Molecular diversity and in vitro evolution of canine coronavirus (CCoV)

Canine coronavirus (CCoV) causes gastroenteritis in young dogs and can be lethal, especially when there is co-infection with canine parvovirus (CPV). The objectives of this project were to investigate the presence of CCoV and CPV in stool samples from young dogs, the molecular diversity of CCoV strains based on partial sequencing of genes M, S, N and 3b, and the in vitro evolution of CCoV in A72 canine fibroma. Of the fecal samples studied, 40.17% animals (47/117) were positive for CCoV and 13.68% (16/117) for CPV. Phylogenetic studies have shown that eight strains were CCoV-II and twenty five CCoV-I. Phylogenetic analysis for the M gene highlighted the high identity of CCoV-I strains with a feline coronavirus strain (FCoV) that causes feline infectious peritonitis (FIP). Further analysis based on the spike gene showed a putative pantropic CCoV strain (CCoV-II/dog50). CCoV nucleocapsid gene is highly conserved among type I and type II, with a lower resolution relative to trees based on M and S genes. CCoV Types I and II had a low polymorphism for 3b gene, without any stable markers to differentiate thee types. Regarding the virus isolation trial, a putative pantropic CCoV-II strain was successfully isolated in A72 cells from, resulting in cytopathic effect on the 5th day of the 5th passage. In the evolutionary study, the vaccine strain CCV 1-71 and nine passages of this strain in A72 were submitted to partial S gene amplification and molecular cloning followed by DNA sequencing. Missense, silent, and three amino acids deletions were found amongst diverse clones of each passage, but no mutation was repeatedly found among passages. Cell culture-adapted CCoV-II vaccine strains can be highly genetically stable upon serial passage in a same cell line, accumulating primarily synonymous nucleotide substitutions in the S gene due to a stable cell-host relationship. In short, all data gathering herein on molecular epidemiology and evolutionary processes of CCoV can serve for a better understanding of basic virology and as a basis for studies on other coronaviruses (AU)