Impact of Mutations at Residue I223 of the Neuraminidase Protein on the Resistance Profile, Replication Level, and Virulence of the 2009 Pandemic Influenza Virus

Abstract

ABSTRACTAmino acid substitutions at residue I223 of the neuraminidase (NA) protein have been identified in 2009 pandemic influenza (pH1N1) variants with altered susceptibilities to NA inhibitors (NAIs). We used reverse genetics and site-directed mutagenesis to generate the recombinant A/Québec/144147/09 pH1N1 wild-type virus (WT) and five (I223R, I223V, H275Y, I223V-H275Y, and I223R-H275Y) NA mutants. A fluorimetry-based assay was used to determine 50% inhibitory concentrations (IC50s) of oseltamivir, zanamivir, and peramivir. Replicative capacity was analyzed by viral yield assays in ST6GalI-MDCK cells. Infectivity and transmission of the WT, H275Y, and I223V-H275Y recombinant viruses were evaluated in ferrets. As expected, the H275Y mutation conferred resistance to oseltamivir (982-fold) and peramivir (661-fold) compared to the drug-susceptible recombinant WT. The single I223R mutant was associated with reduced susceptibility to oseltamivir (53-fold), zanamivir (7-fold) and peramivir (10-fold), whereas the I223V virus had reduced susceptibility to oseltamivir (6-fold) only. Interestingly, enhanced levels of resistance to oseltamivir and peramivir and reduced susceptibility to zanamivir (1,647-, 17,347-, and 16-fold increases in IC50s, respectively) were observed for the I223R-H275Y recombinant, while the I223V-H275Y mutant exhibited 1,733-, 2,707-, and 2-fold increases in respective IC50s. The I223R and I223V changes were associated with equivalent or higher viral titersin vitrocompared to the recombinant WT. Infectivity and transmissibility in ferrets were comparable between the recombinant WT and the H275Y or I223V-H275Y recombinants. In conclusion, amino acid changes at residue I223 may alter the NAI susceptibilities of pH1N1 variants without compromising fitness. Consequently, I223R and I223V mutations, alone or with H275Y, need to be thoroughly monitored.