Replication inhibition activity of carbocycles related to oseltamivir on influenza A virus in vitro

Abstract

We have recently demonstrated that newly synthesized oseltamivir derivatives that contain a substituted triazole ring at the C-5 amino group interact with the 150 cavity found specifically in the group-1 neuraminidase (NA) subtypes of influenza A virus. These compounds exhibited in vitro inhibition activity of a group-1 NA enzyme incorporated in virus-like particles (VLPs). In the current study, we tested these nine triazole-containing carbocycles as well as an amino- and a guanidino-substituted derivative in virus replication inhibitory assays in vitro. None of the triazole-containing carbocycles significantly inhibited influenza A virus replication in MDCK cells with either a virus strain containing a group-1 or a group-2 subtype NA. In contrast, the amino- and guanidino-substituted derivatives clearly inhibited the cytopathic effect or spread of virus infection detected by immunostaining in MDCK monolayers as well as progeny virus release; these compounds were also reported to have shown the highest inhibition of group-1 NA in the context of VLPs. These results, together with the structures of these compounds, suggest that hydrogen-bonding interactions between the polar amino or guanidino functions and complementary groups in the neuraminidase active site ( e.g. Asp151, Glu 119) may be essential for strong inhibition of the neuraminidase enzyme and, in turn, the inhibition of influenza A virus replication.