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Chimeric Mice with Competent Hematopoietic Immunity Reproduce Key Features of Severe Lassa Fever.

PLoS pathogens (2016-05-19)
Lisa Oestereich, Anja Lüdtke, Paula Ruibal, Elisa Pallasch, Romy Kerber, Toni Rieger, Stephanie Wurr, Sabrina Bockholt, José V Pérez-Girón, Susanne Krasemann, Stephan Günther, César Muñoz-Fontela
RÉSUMÉ

Lassa fever (LASF) is a highly severe viral syndrome endemic to West African countries. Despite the annual high morbidity and mortality caused by LASF, very little is known about the pathophysiology of the disease. Basic research on LASF has been precluded due to the lack of relevant small animal models that reproduce the human disease. Immunocompetent laboratory mice are resistant to infection with Lassa virus (LASV) and, to date, only immunodeficient mice, or mice expressing human HLA, have shown some degree of susceptibility to experimental infection. Here, transplantation of wild-type bone marrow cells into irradiated type I interferon receptor knockout mice (IFNAR-/-) was used to generate chimeric mice that reproduced important features of severe LASF in humans. This included high lethality, liver damage, vascular leakage and systemic virus dissemination. In addition, this model indicated that T cell-mediated immunopathology was an important component of LASF pathogenesis that was directly correlated with vascular leakage. Our strategy allows easy generation of a suitable small animal model to test new vaccines and antivirals and to dissect the basic components of LASF pathophysiology.

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Millipore
Panel d'analytes associés aux lymphocytes T CD8+ de souris MILLIPLEX® avec billes magnétiques - 15 plex prémixés - Essai multiplex d'immunologie, Inflammation/Immunology Bead-Based Multiplex Assays using the Luminex technology enables the simultaneous analysis of multiple cytokine and chemokine CD8+ biomarkers in mouse serum, plasma and cell culture samples.