Abstract
Our previous studies of protective immunity and pathology against blood stage malaria parasites have shown that not only CD4+ T cells, but also CD8+ T cells and macrophages, are important for host defense against blood stage malaria infection. Furthermore, we found that Plasmodium yoelii 17XNL (PyNL) parasitizes erythroblasts, the red blood cell (RBC) precursor cells, which then express MHC class I molecules. In the present study, we analyzed spleen cytokine production. In CD8+ T cell-depleted mice, IL-10 production in early stage infection was increased over two-fold relative to infected control animals and IL-10+ CD3− cells were increased, whereas IFN-γ production in the late stage of infection was decreased. At day 16 after PyNL infection, CD8+ T cells produced more IFN-γ than CD4+ T cells. We evaluated the involvement of the immunoproteasome in induction of immune CD8+ T cells, and the role of Fas in protection against PyNL both of which are downstream of IFN-γ. In cell transfer experiments, at least the single molecules LMP7, LMP2, and PA28 are not essential for CD8+ T cell induction. The Fas mutant LPR mouse was weaker in resistance to PyNL infection than WT mice, and 20% of the animals died. LPR-derived parasitized erythroid cells exhibited less externalization of phosphatidylserine (PS), and phagocytosis by macrophages was impaired. Furthermore, we tried to identify the cause of death in malaria infection. Blood lactate concentration was increased in the CD8+ T cell-depleted PyNL-infected group at day 19 (around peak parasitemia) to similar levels as day 7 after infection with a lethal strain of Py. When we injected mice with lactate at day 4 and 6 of PyNL infection, all mice died at day 8 despite demonstrating low parasitemia, suggesting that hyperlactatemia is one of the causes of death in CD8+ T cell-depleted PyNL-infected mice. We conclude that CD8+ T cells might control cytokine production to some extent and regulate hyperparasitemia and hyperlactatemia in protection against blood stage malaria parasites.
Highlights
Malaria is one of the most deadly infectious diseases, with 219 million cases and 435,000 deaths per year worldwide1 The contribution of CD8+ T cells to host defense against blood stage malaria infection has long remained controversial
We demonstrated in the live vaccine model that CD8+ T cells or CD4+ T cells from mice infected with P. yoelii 17XNL (PyNL) boosted twice with Plasmodium yoelii 17XL (PyL) confer protection against PyL infection in recipient mice inoculated with CD8+ or CD4+ T cells from infected mice [16]
Depletion of CD4+ T cells was similar, with ∼50% mortality [7]. This suggests that both CD8+ T cells and CD4+ T cells contribute to protection against PyNL infection
Summary
Malaria is one of the most deadly infectious diseases, with 219 million cases and 435,000 deaths per year worldwide The contribution of CD8+ T cells to host defense against blood stage malaria infection has long remained controversial. The role of CD8+ T cells in blood stage malaria infection remains controversial. This controversy is further compounded by the use of different rodent parasites with differential effects. Infection of C57BL/6 mice with Plasmodium yoelii 17XL (PyL) causes lethal infection through high parasitemia [6]. P. berghei ANKA (PbA) infected-mice develop lethal cerebral malaria, despite low parasitemia [8]. The combination of different mouse strains and parasites results in different outcomes in the course of infection. Each combination demonstrates a different potential contribution of CD8+ T cells to host defense or immunopathology
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