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The Kinetics of Antibody Responses to Plasmodium Vivax Vaccine Candidate Antigens in Brazilians with Acute Vivax Malaria

Indiana University-Purdue University Indianapolis (IUPUI) / Plasmodium vivax malaria is geographically widespread and remains a significant public health burden in the Americas, Southeast Asia, and the western Pacific. In order to achieve the end goal of malaria eradication, a highly effective vaccine targeting P. vivax is urgently needed. Unlike pre-erythrocytic vaccines that aim to confer sterile immunity that prevents malaria infection altogether, Plasmodium vivax blood-stage vaccines aim to confer clinical immunity that protects against malarial disease by controlling parasitemia and mitigating the symptomatic manifestations of malaria after infection. To design an effective P. vivax blood-stage vaccine, it is essential to understand the acquisition and longevity of natural humoral immune responses against promising P. vivax blood-stage vaccine candidate antigens. We hypothesize that acute vivax malaria induces differential humoral immune responses against P. vivax antigens that exhibit antigen-specific kinetic and compositional profiles, which can be used to identify vaccine candidates that elicit durable humoral responses. Therefore, we compared the kinetic profiles and half-lives of naturally acquired IgG antibodies reactive against nine promising P. vivax blood-stage vaccine candidate antigens up to 180 days post-infection in Brazilians with acute vivax malaria. Naturally acquired IgG antibodies against these antigens have previously been associated with a reduced risk of vivax malaria. Among the P. vivax antigens evaluated, the merozoite antigen Pv12 elicited the most durable IgG antibodies, whereas the DBP-FL elicited the most short-lived responses. Neither patient age nor prior malaria exposure significantly correlated with the magnitude and durability of IgG responses to any P. vivax antigen. Seropositivity, against Pv12, was generally maintained for at least 30 days after acute vivax malaria. These findings suggest that a blood-stage vaccine targeting Pv12 may benefit from boosting IgG antibodies against this antigen after natural vivax “breakthrough” infections. Further studies will be needed to determine the Pv12-specific memory B cell response as well as the functional role for naturally acquired Pv12-specific antibodies in reducing parasitemia and/or clinical disease. In summary, the current study has provided insight into the longevity of IgG antibody responses to important P. vivax antigens after an acute malaria episode.

Identiferoai:union.ndltd.org:IUPUI/oai:scholarworks.iupui.edu:1805/29138
Date05 1900
CreatorsTashi, Tenzin
ContributorsTran, Tuan M., Bauer, Margaret E., Hoang, Quyen Q.
Source SetsIndiana University-Purdue University Indianapolis
Languageen_US
Detected LanguageEnglish
TypeThesis

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