Background: Respiratory enteric orphan (reo)virus is a promising oncolytic viral candidate. Reoviral anticancer therapy is currently undergoing multiple clinical trials targeting various human cancers; however, there is no effective reoviral inhibitor that can be used to block unwanted reovirus replication during reoviral anticancer therapy.
Methods: Studies were conducted with transformed or normal cells in vitro and in vivo to characterize viral replication in the presence or absence of chemical inhibitors.
Results: We have identified a protease inhibitor that is very effective in the inhibition of viral replication. The dipeptide benzyloxycarbonyl-Phe-Ala-fluoromethyl ketone (Z-FA-FMK) effectively inhibited reovirus replication in a susceptible host and cured cells of a persistent infection with reovirus in vitro. Electron microscopic analysis of Z-FA-FMK-treated cells revealed that internalized reovirus virions, retained in a perinuclear localization, no longer undergo further processing into viral factories following Z-FA-FMK treatment, suggesting that Z-FA-FMK specifically affects a reovirus virion maturation step. Animal studies showed that reovirus infection of Ras oncogenic tumours and host heart tissues is completely blocked by Z-FA-FMK treatment in severe combined immunodeficiency mice.
Conclusions: Z-FA-FMK is a very effective viral inhibitor that can prevent reovirus replication in vitro and reovirus-mediated myocarditis, as well as reovirus-mediated oncolysis, in vivo. A potential application of this drug for inhibition of reovirus infection is suggested.