Pathophysiology of hantavirus pulmonary syndrome in rhesus macaques.

David Safronetz Joseph Prescott Friederike Feldmann Elaine Haddock Rebecca Rosenke Atsushi Okumura Douglas Brining Eric Dahlstrom Stephen F Porcella Hideki Ebihara Dana P Scott Brian Hjelle Heinz Feldmann

Proc Natl Acad Sci U S A

Laboratory of Virology,Department of Medical Microbiology, University of Manitoba, Winnipeg, MB, Canada R3E 0J9

Published: May 2014

Research on hantavirus pulmonary syndrome (HPS) has been limited by the absence of suitable animal models, particularly nonhuman primates (NHP), which are critical for studying immune responses to such viruses.
Rhesus macaques infected with Sin Nombre virus (SNV), the main cause of HPS in North America, exhibit symptoms like low platelet counts, high white blood cell counts, and severe respiratory issues due to interstitial pneumonia.
This study provides vital insights into how SNV infection affects the lungs and may contribute to respiratory distress, paving the way for better understanding of HPS and the potential development of treatments and vaccines.

The pathophysiology of hantavirus pulmonary syndrome (HPS) remains unclear because of a lack of surrogate disease models with which to perform pathogenesis studies. Nonhuman primates (NHP) are considered the gold standard model for studying the underlying immune activation/suppression associated with immunopathogenic viruses such as hantaviruses; however, to date an NHP model for HPS has not been described. Here we show that rhesus macaques infected with Sin Nombre virus (SNV), the primary etiological agent of HPS in North America, propagated in deer mice develop HPS, which is characterized by thrombocytopenia, leukocytosis, and rapid onset of respiratory distress caused by severe interstitial pneumonia. Despite establishing a systemic infection, SNV differentially activated host responses exclusively in the pulmonary endothelium, potentially the mechanism leading to acute severe respiratory distress. This study presents a unique chronological characterization of SNV infection and provides mechanistic data into the pathophysiology of HPS in a closely related surrogate animal model. We anticipate this model will advance our understanding of HPS pathogenesis and will greatly facilitate research toward the development of effective therapeutics and vaccines against hantaviral diseases.

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http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4024883	PMC
http://dx.doi.org/10.1073/pnas.1401998111	DOI Listing

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