Comparative analysis of the molecular mechanism of resistance to vapendavir across a panel of picornavirus species

Vapendavir is a rhino/enterovirus inhibitor that targets a hydrophobic pocket in the viral capsid preventing the virus from entering the cell. We set out to study and compare the molecular mechanisms of resistance to vapendavir among clinically relevant Picornavirus species. To this end in vitro resistance selection of drug-resistant isolates was applied in rhinovirus 2 and 14, enterovirus-D68 and Poliovirus 1 Sabin. Mutations in the drug-binding pocket in VP1 (C199R/Y in hRV14; I194F in PV1; M252L and A156T in EV-D68), typical for this class of compounds, were identified. Interestingly, we also observed mutations located outside the pocket (K167E in EV-D68 and G149C in hRV2) that contribute to the resistant phenotype. Remarkably, the G149C substitution rendered the replication of human rhinovirus 2 dependent on the presence of vapendavir. Our data suggest that the binding of vapendavir to the capsid of the G149C isolate may be required to stabilize the viral particle and to allow efficient dissemination of the virus. We observed the dependency of the G149C isolate on other compounds of this class, suggesting that this phenotype is common for capsid binders. In addition the VP1 region containing the G149C substitution has not been associated with antiviral resistance before. Our results demonstrate that the phenotype and genotype of clinically relevant vapendavir-resistant picornavirus species is more complex than generally believed. ispartof: ANTIVIRAL RESEARCH vol:195 ispartof: location:Netherlands status: published