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Abstract
Cerebral malaria claims the life of millions of people each year, particularly those of children, and is a major global public health problem. Thus, the identification of novel malaria biomarkers that could be utilized as diagnostic or therapeutic targets is becoming increasingly important. Using a proteomic approach, we previously identified unique biomarkers in the sera of malaria-infected individuals, including apolipoprotein E (ApoE). ApoE is the dominant apolipoprotein in the brain and has been implicated in several neurological disorders; therefore, we were interested in the potential role of ApoE in cerebral malaria. Here we report the first demonstration that cerebral malaria is markedly attenuated in ApoE−/− mice. The protection provided by the absence of ApoE was associated with decreased sequestration of parasites and T cells within the brain, and was determined to be independent from the involvement of ApoE receptors and from the altered lipid metabolism associated with the knock-out mice. Importantly, we demonstrated that treatment of mice with the ApoE antagonist heparin octasaccharide significantly decreased the incidence of cerebral malaria. Overall, our study indicates that the reduction of ApoE could be utilized in the development of therapeutic treatments aimed at mitigating the neuropathology of cerebral malaria.
Highlights
Cerebral malaria is a neurological complication of malaria that claims the life of millions of people every year, those of children under the age of five[1]
We clearly demonstrated that apolipoprotein E (ApoE)−/− mice were protected from experimental cerebral malaria (ECM) pathology; we were interested in identifying compounds that could be used to antagonize the expression of ApoE in a clinical setting
We report the first demonstration that the absence of ApoE protects mice from cerebral malaria
Summary
Cerebral malaria is a neurological complication of malaria that claims the life of millions of people every year, those of children under the age of five[1]. Cerebral malaria is currently treated with anti-malarial drugs, such as quinine/quinidine or artemisnin derivatives[4]. These drugs are very effective at eliminating the parasite, but the anti-malarial treatment needs to be initiated during the early stages of the disease. Once the disease has progressed to severe malaria, patients will receive adjunctive treatments in conjunction with anti-malarial drugs, in an attempt to lessen the associated pathophysiological processes[5]. We report that ApoE−/− mice are significantly protected against cerebral malaria, and that pharmacological inhibition of ApoE using heparin octasaccharide (OCTA) could represent a new avenue in the development of adjunctive therapies for cerebral malaria
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