralta and Puerto Libertador, Córdoba. Materials and methods. Forty samples were selected from patients with uncomplicated P. falciparum malaria. The frequency profiles of the 108, 59 and 164 alleles of dhfr were obtained by application of an allele-specific polymerase chain reaction, whereas the other alleles (alleles 51 of the dhfr gene and 436, 437 and 540 of dhps) were obtained by polymerase chain reaction and restriction fragment length polymorphism. Results. The 108N and 51I mutations in the dhfr gene were found in all of the 40 samples. No mutant alleles were found in the 59 and 164 codons of the dhfr gene, or in the 436 codon of the dhps gene. The 437G mutation was observed in 36 samples and the wild-type allele was present in 3 from Tierralta and one from La Carpa. The 540E mutation was only detected in two samples from Casuarito. Conclusions. The 108N, 51I and 437G mutations prevail in the populations of P. falciparum, indicating a cumulative effect of mutations and the need to continue surveillance for other changes which can lead to the total loss of the efficacy of sulphadoxine-pyrimethamine.

Polymorphism in the Plasmodium vivax msp 3: gene in field samples from Tierralta, Colombia.

We evaluated the Plasmodium vivax polymorphism by studying the Pvmsp-3alpha gene's polymorphic region by PCR-RFLP in 55 samples from patients living in Tierralta, Colombia. Three different sizes of the Pvmsp-3 alpha gene were found, type A (1,900 bp), type B (1,500 bp) and type C (1,100 bp); most of the samples were type A (96.4 %). The Pvmsp-3alpha gene exhibited high polymorphism. Seven restriction patterns were found when using Alu I, and nine were found with Hha I; 12 different alleles were obtained when these patterns were combined. The findings suggest that this gene could be used in Colombia as a molecular epidemiologic marker for genotyping P. vivax.

Polymorphism in the Plasmodium vivax msp 3: gene in field samples from Tierralta, Colombia

We evaluated the Plasmodium vivax polymorphism by studying the Pvmsp-3 gene's polymorphic region by PCR-RFLP in 55 samples from patients living in Tierralta, Colombia. Three different sizes of the Pvmsp-3 gene were found, type A (1,900 bp), type B (1,500 bp) and type C (1,100 bp); most of the samples were type A (96.4 percent). The Pvmsp-3 gene exhibited high polymorphism. Seven restriction patterns were found when using Alu I, and nine were found with Hha I; 12 different alleles were obtained when these patterns were combined. The findings suggest that this gene could be used in Colombia as a molecular epidemiologic marker for genotyping P. vivax.