Abstract
Plasmodium infection during gestation may lead to severe clinical manifestations including abortion, stillbirth, intrauterine growth retardation, and low birth weight. Mechanisms underlying such poor pregnancy outcomes are still unclear. In the animal model of severe placental malaria (PM), in utero fetal death frequently occurs and mothers often succumb to infection before or immediately after delivery. Plasmodium berghei-infected erythrocytes (IEs) continuously accumulate in the placenta, where they are then phagocytosed by fetal-derived placental cells, namely trophoblasts. Inside the phagosomes, disruption of IEs leads to the release of non-hemoglobin bound heme, which is subsequently catabolized by heme oxygenase-1 into carbon monoxide, biliverdin, and labile iron. Fine-tuned regulatory mechanisms operate to maintain iron homeostasis, preventing the deleterious effect of iron-induced oxidative stress. Our preliminary results demonstrate that iron overload in trophoblasts of P. berghei-infected placenta is associated with fetal death. Placentas which supported normally developing embryos showed no iron accumulation within the trophoblasts. Placentas from dead fetuses showed massive iron accumulation, which was associated with parasitic burden. Here we present preliminary data suggesting that disruption of iron homeostasis in trophoblasts during the course of PM is a consequence of heme accumulation after intense IE engulfment. We propose that iron overload in placenta is a pathogenic component of PM, contributing to fetal death. The mechanism through which it operates still needs to be elucidated.
Highlights
Malaria is an infectious disease that affects millions of individuals every year and remains one of the major causes of morbidity and mortality worldwide (WHO | World Malaria Report, 2013)
Our preliminary results demonstrate that iron overload in trophoblasts of P. berghei -infected placenta is associated with fetal death
Pregnant women bitten by infected mosquitoes can develop placental malaria (PM; known as pregnancy malaria) – a disease characterized by adverse pregnancy outcomes such as abortion, stillbirth, premature delivery and low birth weight babies, which in turn increases infant morbidity
Summary
Malaria is an infectious disease that affects millions of individuals every year and remains one of the major causes of morbidity and mortality worldwide (WHO | World Malaria Report, 2013). Pregnant women bitten by infected mosquitoes can develop placental malaria (PM; known as pregnancy malaria) – a disease characterized by adverse pregnancy outcomes such as abortion, stillbirth, premature delivery and low birth weight babies, which in turn increases infant morbidity These clinical features can be recapitulated in a BALB/c mouse model of infection at mid-stage pregnancy (Neres et al, 2008) and are associated to accumulation of Plasmodium IEs in the placenta (Fried and Duffy, 1996). In placentas infected with P. berghei – a rodent parasite that lacks the VAR2CSA molecule (Jemmely et al, 2010) – accumulation of IEs is increased in low maternal blood flow regions (de Moraes et al, 2013) This highlights the relevance of placental tissue configuration in promoting sequestration of Plasmodium IEs. We hypothesized that IE sequestration may occur through specific interaction of IEs with the trophoblast membrane and is favored by IE arrest in maternal regions characterized of low blood flow. This may help explain the poor pregnancy outcomes brought about by Plasmodium infections during gestation
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