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CNS cells in cerebral malaria: active participants, not innocent bystanders

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Cerebral malaria is a major life-threatening complication of Plasmodium falciparum infection. A high proportion of deaths from severe malaria involves cerebral complications and occurs chiefly in children in sub-Saharan Africa. The key pathogenic mechanisms involved in cerebral malaria remain unclear. The presence of parasitized red blood cells (PRBC) within the small vessels in the central nervous system leads to derangements of brain function that result in behavioral changes, often leading to coma and death. Treatment with anti-malarial drugs can reduce mortality from cerebral malaria by around 75%, but survivors frequently have neurological sequelae. Thus the pathogenesis of cerebral malaria may depend partly on acute disturbances of brain function that can be fatal, together with damage to neuronal function that is reflected in the long-term consequences in survivors. Over the last 15 years, increasing attention has been paid to the contribution of non-neuronal CNS cells to the pathogenesis of cerebral malaria, in particular the roles of endothelial cells, astrocytes and microglia.

In many cases, observations using a well-established mouse model of cerebral malaria, namely P. berghei ANKA (PbA) infection in C57BL/6 mice, have given insights that later have been confirmed by human clinical or post-mortem studies. Studies in experimental cerebral malaria of cell-cell interactions associated with small vessels in the retina have revealed the involvement of endothelial cells, astrocytes and microglia in the CNS response to the presence of intravascular PRBC. Redistribution of astrocytes is an early event following malaria inoculation in mice, and it progresses to astrogliosis and eventually to loss of astrocytes in some locations at the time when mice are exhibiting the symptoms of cerebral malaria. Microglia is activated early in the course of infection with PbA, showing morphological and functional changes. We have suggested that activation of microglia can contribute to astrocyte damage in experimental cerebral malaria. The endothelial cells of the blood-brain barrier become compromised in their ability to exclude proteins from the brain parenchyma during the course of PbA infection, and also in human severe malaria, which would allow access to the brain parenchyma of factors such as circulating cytokines that otherwise might be excluded. The compromise of blood-brain barrier function in PbA infection is due to CD8+ T lymphocytes accumulating in the small vessels of the CNS and altering endothelial cell function via a perforin-dependent mechanism.

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Correspondence to Nicholas Hunt.

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Open Access This article is published under license to BioMed Central Ltd. This is an Open Access article is distributed under the terms of the Creative Commons Attribution 2.0 International License (https://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Hunt, N., Weiser, S., Medana, I. et al. CNS cells in cerebral malaria: active participants, not innocent bystanders. BMC Proc 2, S22 (2008) doi:10.1186/1753-6561-2-s1-s22

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Keywords

  • Malaria
  • Plasmodium Falciparum
  • Small Vessel
  • Brain Parenchyma
  • Severe Malaria