Carla Claser scite author profile

Chikungunya virus (CHIKV) is an alphavirus that causes chronic and incapacitating arthralgia in humans. Injury to the joint is believed to occur because of viral and host immune-mediated effects. However, the exact involvement of the different immune mediators in CHIKV-induced pathogenesis is unknown. In this study, we assessed the roles of T cells in primary CHIKV infection, virus replication and dissemination, and virus persistence, as well as in the mediation of disease severity in adult RAG2−/−, CD4−/−, CD8−/−, and wild-type CHIKV C57BL/6J mice and in wild-type mice depleted of CD4+ or CD8+ T cells after Ab treatment. CHIKV-specific T cells in the spleen and footpad were investigated using IFN-γ ELISPOT. Interestingly, our results indicated that CHIKV-specific CD4+, but not CD8+, T cells are essential for the development of joint swelling without any effect on virus replication and dissemination. Infection in IFN-γ−/− mice demonstrated that pathogenic CD4+ T cells do not mediate inflammation via an IFN-γ–mediated pathway. Taken together, these observations strongly indicate that mechanisms of joint pathology induced by CHIKV in mice resemble those in humans and differ from infections caused by other arthritogenic viruses, such as Ross River virus.

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Brain microvessel cross‐presentation is a hallmark of experimental cerebral malaria

Howland

et al. 2013

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Cerebral malaria is a devastating complication of Plasmodium falciparum infection. Its pathogenesis is complex, involving both parasite- and immune-mediated events. CD8+ T cells play an effector role in murine experimental cerebral malaria (ECM) induced by Plasmodium berghei ANKA (PbA) infection. We have identified a highly immunogenic CD8 epitope in glideosome-associated protein 50 that is conserved across rodent malaria species. Epitope-specific CD8+ T cells are induced during PbA infection, migrating to the brain just before neurological signs manifest. They are functional, cytotoxic and can damage the blood–brain barrier in vivo. Such CD8+ T cells are also found in the brain during infection with parasite strains/species that do not induce neuropathology. We demonstrate here that PbA infection causes brain microvessels to cross-present parasite antigen, while non-ECM-causing parasites do not. Further, treatment with fast-acting anti-malarial drugs before the onset of ECM reduces parasite load and thus antigen presentation in the brain, preventing ECM death. Thus our data suggest that combined therapies targeting both the parasite and host antigen-presenting cells may improve the outcome of CM patients.

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Plasmodium vivax: restricted tropism and rapid remodeling of CD71-positive reticulocytes

Li²,

et al. 2015

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Key Points• Plasmodium vivax merozoites preferentially infect a subgroup of reticulocytes generally restricted to the bone marrow.• Accelerated "maturation" of infected reticulocytes.Plasmodium vivax merozoites only invade reticulocytes, a minor though heterogeneous population of red blood cell precursors that can be graded by levels of transferrin receptor (CD71) expression. The development of a protocol that allows sorting reticulocytes into defined developmental stages and a robust ex vivo P vivax invasion assay has made it possible for the first time to investigate the fine-scale invasion preference of P vivax merozoites. Surprisingly, it was the immature reticulocytes (CD71 1) that are generally restricted to the bone marrow that were preferentially invaded, whereas older reticulocytes (CD71 2 ), principally found in the peripheral blood, were rarely invaded. Invasion assays based on the CD71 1 reticulocyte fraction revealed substantial postinvasion modification. Thus, 3 to 6 hours after invasion, the initially biomechanically rigid CD71 1 reticulocytes convert into a highly deformable CD71 2 infected red blood cell devoid of host reticular matter, a process that normally spans 24 hours for uninfected reticulocytes. Concurrent with these changes, clathrin pits disappear by 3 hours postinvasion, replaced by distinctive caveolae nanostructures. These 2 hitherto unsuspected features of P vivax invasion, a narrow preference for immature reticulocytes and a rapid remodeling of the host cell, provide important insights pertinent to the pathobiology of the P vivax infection. (Blood. 2015;125(8):1314-1324

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Carla Claser

A Pathogenic Role for CD4+ T Cells during Chikungunya Virus Infection in Mice

Brain microvessel cross‐presentation is a hallmark of experimental cerebral malaria

Plasmodium vivax: restricted tropism and rapid remodeling of CD71-positive reticulocytes

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