AI Article Synopsis
- MERS-CoV, a virus affecting humans and camels, has an unclear origin and evolution, and the study focuses on a specific camel-derived strain (NRCE-HKU205) from the 2013 outbreak.
- The NRCE-HKU205 strain has a distinct spike protein with a key substitution that impairs its ability for furin-mediated cleavage, which is critical for viral fusion and entry.
- This strain shows reduced cell fusion and viral entry capabilities compared to a human strain, suggesting it may have a limited ability to infect different hosts and indicating its role in the broader ecology and evolution of MERS-CoV.
Article Abstract
Middle East respiratory syndrome coronavirus (MERS-CoV) continues to circulate in both humans and camels, and the origin and evolution of the virus remain unclear. Here we characterize the spike protein of a camel-derived MERS-CoV (NRCE-HKU205) identified in 2013, early in the MERS outbreak. NRCE-HKU205 spike protein has a variant cleavage motif with regard to the S2' fusion activation site-notably, a novel substitution of isoleucine for the otherwise invariant serine at the critical P1' cleavage site position. The substitutions resulted in a loss of furin-mediated cleavage, as shown by fluorogenic peptide cleavage and western blot assays. Cell-cell fusion and pseudotyped virus infectivity assays demonstrated that the S2' substitutions decreased spike-mediated fusion and viral entry. However, cathepsin and trypsin-like protease activation were retained, albeit with much reduced efficiency compared with the prototypical EMC/2012 human strain. We show that NRCE-HKU205 has more limited fusion activation properties possibly resulting in more restricted viral tropism and may represent an intermediate in the complex pattern of MERS-CoV ecology and evolution.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5180369 | PMC |
| http://dx.doi.org/10.1038/emi.2016.125 | DOI Listing |
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