Association of Early Interferon‐γ Production with Immunity to Clinical Malaria: A Longitudinal Study among Papua New Guinean Children

Abstract

Elucidating the cellular and molecular basis of naturally acquired immunity to Plasmodium falciparum infection would assist in developing a rationally based malaria vaccine. Innate, intermediate, and adaptive immune mechanisms are all likely to contribute to immunity. Interferon-gamma (IFN-gamma) has been implicated in both protection against and the pathogenesis of malaria in humans. In addition, considerable heterogeneity exists among rapid IFN-gamma responses to P. falciparum in malaria-naive donors. The question remains whether similar heterogeneity is observed in malaria-exposed individuals and whether high, medium, or low IFN-gamma responsiveness is differentially associated with protective immunity or morbidity. A 6-month longitudinal cohort study involving 206 school-aged Papua New Guinean children was performed. Peripheral blood mononuclear cells collected at baseline were exposed to live P. falciparum-infected erythrocytes. Early IFN-gamma responses were measured, and IFN-gamma-expressing cells were characterized by flow cytometry. IFN-gamma responsiveness was then tested for associations with parasitological and clinical outcome variables. Malaria-specific heterogeneity in early IFN-gamma responsiveness was observed among children. High-level early IFN-gamma responses were associated with protection from high-density and clinical P. falciparum infections. Parasite-induced early IFN-gamma was predominantly derived from gammadelta T cells (68% of which expressed the natural killer marker CD56) and alphabeta T cells, whereas natural killer cells and other cells made only minor contributions. The expression of CD56 in malaria-responsive, IFN-gamma-expressing gammadelta T cells correlated with IFN-gamma responsiveness. High, early IFN-gamma production by live parasite-stimulated peripheral blood mononuclear cells is a correlate of immunity to symptomatic malaria in Papua New Guinean children, and natural killer-like gammadelta T cells may contribute to protection.