Abstract
Children with recent or acute malaria episodes are at increased risk of invasive bacterial infections (IBI). However, the exact nature of the malaria-IBI association is still unclear. Young children have an age-related spleen immunologic immaturity, mainly due to the still ongoing development of the marginal zone (MZ) B cell subset. By mounting a rapid antibody response against encapsulated bacteria, these cells are critical for the defence against highly pathogenic microorganisms that do not elicit classical T cell-dependent responses. There is increasing evidence that the anatomy of the spleen becomes disorganized during malaria infection, with complete dissolution of the MZ and apoptosis of MZ B cells. Correspondingly, a reduction in the frequency of the peripheral equivalent of the MZ B cells has been found in malaria endemic areas. A remarkable similarity exists in IBI susceptibility between African children with malaria and hyposplenic or splenectomized patients. However, studies specifically assessing the immune function of the spleen in controlling bacterial infections in young children with malaria are scarce.Here, it is hypothesized that Plasmodium falciparum malaria infection constitutes a detrimental factor in the still immature spleen function of young children, resulting in a factually hyposplenic state during malaria episodes, putting children with malaria at a high risk to develop life-threatening bacterial infections. Studies to confirm or reject this hypothesis are greatly needed, as well as the development of affordable and feasible tools to assess the immune spleen function against encapsulated bacteria in children with malaria.
Highlights
In malaria-endemic settings the percentage of children with splenomegaly has been correlated with intensity of malaria transmission in a community
The functional splenic volumes (FSV) was strongly correlated with the amount of marginal zone (MZ) B cells in peripheral circulation, being significantly reduced in SCD homozygous genotype (SS) and splenectomized patients, corroborating previous findings [60]. These results indicate that the MZ B cell subset population might be reduced in the spleen of hyposplenic individuals, with the impaired immune response to encapsulated bacteria and reduced Immunoglobulin M (IgM) response
Concluding remarks There is ample evidence in the scientific literature to support the hypothesis postulated here that African children younger than three years of age might present with immunological spleen dysfunction triggered by P. falciparum malaria infection
Summary
In malaria-endemic settings the percentage of children with splenomegaly has been correlated with intensity of malaria transmission in a community. The unique structure of the microvascular pathways of the spleen (Figure 1) reflects its two most important functions: (1) the removal of senescent and damaged red blood cells (RBCs); and, (2) the removal of blood-borne microorganisms and cellular debris [10,11,12]. Both functions involve an intense phagocytic activity that occurs in different compartments of this organ by different sets of immune cells
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