The binding of viruses to host cells is the first step in determining tropism and pathogenicity. While avian infectious bronchitis coronavirus (IBV) infection and avian influenza A virus (IAV) infection both depend on␣2,3-linked sialic acids, the host tropism of IBV is restricted compared to that of IAV. Here we investigated whether the interaction between the viral attachment proteins and the host could explain these differences by using recombinant spike domains (S1) of IBV strains with different pathogenicities, as well as the hemagglutinin (HA) protein of IAV H5N1. Protein histochemistry showed that S1 of IBV strain M41 and HA of IAV subtype H5N1 displayed sialic acid-dependent binding to chicken respiratory tract tissue. However, while HA bound with high avidity to a broad range of ␣2,3-linked sialylated glycans, M41 S1 recognized only one particular ␣2,3-linked disialoside in a glycan array. When comparing the binding of recombinant IBV S1 proteins derived from IBV strains with known differences in tissue tropism and pathogenicity, we observed that while M41 S1 displayed binding to cilia and goblet cells of the chicken respiratory tract, S1 derived from the vaccine strain H120 or the nonvirulent Beaudette strain had reduced or no binding to chicken tissues, respectively, in agreement with the reduced abilities of these viruses to replicate in vivo. While the S1 protein derived from the nephropathogenic IBV strain B1648 also hardly displayed binding to respiratory tract cells, distinct binding to kidney cells was observed, but only after the removal of sialic acid from S1. In conclusion, our data demonstrate that the attachment patterns of the IBV S proteins correlate with the tropisms and pathogenicities of the corresponding viruses.The binding of a virus to the host cell is the first step in determining tissue and host specificity and, ultimately, pathogenicity. While some viruses, such as influenza A virus (IAV), bind to relatively abundant and universal host factors and may therefore infect various host species, other viruses have a more restricted repertoire of susceptible hosts, limited by their requirement for specific virus receptors on host cells. In general, coronaviruses, which cause respiratory and/or intestinal infections in either avian or mammalian species, are examples of viruses with a narrow host tropism.Coronaviruses are enveloped, positive-strand RNA viruses of both human and veterinary importance. Infectious bronchitis virus (IBV) is the prototype avian coronavirus, belonging to the genus Gammacoronavirus. IBV infections are restricted to domestic fowl (predominantly chickens [Gallus gallus]), causing a highly contagious respiratory disease with huge economic impact. Many IBV genotypes and serotypes, which differ extensively in their pathogenicities for poultry, are circulating worldwide (reviewed in reference 15). The initial target of IBV is the epithelial surface of the respiratory tract, but IBV also infects several nonrespiratory tissues, such as the gastrointestinal tract, the ovi...
