A broad influenza virus inhibitor acting via IMP dehydrogenase and in synergism with ribavirin

To suppress serious influenza infections in persons showing insufficient protection from the vaccines, antiviral drugs are of vital importance. There is a need for novel agents with broad activity against influenza A (IAV) and B (IBV) viruses and with targets that differ from those of the current antivirals. We here report a new small molecule influenza virus inhibitor referred to as CPD A (chemical name: N-(pyridin-3-yl)thiophene-2-carboxamide). In an influenza virus minigenome assay, this non-nucleoside compound inhibited RNA synthesis of IAV and IBV with EC50 values of 2.3 μM and 2.6 μM, respectively. Robust in vitro activity was noted against a broad panel of IAV (H1N1 and H3N2) and IBV strains, with a median EC50 value of 0.20 μM, which is 185-fold below the 50% cytotoxic concentration. The action point in the viral replication cycle was located between 1 and 5 h p.i., showing a similar profile as ribavirin. Like this nucleoside analogue, CPD A was shown to cause strong depletion of the cellular GTP pool and, accordingly, its antiviral activity was antagonized when this pool was restored with exogenous guanosine. This aligns with the observed inhibition in a cell-based IMP dehydrogenase (IMPDH) assay, which seems to require metabolic activation of CPD A since no direct inhibition was seen in an enzymatic IMPDH assay. The combination of CPD A with ribavirin, another IMPDH inhibitor, proved strongly synergistic. To conclude, we established CPD A as a new inhibitor of influenza A and B virus replication and RNA synthesis, and support the potential of IMPDH inhibitors for influenza therapy with acceptable safety profile.