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Hoffmann, R. A wiki for the life sciences where authorship matters. Nature Genetics (2008)
 
 
 

Catalytic and framework mutations in the neuraminidase active site of influenza viruses that are resistant to 4-guanidino-Neu5Ac2en.

Here we report the isolation of influenza virus A/turkey/Minnesota/833/80 (H4N2) with a mutation at the catalytic residue of the neuraminidase ( NA) active site, rendering it resistant to the novel NA inhibitor 4-guanidino-Neu5Ac2en (GG167). The resistance of the mutant stems from replacement of one of three invariant arginines ( Arg 292-->Lys) that are conserved among all viral and bacterial NAs and participate in the conformational change of sialic acid moiety necessary for substrate catalysis. The Lys292 mutant was selected in vitro after 15 passages at increasing concentrations of GG167 (from 0.1 to 1,000 microM), conditions that earlier gave rise to GG167-resistant mutants with a substitution at the framework residue Glu119. Both types of mutants showed similar degrees of resistance in plaque reduction assays, but the Lys292 mutant was more sensitive to the inhibitor in NA inhibition tests than were mutants bearing a substitution at framework residue 119 (Asp, Ala, or Gly). Cross-resistance to other NA inhibitors (4-amino-Neu5Ac2en and Neu5Ac2en) varied among mutants resistant to GG167, being lowest for Lys292 and highest for Asp119. All GG167-resistant mutants demonstrated markedly reduced NA activity, only 3 to 50% of the parental level, depending on the particular amino acid substitution. The catalytic mutant (Lys292) showed a significant change in pH optimum of NA activity, from 5.9 to 5. 3. All of the mutant NAs were less stable than the parental enzyme at low pH. Despite their impaired NA activity, the GG167-resistant mutants grew as well as parental virus in Madin-Darby canine kidney cells or in embryonated chicken eggs. However, the infectivity in mice was 500-fold lower for Lys292 than for the parental virus. These findings demonstrate that amino acid substitution in the NA active site at the catalytic or framework residues, followed by multiple passages in vitro, in the presence of increasing concentrations of the NA inhibitor GG167, generates GG167-resistant viruses with reduced NA activity and decreased infectivity in animals.[1]

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