Hemozoin is a potential threat in cerebral malaria pathology through the induction of RBC-EC cytoadherence

Cerebral malaria is an outcome of multifaceted and complicated condition. Cytoadherence is one critical factor in cerebral malaria pathology as high order cytoadherence complexes result in vascular congestion and cell apoptosis. Morphological abnormalities in uninfected RBCs can be a contributing factor to aggravate cytoadherence. Malaria pigment hemozoin is a potential bioactive molecule and the role of this pigment in cerebral malaria pathology is not completely understood. To understand this, primarily we investigated the impact of hemozoin pigment on uninfected RBCs. Secondarily, we investigated the role of this pigment in formation of endothelial cells-RBCs (EC-RBC) cytoadherence complex. We first observed that a dose dependent hemozoin exposure to uninfected RBCs induced structural abnormalities. Differential counting of these abnormal RBCs indicated population of acanthocytes, spherocytes and microcytes. The formation of abnormal RBCs was observed with phosphatidylserine externalization. Lipid peroxidation, reduced glutathione and reactive oxygen species (ROS) levels indicated an increase in hemozoin exposure mediated oxidative stress. Our in-vitro cytoadherence assay indicated formation of endothelial EC-RBC cytoadherence complex. The dose dependent hemozoin exposure to uninfected RBCs resulted in oxidative stress mediated high order cytoadherence complex formation. This effect was reversed in presence of antioxidant molecules. The inhibitory effect of antioxidant molecules indicates that oxidative stress can be a regulatory factor to control cerebral malaria pathology. Being the first report to highlight the impact of malaria pigment hemozoin on uninfected RBCs, this study brings attention to the role of abnormal RBCs in worsening of cerebral malaria pathology.

Automated summary

The study found that exposure of uninfected RBCs to malarial pigment hemozoin induced structural abnormalities and increased oxidative stress, affecting the formation of cytoadherence complexes. Antioxidant molecules can reverse this effect, indicating that oxidative stress may be a key factor in controlling cerebral malaria pathology.