Humoral immune responses against Plasmodium vivax MSP1 in humans living in a malaria endemic area in Flores, Indonesia.

The aim of this study was to evaluate the relationship among age, parasitemia status, spleen size, hematocrit, and antibody levels to Plasmodium vivax merozoite surface protein 1 (MSP1) in individuals chronically exposed to P. vivax. Subjects were recruited from the population of three adjacent villages on the Island of Flores in Indonesia where malaria transmission is hyperendemic and tropical splenomegaly syndrome is highly prevalent. Subjects were evaluated for spleen size, hematocrit, presence of parasitemia, and presence of antibodies to a recombinant peptide consisting of 90 amino acids from the carboxy terminus of MSP1. Fifty-seven percent of 2-4 year olds, 45% of 5-9 years old, and 7% of > or = 15 years old were parasitemic; 99% of the > or = 15 years old had splenomegaly, and 31% of them had Hackett 4 or 5 spleens. The frequency of antibody positivity to MSP1 antigen in ELISA increased with age reaching a maximum of 89% in > or = 20 years old. The frequency of antibody positivity to MSPI also increased with spleen size, and with a decline in the prevalence of parasitemia.

DNA vaccines for malaria: the past, the present, & the future.

The first clinical trial of a DNA vaccine designed to protect against malaria has just commenced. This vaccine has been designed to induce protective CD8+ T cell responses against Plasmodium falciparum infected hepatocytes. Herein, we review the rationale behind the development of vaccines that induce protective CD8+ T cells, the strategy for the development of a DNA vaccine designed to protect against falciparum malaria, and the experimental data in rodent models and nonhuman primates which has provided the foundation for trials of DNA vaccines against P. falciparum malaria in humans.