A potent Lassa virus antiviral targets an arenavirus virulence determinant

  • PLoS Pathog. 2018 Dec 21;14(12):e1007439. doi: 10.1371/journal.ppat.1007439.
Ikenna G Madu  1 Megan Files  1 Dima N Gharaibeh  2 Amy L Moore  2 Kie-Hoon Jung  3 Brian B Gowen  3 Dongcheng Dai  2 Kevin F Jones  2 Shanthakumar R Tyavanagimatt  2 James R Burgeson  2 Marcus J Korth  1 Kristin M Bedard  1 Shawn P Iadonato  1 Sean M Amberg  1
Affiliations
  • 1. Kineta, Inc., Seattle, Washington, United States of America.
  • 2. SIGA Technologies, Inc., Corvallis, Oregon, United States of America.
  • 3. Institute for Antiviral Research, Department of Animal, Dairy and Veterinary Sciences, Utah State University, Logan, Utah, United States of America.
Abstract

Arenaviruses are a significant cause of hemorrhagic fever, an often-fatal disease for which there is no approved Antiviral therapy. Lassa fever in particular generates high morbidity and mortality in West Africa, where the disease is endemic, and a recent outbreak in Nigeria was larger and more geographically diverse than usual. We are developing LHF-535, a small-molecule viral entry inhibitor that targets the Arenavirus envelope glycoprotein, as a therapeutic candidate for Lassa fever and Other hemorrhagic fevers of Arenavirus origin. Using a lentiviral pseudotype infectivity assay, we determined that LHF-535 had sub-nanomolar potency against the viral envelope glycoproteins from all Lassa virus lineages, with the exception of the glycoprotein from the LP strain from lineage I, which was 100-fold less sensitive than that of Other strains. This reduced sensitivity was mediated by a unique amino acid substitution, V434I, in the transmembrane domain of the envelope glycoprotein GP2 subunit. This position corresponds to the attenuation determinant of Candid#1, a live-attenuated Junín virus vaccine strain used to prevent Argentine hemorrhagic fever. Using a virus-yield reduction assay, we determined that LHF-535 potently inhibited Junín virus, but not Candid#1, and the Candid#1 attenuation determinant, F427I, regulated this difference in sensitivity. We also demonstrated that a daily oral dose of LHF-535 at 10 mg/kg protected mice from a lethal dose of Tacaribe virus. Serial passage of Tacaribe virus in LHF-535-treated Vero cells yielded viruses that were resistant to LHF-535, and the majority of drug-resistant viruses exhibited attenuated pathogenesis. These findings provide a framework for the clinical development of LHF-535 as a broad-spectrum inhibitor of Arenavirus entry and provide an important context for monitoring the emergence of drug-resistant viruses.

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