Receptor characterization and susceptibility of cotton rats to avian and 2009 pandemic influenza virus strains.

Animal influenza viruses (AIVs) are a major threat to human health and the source of pandemic influenza. A reliable small-mammal model to study the pathogenesis of infection and for testing vaccines and therapeutics against multiple strains of influenza virus is highly desirable. We show that cotton rats (Sigmodon hispidus) are susceptible to avian and swine influenza viruses. Cotton rats express α2,3-linked sialic acid (SA) and α2,6-linked SA residues in the trachea and α2,6-linked SA residues in the lung parenchyma. Prototypic avian influenza viruses (H3N2, H9N2, and H5N1) and swine-origin 2009 pandemic H1N1 viruses replicated in the nose and in the respiratory tract of cotton rats without prior adaptation and produced strong lung pathology that was characterized by early lung neutrophilia, followed by subsequent pneumonia. Consistent with other natural and animal models of influenza, only the H5N1 virus was lethal for cotton rats. More importantly, we show that the different avian and pandemic H1N1 strains tested are strong activators of the type I interferon (IFN)-inducible MX-1 gene both locally and systemically. Our data indicate that the cotton rat is a suitable small-mammal model to study the infection of animal influenza viruses and for validation of vaccines and therapeutics against these viruses.

Maternal transfer of RSV immunity in cotton rats vaccinated during pregnancy.

Respiratory Syncytial Virus (RSV) is the leading cause of pneumonia and bronchiolitis in infants, resulting in significant morbidity and mortality worldwide. There is currently no RSV vaccine. Although maternal serum antibodies against RSV are efficiently transferred through placenta protecting human infants from RSV-induced disease, this protection is short-lived and the methods for extending and augmenting protection are not known. The objective of this study was to develop an animal model of maternal RSV vaccination using the Sigmodon hispidus cotton rat. Naïve or RSV-primed female cotton rats were inoculated with live RSV and set in breeding pairs. Antibody transfer to the litters was quantified and the offspring were challenged with RSV at different ages for analysis of protection against viral replication and lung inflammation. There was a strong correlation between RSV-neutralizing antibody (NA) titers in cotton rat mothers and their pups, which also correlated with protection of litters against virus challenge. Passive protection was short-lived and strongly reduced in animals at 4 weeks after birth. Protection of litters was significantly enhanced by inoculating mothers parenterally with live RSV and inversely correlated with the expression of lung cytokines and pathology. Importantly, vaccination and boosting of naïve mothers with the live RSV produced the highest levels of NAs. We conclude that maternal vaccination against RSV in the cotton rat can be used to define vaccine preparations that could improve preexistent immunity and induce subsequent transfer of efficient immunity to infants.