Rapid generation of a mouse model for Middle East respiratory syndrome

J Zhao, K Li, C Wohlford-Lenane… - Proceedings of the …, 2014 - National Acad Sciences
J Zhao, K Li, C Wohlford-Lenane, SS Agnihothram, C Fett, J Zhao, MJ Gale Jr, RS Baric…
Proceedings of the National Academy of Sciences, 2014National Acad Sciences
In this era of continued emergence of zoonotic virus infections, the rapid development of
rodent models represents a critical barrier to public health preparedness, including the
testing of antivirus therapy and vaccines. The Middle East respiratory syndrome coronavirus
(MERS-CoV) was recently identified as the causative agent of a severe pneumonia. Given
the ability of coronavirus to rapidly adapt to new hosts, a major public health concern is that
MERS-CoV will further adapt to replication in humans, triggering a pandemic. No small …
In this era of continued emergence of zoonotic virus infections, the rapid development of rodent models represents a critical barrier to public health preparedness, including the testing of antivirus therapy and vaccines. The Middle East respiratory syndrome coronavirus (MERS-CoV) was recently identified as the causative agent of a severe pneumonia. Given the ability of coronavirus to rapidly adapt to new hosts, a major public health concern is that MERS-CoV will further adapt to replication in humans, triggering a pandemic. No small-animal model for this infection is currently available, but studies suggest that virus entry factors can confer virus susceptibility. Here, we show that mice were sensitized to MERS-CoV infection by prior transduction with adenoviral vectors expressing the human host-cell receptor dipeptidyl peptidase 4. Mice developed a pneumonia characterized by extensive inflammatory-cell infiltration with virus clearance occurring 6–8 d after infection. Clinical disease and histopathological changes were more severe in the absence of type-I IFN signaling whereas the T-cell response was required for virus clearance. Using these mice, we demonstrated the efficacy of a therapeutic intervention (poly I:C) and a potential vaccine [Venezuelan equine encephalitis replicon particles expressing MERS-CoV spike protein]. We also found little protective cross-reactivity between MERS-CoV and the severe acute respiratory syndrome-CoV. Our results demonstrate that this system will be useful for MERS-CoV studies and for the rapid development of relevant animal models for emerging respiratory viral infections.
National Acad Sciences