Abstract
Pregnancy-associated malaria, a manifestation of severe malaria, is the cause of up to 200,000 infant deaths a year, through the effects of placental insufficiency leading to growth restriction and preterm delivery. Development of a vaccine is one strategy for control. Plasmodium falciparum-infected red blood cells accumulate in the placenta through specific binding of pregnancy-associated parasite variants that express the VAR2CSA antigen to chondroitin sulphate A on the surface of syncytiotrophoblast cells. Parasite accumulation, accompanied by an inflammatory infiltrate, disrupts the cytokine balance of pregnancy with the potential to cause placental damage and compromise foetal growth. Multigravid women develop immunity towards VAR2CSA-expressing parasites in a gravidity-dependent manner which prevents unfavourable pregnancy outcomes. Although current vaccine design, targeting VAR2CSA antigens, has succeeded in inducing antibodies artificially, this candidate may not provide protection during the first trimester and may only protect those women living in areas endemic for malaria. It is concluded that while insufficient information about placental-parasite interactions is presently available to produce an effective vaccine, incremental progress is being made towards achieving this goal.
Highlights
Over 50 million women who live in areas of high malaria transmission become pregnant every year, and thousands of these women die [1]
Placental malaria (PM) is a subset of Pregnancy-associated malaria (PAM) which refers to the pathological process whereby parasitised red blood cells (pRBC) and inflammatory cells accumulate within the intervillous space (IVS) of the placenta
Placental parasites selectively transcribe the var2csa gene The var2csa gene is relatively conserved between PAM variants The var2csa gene is required for pRBC to adhere to chondroitin sulphate A (CSA) If the var2csa gene is knocked out or deleted, adhesion to CSA no longer occurs VAR2CSA is selectively expressed on the surface of pRBC that are identified in PM VAR2CSA binds to CSA expressed on the placenta Men and non-pregnant women do not produce VAR2CSA-specific IgG
Summary
Over 50 million women who live in areas of high malaria transmission become pregnant every year, and thousands of these women die [1] Women in their first and second pregnancies are at particular risk of infection with Plasmodium falciparum, which is a major risk factor for maternal and foetal mortality and is implicated in 75,000–200,000 infant deaths per annum [2, 3]. Malaria Research and Treatment are apparent between varying levels of transmission; PAM in areas of low transmission can result in severe infection and lead to foetal and maternal death [19, 20]. In these symptomatic women, fever can induce uterine contractions and increase the likelihood of PTD [21].
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