Plasmodium falciparum parasites in French Guiana: limited genetic diversity and high selfing rate.

The genetic characteristics of Plasmodium falciparum isolates collected in French Guiana, where malaria transmission is low and occurs in isolated foci, were studied. Blood samples were collected from 142 patients with symptomatic malaria and typed using a polymerase chain reaction-based strategy for merozoite surface protein-(MSP-1) block 2, the MSP-2 central domain, and glutamate-rich protein (GLURP) repeat domain polymorphism. This showed that the parasite population circulating in French Guiana presented a limited number of allelic forms (4, 2, and 3 for MSP-1 block 2, MSP-1, and GLURP, respectively) and a small number of mixed infections, contrasting with the large genetic diversity of parasite populations and infection complexity reported for Africa, Asia, and other parts of South America. Two groups of isolates displaying identical 3 loci allele combinations were further studied for the Pf332 antigen, histidine-rich protein-1, thrombospondin-related anonymous protein, and Pf60 multigene family polymorphism. Within each group, most isolates were identical for all markers tested. This suggests a high rate of self-fertilization of P. falciparum parasites in French Guiana, resulting in homogenization of the population. The implications of these findings for malaria control in areas of low endemicity are discussed.

Variant- and strain-specific immunity in Saimiri infected with Plasmodium falciparum.

Variant- and strain-specific immunity to malaria in Saimiri monkeys infected with homologous O and R variants of the Palo Alto strain (FUPSP) of Plasmodium falciparum or by various heterologous divergent strains were studied. Following homologous reinfections, the primary immune response in monkeys was effective only against the same variant type but not against the other variant, which differed only by antigens exposed at the surface of the infected red blood cell. In contrast, after two successive inoculations with a single variant type, a variant transcending immunity developed to both O and R parasite populations. The immunity against FUPSP in monkeys repeatedly infected with various combinations of heterologous strains, including Sal I, Tanzania, Camp, FUPCP, FCH4, FVO, and FUPCDC parasites was less effective, resulting at best in protecting the monkey against fulminating infection. However, in several cases, previous or concomitant heterologous infections modified the course of virulent infection by FUPSP parasites, indicating a significant degree of cross-protection between the strains. Therefore, in this model, while variant- and strain-specific antigens are important components of acquired immunity to malaria, the monkey immune response to infection transcends phenotypic antigenic variation and strain diversity.