1. Potent antiviral agents fail to elicit genetically-stable resistance mutations in either enterovirus 71 or Coxsackievirus A16
- Author
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Elizabeth E. Fry, Nicola J. Stonehouse, J. Kelly, Luigi De Colibus, David I. Stuart, Lauren Elliott, and David J. Rowlands
- Subjects
Models, Molecular ,Protein Conformation ,Short Communication ,viruses ,Hand foot and mouth disease ,MTT, 3-(4,5-Dimethylthiazol-2-Yl)-2,5-Diphenyltetrazolium Bromide ,Drug resistance ,Crystallography, X-Ray ,medicine.disease_cause ,Antiviral Agents ,CC50, Half maximal cytotoxic concentration ,Cell Line ,Capsid binding ,Capsid ,TCID50, Half-maximal tissue culture infective dose ,Serial passage ,Virology ,Drug Resistance, Viral ,Fitness ,Enterovirus 71 ,medicine ,Animals ,Humans ,Vero Cells ,Enterovirus ,CVB, Coxsackie virus B ,Pharmacology ,Mutation ,biology ,CVA16, Coxsackie virus A16 ,WT, Wild Type ,biology.organism_classification ,Phenotype ,Enterovirus A, Human ,PV, poliovirus ,Vero cell ,Capsid Proteins ,IC50, Half-maximal inhibitory concentration ,EV71, Enterovirus 71 ,Hand, Foot and Mouth Disease ,VP1 pocket ,VP1, Viral Protein 1 - Abstract
Enterovirus 71 (EV71) and Coxsackievirus A16 (CVA16) are the two major causative agents of hand, foot and mouth disease (HFMD), for which there are currently no licenced treatments. Here, the acquisition of resistance towards two novel capsid-binding compounds, NLD and ALD, was studied and compared to the analogous compound GPP3. During serial passage, EV71 rapidly became resistant to each compound and mutations at residues I113 and V123 in VP1 were identified. A mutation at residue 113 was also identified in CVA16 after passage with GPP3. The mutations were associated with reduced thermostability and were rapidly lost in the absence of inhibitors. In silico modelling suggested that the mutations prevented the compounds from binding the VP1 pocket in the capsid. Although both viruses developed resistance to these potent pocket-binding compounds, the acquired mutations were associated with large fitness costs and reverted to WT phenotype and sequence rapidly in the absence of inhibitors. The most effective inhibitor, NLD, had a very large selectivity index, showing interesting pharmacological properties as a novel anti-EV71 agent., Highlights • Resistance to each compound developed rapidly, mutations at residues I113 and V123 were identified. • Resistance mutations were associated with a large fitness cost. • The mutations resulted in reduced affinity for the pocket factor. • The most effective inhibitor, NLD, had a very large therapeutic window, and has potential as a novel anti-EV71 agent.
- Published
- 2015
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