Abstract
Continued outbreaks of Henipaviruses in South Asia and Australia cause severe and lethal disease in both humans and animals. Together, with evidence of human to human transmission for Nipah virus and the lack of preventative or therapeutic measures, its threat to cause a widespread outbreak and its potential for weaponization has increased. In this study we demonstrate how overexpression of the Nipah virus nucleocapsid protein regulates viral polymerase activity and viral RNA production. By overexpressing the Nipah virus nucleocapsid protein in trans viral transcription was inhibited; however, an increase in viral genome synthesis was observed. Together, the bias of polymerase activity towards genome production led to the severe inhibition of viral progeny. We identified two domains within the nucleocapsid protein, which were each independently capable of binding the viral phosphoprotein. Evident by our data, we propose that the nucleocapsid protein’s ability to interact with the phosphoprotein of the polymerase complex causes a change in polymerase activity and subsequent deficiency in viral replication. This study not only provides insights into the dynamics of Henipavirus RNA synthesis and replication, but also provides insight into potential targets for antiviral drug development.
Highlights
Nipah virus (NiV) is a highly virulent zoonotic pathogen that can cause serious neurological and respiratory disease leading to death in both humans and animals[1,2,3,4]
Our results suggest that recombinant NiV N present at the time of infection inhibits viral mRNA transcription and promotes viral genomic RNA synthesis mediated through a mistimed interaction with the NiV P, subsequently causing the overall inhibition of viral replication
In an effort to better characterize how the NiV N protein regulates its viral polymerase activity, we focused on this interaction and determined if the region(s) necessary for binding NiV P were sufficient to cause a disruption to viral RNA synthesis
Summary
Nipah virus (NiV) is a highly virulent zoonotic pathogen that can cause serious neurological and respiratory disease leading to death in both humans and animals[1,2,3,4]. It was first observed in Malaysia and Singapore in 1998 and is an emergent zoonotic disease in areas of South Asia with case fatality rates as high as 75%1–6. Our results suggest that recombinant NiV N present at the time of infection inhibits viral mRNA transcription and promotes viral genomic RNA synthesis mediated through a mistimed interaction with the NiV P, subsequently causing the overall inhibition of viral replication
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