Abstract
Coronaviruses evolve rapidly, with recombination and mutation fostering the emergence of variant strains. The avian coronavirus infectious bronchitis virus (IBV) is an important poultry pathogen and a valuable natural model for studying coronaviruses. Australian strains have evolved independently of those infecting chickens elsewhere in the world, so understanding the biology and evolution of these strains can further our understanding of factors driving the emergence of novel coronaviruses. We infected groups of specific pathogen-free Leghorn chickens with six Australian IBVs (from five distinct genotypes) isolated between 1962 and 2013. All six affected the respiratory tract, but only one was nephropathogenic (N1/62). All six induced significant lesions and actively replicated in the upper respiratory tract, but they had lower levels of replication and induced less severe lesions in the middle and lower trachea. There were significant differences between the six strains in the severity of the lesions they induced and in their tissue tropism and effect on tracheal ciliary motility. Strains N1/62 (strain T) and N1/03 caused the most severe tracheal ciliostasis and replicated to the highest levels in tissues. Strain N1/03 caused the most severe lesions at 9 days post-infection. Only strain N1/03 caused lesions in the lower trachea. Overall, strains N1/03 and N1/62 were the most virulent. This study is the first to characterize the histological changes induced by the recently isolated Australian IBVs and compare them directly with older strains. Recombination between field and vaccine strains of IBV has yielded emergent IBVs in Australia that appear to have enhanced virulence for the respiratory tract.