Myriam Marussig scite author profile

IFN‐γ has been implicated in the pathogenesis of experimental cerebral malaria (ECM). We have used mice lacking the α chain of the IFN‐γ receptor (KO mice) to define its role in the pathogenesis of ECM. Infected KO mice did not develop ECM and showed no leukocyte or parasite sequestration in the brain, and no hemorrhages. The resistance of KO mice to ECM was associated with the absence of any increases of TNF‐α and ICAM‐1 proteins in the brain, which are both essential for ECM. Wild‐type (WT) mice which do not develop ECM, despite increased local production of TNF‐α protein, showed no leukocyte accumulation in the brain and this was correlated with the absence of ICAM‐1 protein from brain microvessels. KO mice infected with 106 parasitized erythrocytes (PE) of Plasmodium berghei ANKA (PbA) did not develop ECM, but they had high parasitemia and died earlier than WT mice which did not develop ECM. However, KO mice did not develop higher parasitemia than WT mice when both groups were infected with a lower dose (5×105 PE) of PbA‐infected red blood cells. This indicates that different doses of PE may trigger different IFN‐γ responses and that there may be a threshold concentration for protection against parasitemia.

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Recombinant Human IFN-α Inhibits Cerebral Malaria and Reduces Parasite Burden in Mice

Vigário

Belnoue

Grüner

et al. 2007

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Most C57BL/6 mice infected i.p. with Plasmodium berghei ANKA (PbA) die between 7 and 14 days with neurologic signs, and the remainder die later (>15 days) with severe anemia. Daily i.p. injections of a recombinant human IFN-α (active on mouse cells) prevented death by cerebral malaria (87% deaths in the control mice vs 6% in IFN-α-treated mice). The mechanisms of this IFN-α protective effect were multiple. IFN-α-treated, PbA-infected mice showed 1) a marked decrease in the number of PbA parasites in the blood mediated by IFN-γ, 2) less sequestered parasites in cerebral vessels, 3) reduced up-regulation of ICAM-1 expression in brain endothelial cells, 4) milder rise of blood levels of TNF, 5) increased levels of IFN-γ in the blood resulting from an increased production by splenic CD8+ T cells, and 6) fewer leukocytes (especially CD8+ T cells) sequestered in cerebral vessels. On the other hand, IFN-α treatment did not affect the marked anemia observed in PbA-infected mice. Survival time in IFN-α-treated mice was further increased by performing three blood transfusions over consecutive days.

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Myriam Marussig

Involvement of IFN-γ receptor-mediated signaling in pathology and anti-malarial immunity induced by Plasmodium berghei infection

Recombinant Human IFN-α Inhibits Cerebral Malaria and Reduces Parasite Burden in Mice

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