Abstract
Influenza virus neuraminidase (NA) cleaves terminal sialic acid residues on oligosaccharide chains that are receptors for virus binding, thus playing an important role in the release of virions from infected cells to promote the spread of cell-to-cell infection. In addition, NA plays a role at the initial stage of viral infection in the respiratory tract by degrading hemagglutination inhibitors in body fluid which competitively inhibit receptor binding of the virus. Current first line anti-influenza drugs are viral NA-specific inhibitors, which do not inhibit bacterial neuraminidases. Since neuraminidase producing bacteria have been isolated from oral and upper respiratory commensal bacterial flora, we posited that bacterial neuraminidases could decrease the antiviral effectiveness of NA inhibitor drugs in respiratory organs when viral NA is inhibited. Using in vitro models of infection, we aimed to clarify the effects of bacterial neuraminidases on influenza virus infection in the presence of the NA inhibitor drug zanamivir. We found that zanamivir reduced progeny virus yield to less than 2% of that in its absence, however the yield was restored almost entirely by the exogenous addition of bacterial neuraminidase from Streptococcus pneumoniae. Furthermore, cell-to-cell infection was severely inhibited by zanamivir but restored by the addition of bacterial neuraminidase. Next we examined the effects of bacterial neuraminidase on hemagglutination inhibition and infectivity neutralization activities of human saliva in the presence of zanamivir. We found that the drug enhanced both inhibitory activities of saliva, while the addition of bacterial neuraminidase diminished this enhancement. Altogether, our results showed that bacterial neuraminidases functioned as the predominant NA when viral NA was inhibited to promote the spread of infection and to inactivate the neutralization activity of saliva. We propose that neuraminidase from bacterial flora in patients may reduce the efficacy of NA inhibitor drugs during influenza virus infection. (295 words).
Highlights
Influenza is one of the most common infectious diseases, affecting millions of people around the world every year
We examined the effects of bacterial neuraminidase on influenza virus infection in the presence of an NA inhibitor in an in vitro model of infection
The bacterial culture supernatants of 34 strains of 13 species isolated from human oral or upper respiratory tracts were screened for secreted neuraminidase activity (Figure 1)
Summary
Influenza is one of the most common infectious diseases, affecting millions of people around the world every year. The drugs are categorized into two groups, M2 protein inhibitors and neuraminidase inhibitors The former was developed earlier and most influenza viruses presently circulating among humans are resistant against the inhibitors from this group. In the latter, oseltamivir [1] and zanamivir [2] are widely used against influenza, effectively reducing the duration and severity of influenza illness. Oseltamivir [1] and zanamivir [2] are widely used against influenza, effectively reducing the duration and severity of influenza illness These drugs were the only available options during the 2009 pandemic
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