Spectrum of Virus Inhibition by Consensus Interferon YM643

Abstract

The spectrum of viruses inhibited by a genetically engineered consensus interferon (IFN) YM643 (interferon alfacon-1) was evaluated using a cytopathic effect inhibition assay or plaque inhibition assay for five DNA viruses and 12 RNA viruses. This activity was compared to that of natural IFN-α derived from Namalwa lymphoblastoid cell line [IFN-a (Namalwa)]. The viruses inhibited by both IFNs were herpesvirus types 1 and 2, human cytomegalovirus, varicella-zoster virus, vesicular stomatitis virus, yellow fever virus, bovine viral diarrhoea virus, Semliki Forest virus, western equine encephalitis virus, encephalomyocarditis virus, rhinovirus type A, respiratory syncytial virus, Newcastle disease virus and influenza virus type A (H1N1). Neither IFN inhibited coxsackie virus B1, reovirus type 3 or vaccinia virus in the experimental conditions used. The specific activity of YM643 in human cells generally ranged from 3.6¥107 to 2.1¥109 IU/mg, which was greater than that of IFN-a (Namalwa), which ranged from 3.1¥106 to 4.6¥108 IU/mg against all sensitive viruses, except human cytomegalovirus and rhinovirus type 1A, which displayed approximately equal sensitivity to both IFNs. Significantly, the potency of YM643 against bovine viral diarrhoea virus and yellow fever virus, which were selected to serve as surrogates of hepatitis C virus, equalled or exceeded that of IFN-a (Namalwa). These results suggest that the genetically engineered YM643 is more potent than natural IFN-a.