Targets of antibodies against Plasmodium falciparum–infected erythrocytes in malaria immunity
Jo-Anne Chan, Katherine B. Howell, Linda Reiling, Ricardo Ataide, Claire L. Mackintosh, Freya J.I. Fowkes, Michaela Petter, Joanne M. Chesson, Christine Langer, George M. Warimwe, Michael F. Duffy, Stephen J. Rogerson, Peter C. Bull, Alan F. Cowman, Kevin Marsh, James G. Beeson
Jo-Anne Chan, Katherine B. Howell, Linda Reiling, Ricardo Ataide, Claire L. Mackintosh, Freya J.I. Fowkes, Michaela Petter, Joanne M. Chesson, Christine Langer, George M. Warimwe, Michael F. Duffy, Stephen J. Rogerson, Peter C. Bull, Alan F. Cowman, Kevin Marsh, James G. Beeson
View: Text | PDF
Research Article Infectious disease

Targets of antibodies against Plasmodium falciparum–infected erythrocytes in malaria immunity

Abstract

Plasmodium falciparum is the major cause of malaria globally and is transmitted by mosquitoes. During parasitic development, P. falciparum–infected erythrocytes (P. falciparum–IEs) express multiple polymorphic proteins known as variant surface antigens (VSAs), including the P. falciparum erythrocyte membrane protein 1 (PfEMP1). VSA-specific antibodies are associated with protection from symptomatic and severe malaria. However, the importance of the different VSA targets of immunity to malaria remains unclear, which has impeded an understanding of malaria immunity and vaccine development. In this study, we developed assays using transgenic P. falciparum with modified PfEMP1 expression to quantify serum antibodies to VSAs among individuals exposed to malaria. We found that the majority of the human antibody response to the IE targets PfEMP1. Furthermore, our longitudinal studies showed that individuals with PfEMP1-specific antibodies had a significantly reduced risk of developing symptomatic malaria, whereas antibodies to other surface antigens were not associated with protective immunity. Using assays that measure antibody-mediated phagocytosis of IEs, an important mechanism in parasite clearance, we identified PfEMP1 as the major target of these functional antibodies. Taken together, these data demonstrate that PfEMP1 is a key target of humoral immunity. These findings advance our understanding of the targets and mediators of human immunity to malaria and have major implications for malaria vaccine development.

Authors

Jo-Anne Chan, Katherine B. Howell, Linda Reiling, Ricardo Ataide, Claire L. Mackintosh, Freya J.I. Fowkes, Michaela Petter, Joanne M. Chesson, Christine Langer, George M. Warimwe, Michael F. Duffy, Stephen J. Rogerson, Peter C. Bull, Alan F. Cowman, Kevin Marsh, James G. Beeson

×

Figure 6

Opsonic phagocytosis of P. falciparum–IEs by undifferentiated THP-1 monocytes using sera from adults from Kilifi.

Options: View larger image (or click on image) Download as PowerPoint
Opsonic phagocytosis of P. falciparum–IEs by undifferentiated THP-1 mono...
(A and C) Opsonic phagocytosis activity of sera was significantly reduced in 3D7vpkd and E8Bvpkd parasites compared with that in (A) 3D7 parental and (C) E8B parental parasites. The level of phagocytosis is expressed as a percentage of the positive control for all graphs. Assays were performed twice independently; bars represent median and interquartile ranges (n = 24 for 3D7; n = 31 for E8B). P values were calculated using a paired Wilcoxon signed-rank test. (B and D) A representative selection of sera tested for phagocytosis activity with (B) 3D7 and (D) E8B parasites is shown. Samples were from malaria-exposed adults (K1–K7) residing in the Kilifi district, Kenya, and nonexposed Melbourne residents (Cont). In most samples, opsonic phagocytosis activity to 3D7vpkd and E8Bvpkd parasites was substantially reduced compared with that to (B) 3D7 parental and (D) E8B parental parasites. Assays were performed twice independently; bars represent mean and range, with samples tested in duplicate. The correlation between antibody levels measured as IgG binding and as opsonic phagocytosis activity is shown for (E) E8B parental and (F) E8Bvpkd parasites. Symbols represent results for individual serum samples.