Abstract
Immunity to malaria is widely believed to wane in the absence of reinfection, but direct evidence for the presence or absence of durable immunological memory to malaria is limited. Here, we analysed malaria-specific CD4+ T cell responses of individuals living in an area of low malaria transmission in northern Thailand, who had had a documented clinical attack of P. falciparum and/or P. vivax in the past 6 years. CD4+ T cell effector memory (CD45RO+) IFN-γ (24 hours ex vivo restimulation) and cultured IL-10 (6 day secretion into culture supernatant) responses to malaria schizont antigens were detected only in malaria-exposed subjects and were more prominent in subjects with long-lived antibodies or memory B cells specific to malaria antigens. The number of IFN-γ-producing effector memory T cells declined significantly over the 12 months of the study, and with time since last documented malaria infection, with an estimated half life of the response of 3.3 (95% CI 1.9–10.3) years. In sharp contrast, IL-10 responses were sustained for many years after last known malaria infection with no significant decline over at least 6 years. The observations have clear implications for understanding the immunoepidemiology of naturally acquired malaria infections and for malaria vaccine development.
Highlights
It is well established that immunity to severe clinical symptoms of malaria is acquired rapidly, but immunity to malaria infection is slow to develop and incomplete [1,2]
It has been proposed that antigenic diversity [3], inhibition of maturation of dendritic cells [4,5], and apoptotic deletion of malaria-specific T cells [6,7] impair the development of memory responses after malaria infection, in particular impeding the development and/or longevity of memory CD4+ T cells
We have identified malaria-specific cellular immune parameters among malaria-exposed individuals living in an area of very low malaria endemicity in Northern Thailand and determined the duration of the memory CD4+ T cell response to P. falciparum under conditions of infrequent reexposure/boosting of the immune response
Summary
It is well established that immunity to severe clinical symptoms of malaria is acquired rapidly, but immunity to malaria infection is slow to develop and incomplete [1,2]. Acquired protective immunity against blood stage malaria involves both antibodies and CD4+ T cells (reviewed in [2]). Antibodies provide protection by blocking invasion of merozoites into new red blood cells (RBCs), blocking cytoadherence of infected RBCs (iRBCs) to endothelial cells, and enhancing phagocytic activity of monocytes and macrophages. CD4+ T cells play crucial roles by providing help to B cells for the production of antibodies and by producing immune mediators essential for regulating cellular immune effector mechanisms. The contribution of CD4+ T cells to blood-stage malaria immunity has been extensively studied, the development and maintenance of malaria-specific memory CD4+ T cells is not well understood. It has been proposed that antigenic diversity [3], inhibition of maturation of dendritic cells [4,5], and apoptotic deletion of malaria-specific T cells [6,7] impair the development of memory responses after malaria infection, in particular impeding the development and/or longevity of memory CD4+ T cells
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