Abstract
BackgroundAntigenic variation of Plasmodium falciparum erythrocyte membrane protein 1 is a key parasite mechanism for immune evasion and parasite survival. It is assumed that the number of parasites expressing the same var gene must reach high enough numbers before the host can produce detectable levels of antibodies (Ab) to the variant. VAR2CSA is a protein coded for by one of 60 var genes that is expressed on the surface of infected erythrocytes (IE) and mediates IE binding to the placenta. The idea that Ab to VAR2CSA are pregnancy-associated was challenged when VAR2CSA-specific Ab were reported in children and men. However, the frequency and conditions under which Ab to VAR2CSA are produced outside pregnancy is unclear. This study sought to determine frequency, specificity and level of Ab to VAR2CSA produced in children and whether children with hyperparasitaemia and severe malaria are more likely to produce Ab to VAR2CSA compared to healthy children.MethodsAntibody responses to a panel of recombinant proteins consisting of multiple VAR2CSA Duffy-binding-like domains (DBL) and full-length VAR2CSA (FV2) were characterized in 193 1–15 year old children from rural Cameroonian villages and 160 children with severe malaria from the city.ResultsLow Ab levels to VAR2CSA were detected in children; however, Ab levels to FV2 in teenagers were rare. Children preferentially recognized DBL2 (56–70%) and DBL4 (50–60%), while multigravidae produced high levels of IgG to DBL3, DBL5 and FV2. Sixty-seven percent of teenage girls (n = 16/24) recognized ID1–ID2a region of VAR2CSA. Children with severe forms of malaria had significantly higher IgG to merozoite antigens (all p < 0.05), but not to VAR2CSA (all p > 0.05) when compared to the healthy children.ConclusionThe study suggests that children, including teenage girls acquire Ab to VAR2CSA domains and FV2, but Ab levels are much lower than those needed to protect women from placental infections and repertoire of Ab responses to DBL domains is different from those in pregnant women. Interestingly, children with severe malaria did not have higher Ab levels to VAR2CSA compared to healthy children.Electronic supplementary materialThe online version of this article (doi:10.1186/s12936-016-1585-y) contains supplementary material, which is available to authorized users.
Highlights
Antigenic variation of Plasmodium falciparum erythrocyte membrane protein 1 is a key parasite mechanism for immune evasion and parasite survival
As a result of infected erythrocytes (IE) binding to chondroitin sulfate A (CSA), IE accumulate at the maternal-fetal interface causing placental malaria (PM)
Longevity of passively acquired antibodies to VAR2CSA in Cameroonian neonates In order to follow the decline of placentally-transferred maternal IgG to malaria antigens, samples collected during the first year of life (COHORT 1) from neonates living in the Ngali II and Ntouessong villages were assessed (Figs. 1 and 2)
Summary
Antigenic variation of Plasmodium falciparum erythrocyte membrane protein 1 is a key parasite mechanism for immune evasion and parasite survival. Placental P. falciparum parasites primarily express only var2csa [12,13,14], which appears to be regulated both at the transcription level and at translation initiation [15, 16]. VAR2CSA is a large transmembrane protein [19] that is relatively conserved for the var gene family [20] It is composed of six Duffy-Binding-Like domains (DBL domains 1–6), interspersed by inter-domain regions (ID). Pregnant women produce antibodies (Ab) to VAR2CSA over successive pregnancies [25] that inhibit the binding of IE to CSA in vitro [26, 27], reduce maternal anaemia [28], and improve pregnancy outcome [25, 29, 30]. VAR2CSAbased recombinant subunit vaccine candidates are currently under clinical evaluation [31, 32]
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