Delayed low-dose oral administration of 4′-fluorouridine inhibits pathogenic arenaviruses in animal models of lethal disease.

Publication date: Nov 20, 2024

Development of broad-spectrum antiviral therapies is critical for outbreak and pandemic preparedness against emerging and reemerging viruses. Viruses inducing hemorrhagic fevers cause high morbidity and mortality in humans and are associated with several recent international outbreaks, but approved therapies for treating most of these pathogens are lacking. Here, we show that 4′-fluorouridine (4′-FlU; EIDD-2749), an orally available ribonucleoside analog, has antiviral activity against multiple hemorrhagic fever viruses in cell culture, including Nipah virus, Crimean-Congo hemorrhagic fever virus, orthohantaviruses, and arenaviruses. We performed preclinical in vivo evaluation of oral 4′-FlU against two arenaviruses, Old World Lassa virus (LASV) and New World JuncEDn virus (JUNV), in guinea pig models of lethal disease. 4′-FlU demonstrated both advantageous pharmacokinetic characteristics and high efficacy in both of these lethal disease guinea pig models. Additional experiments supported protection of the infected animals even when 4′-FlU delivery was reduced to a low dose of 0. 5 milligram per kilogram. To demonstrate clinical utility, 4′-FlU treatment was evaluated when initiated late in the course of infection (12 or 9 days after infection for LASV and JUNV, respectively). Delayed treatment resulted in rapid resolution of clinical signs, demonstrating an extended window for therapeutic intervention. These data support the use of 4′-FlU as a potent and efficacious treatment against highly pathogenic arenaviruses of public health concern with a virus inhibition profile suggesting broad-spectrum utility as an orally available antiviral drug against a wide variety of viral pathogens.

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Concepts Keywords
Advantageous Administration, Oral
Antiviral Animals
Orthohantaviruses Antiviral Agents
Pharmacokinetic Antiviral Agents
Arenaviridae Infections
Arenavirus
Chlorocebus aethiops
Disease Models, Animal
Female
Guinea Pigs
Humans
Uridine
Uridine
Vero Cells

Semantics

Type Source Name
disease MESH morbidity
disease IDO cell
disease MESH infection
disease MESH Delayed treatment
disease IDO intervention
disease MESH Arenaviridae Infections
disease MESH Disease Models Animal
drug DRUGBANK Uridine

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