Abstract
Purpose of reviewWe review antivirals inhibiting subunits of the influenza polymerase complex that are advancing in clinical development.Recent findingsFavipiravir, pimodivir, and baloxavir are inhibitory in preclinical models for influenza A viruses, including pandemic threat viruses and those resistant to currently approved antivirals, and two (favipiravir and baloxavir) also inhibit influenza B viruses. All are orally administered, although the dosing regimens vary. The polymerase basic protein 1 transcriptase inhibitor favipiravir has shown inconsistent clinical effects in uncomplicated influenza, and is teratogenic effects in multiple species, contraindicating its use in pregnancy. The polymerase basic protein 2 cap-binding inhibitor pimodivir displays antiviral effects alone and in combination with oseltamivir in uncomplicated influenza, although variants with reduced susceptibility emerge frequently during monotherapy. Single doses of the polymerase acidic protein cap-dependent endonuclease inhibitor baloxavir are effective in alleviating symptoms and rapidly inhibiting viral replication in otherwise healthy and higher risk patients with acute influenza, although variants with reduced susceptibility emerge frequently during monotherapy. Combinations of newer polymerase inhibitors with neuraminidase inhibitors show synergy in preclinical models and are currently undergoing clinical testing in hospitalized patients.SummaryThese new polymerase inhibitors promise to add to the clinical management options and overall control strategies for influenza virus infections.
Highlights
Influenza causes serious health, economic, and societal impacts despite existing vaccines and antivirals
Three antivirals targeting different protein subunits (PB1, PB2, and PA, respectively) of the influenza polymerase complex are inhibitory for influenza A viruses, including those resistant to adamantanes and neuraminidase inhibitors (NAIs), and two inhibit influenza B viruses
Three antivirals that target different protein subunits of the influenza polymerase complex are in advanced clinical development, with one already approved in both the United States and Japan
Summary
Economic, and societal impacts despite existing vaccines and antivirals. The polymerase basic protein 2 (PB2) subunit binds the 5’ cap (m7-GTP) of host pre-mRNAs and positions them for cleavage through the cap-dependent endonuclease located in the N-terminal domain of polymerase acidic protein (PA) subunit This ‘cap-snatching’ process provides a RNA primer for transcription of viral mRNA by the RNA-dependent RNA polymerase function of polymerase basic protein (PB1). The transcriptase activity of this subunit is responsible aDepartment of Medicine, University of Virginia School of Medicine, Charlottesville, Virginia, USA and bHealth Emergencies Programme, World Health Organization, Geneva, Switzerland.
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