Douglas Brining scite author profile

The emergence of Middle East respiratory syndrome coronavirus (MERS-CoV) is of global concern – causing severe respiratory illness with 97 confirmed cases and 46 deaths1. Therapeutic interventions have not been evaluated in vivo, thus patient management relies exclusively on supportive care, which given the high case-fatality rate is not highly effective. The rhesus macaque is the only known disease model for MERS-CoV, developing an acute localized-to-widespread pneumonia with transient clinical disease2,3 that recapitulates mild-to-moderate human MERS-CoV cases4,5. The combination of interferon-α2b and ribavirin was effective in reducing MERS-CoV replication in vitro6; therefore, this strategy was initiated 8 h post-infection in the rhesus macaque model. Treated animals did not develop breathing abnormalities and showed no-to-very mild radiographic evidence of pneumonia. Moreover, treated animals showed reduced levels of systemic (serum) and local (lung) proinflammatory markers in addition to reduced viral genome copies, altered gene expression and less severe histopathological changes in the lungs. Taken together, these data suggest that treatment of MERS-CoV infected rhesus macaques with IFN-α2b and ribavirin reduces virus replication, moderates the host response and improves clinical outcome. As these two drugs are already used in combination in the clinic, IFN-α2b and ribavirin should be considered for management of MERS-CoV cases.

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Middle East respiratory syndrome coronavirus (MERS-CoV) causes transient lower respiratory tract infection in rhesus macaques

Wit¹,

Rasmussen

Falzarano³

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

285

283

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In 2012, a novel betacoronavirus, designated Middle East respiratory syndrome coronavirus or MERS-CoV and associated with severe respiratory disease in humans, emerged in the Arabian Peninsula. To date, 108 human cases have been reported, including cases of human-to-human transmission. The availability of an animal disease model is essential for understanding pathogenesis and developing effective countermeasures. Upon a combination of intratracheal, ocular, oral, and intranasal inoculation with 7 × 10 6 50% tissue culture infectious dose of the MERS-CoV isolate HCoV-EMC/2012, rhesus macaques developed a transient lower respiratory tract infection. Clinical signs, virus shedding, virus replication in respiratory tissues, gene expression, and cytokine and chemokine profiles peaked early in infection and decreased over time. MERS-CoV caused a multifocal, mild to marked interstitial pneumonia, with virus replication occurring mainly in alveolar pneumocytes. This tropism of MERS-CoV for the lower respiratory tract may explain the severity of the disease observed in humans and the, up to now, limited human-to-human transmission.emerging infectious disease | DPP4

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Antibodies are necessary for rVSV/ZEBOV-GP–mediated protection against lethal Ebola virus challenge in nonhuman primates

Marzi¹,

Engelmann

Feldmann

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

242

245

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Ebola viruses cause hemorrhagic disease in humans and nonhuman primates with high fatality rates. These viruses pose a significant health concern worldwide due to the lack of approved therapeutics and vaccines as well as their potential misuse as bioterrorism agents.Although not licensed for human use, recombinant vesicular stomatitis virus (rVSV) expressing the filovirus glycoprotein (GP) has been shown to protect macaques from Ebola virus and Marburg virus infections, both prophylactically and postexposure in a homologous challenge setting. However, the immune mechanisms of protection conferred by this vaccine platform remain poorly understood. In this study, we set out to investigate the role of humoral versus cellular immunity in rVSV vaccine-mediated protection against lethal Zaire ebolavirus (ZEBOV) challenge. Groups of cynomolgus macaques were depleted of CD4+ T, CD8+ T, or CD20+ B cells before and during vaccination with rVSV/ZEBOV-GP. Unfortunately, CD20-depleted animals generated a robust IgG response. Therefore, an additional group of vaccinated animals were depleted of CD4+ T cells during challenge. All animals were subsequently challenged with a lethal dose of ZEBOV. Animals depleted of CD8+ T cells survived, suggesting a minimal role for CD8+ T cells in vaccine-mediated protection. Depletion of CD4+ T cells during vaccination caused a complete loss of glycoprotein-specific antibodies and abrogated vaccine protection. In contrast, depletion of CD4+ T cells during challenge resulted in survival of the animals, indicating a minimal role for CD4+ T-cell immunity in rVSV-mediated protection. Our results suggest that antibodies play a critical role in rVSV-mediated protection against ZEBOV.

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Douglas Brining

Treatment with interferon-α2b and ribavirin improves outcome in MERS-CoV–infected rhesus macaques

Middle East respiratory syndrome coronavirus (MERS-CoV) causes transient lower respiratory tract infection in rhesus macaques

Antibodies are necessary for rVSV/ZEBOV-GP–mediated protection against lethal Ebola virus challenge in nonhuman primates

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