Norovirus infections are a significant health and economic burden globally, accounting for hundreds of millions of cases of acute gastroenteritis every year. In the absence of an approved norovirus vaccine, there is an urgent need to develop antivirals to treat chronic infections, and provide prophylactic therapy to limit viral spread during epidemics and pandemics. Toll-like receptor (TLR) agonists have been explored widely for their antiviral potential and several are progressing through clinical trials for the treatment of human immunodeficiency virus (HIV), hepatitis B virus (HBV) and as adjuvants for norovirus virus-like particle (VLP) vaccines. However, developing norovirus therapies are largely direct-acting antivirals (DAAs) with fewer compounds that target the host. Our aim was to assess the antiviral potential of TLR7 agonist immunomodulators on norovirus infection using the murine norovirus (MNV) and human Norwalk replicon models. TLR7 agonists R-848, Gardiquimod, GS-9620, R-837 and Loxoribine were screened using a plaque reduction assay and each displayed inhibition of MNV replication (EC50 values: 23.5 nM, 134.4 nM, 0.59 μM, 1.5 μM and 79.4 μM, respectively). RNA-sequencing of TLR7 stimulated cells revealed a predominant upregulation of innate immune response genes and ISGs that are known to drive an antiviral state. Furthermore, the combination of R-848 and the nucleoside analogue (NA) 2' C-methylcytidine elicited a synergistic antiviral effect against MNV demonstrating that combinational therapy of host-modulators and DAA's could be used to reduce drug cytotoxicity. In summary, we have identified that TLR7 agonists display potent inhibition of norovirus replication and are a therapeutic option to combat norovirus infections.
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