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Investigational Antiviral Progressing Toward Preparing for Future Pandemics

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Obeldesivir (GS-5245), a novel investigational small molecule oral antiviral, represents a new tool in the ongoing effort to prepare for future pandemics.

Several researchers at the University of North Carolina at Chapel Hill’s Gillings School of Global Public Health are co-authors of a new study published online May 22 by the journal Science Translational Medicine.

The study shares findings from an academic-corporate partnership between biopharmaceutical company Gilead Sciences and the Sheahan and Baric Labs at the Gillings School.

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This is the same partnership that previously investigated remdesivir (sold under the brand name Veklury®). In 2020, remdesivir was authorized for emergency use and then fully approved during the COVID-19 pandemic. The drug works by stopping the SARS-CoV-2 virus from replicating. Remdesivir helps shorten time to recovery and reduces disease progression and mortality, but patients must visit a health care setting for IV administration.

Since the early days of the COVID-19 pandemic, researchers have been working on an oral antiviral drug of the parent nucleoside of remdesivir that could stop replication of the virus.

“Oral bioavailability means that you can take the medicine by mouth and do not need to visit a health care setting to receive treatment,” says Timothy Sheahan, PhD, an expert virologist and assistant professor of epidemiology at the Gillings School. “That is a potential limitation for remdesivir, which is an IV drug. With a prescription, you could take an oral antiviral at home just like you would take Tylenol.”

In addition, combining obeldesivir with the antiviral nirmatrelvir (an active component of Paxlovid) further improved outcomes in COVID-19-infected mice.

These results support further development of obeldesivir as a potential broadly effective anticoronaviral drug.

Gilead Sciences recently completed a Phase 3 clinical trial of the therapeutic in more than 2,000 people who tested positive for COVID-19 but did not have risk factors for developing more severe disease and were not hospitalized.

“While obeldesivir did not meet its primary clinical endpoint of reducing time to symptom alleviation in a standard risk population in the Phase 3 OAKTREE trial, it is a promising drug and no safety concerns were identified,” Sheahan says. “I think the issue is that currently, most people have stronger immunity to the virus that causes COVID-19 and the disease severity has greatly diminished since the pandemic. Early on, many people were ending up in the hospital and dying, which made the differences between placebo and treated groups stark and easily measurable. With obeldesivir, resarchers weren’t looking at prevention of hospitalization and death, but rather wanted to see how much it shortened the time for symptoms to resolve in people who are not at high risk for severe COVID-19. It’s harder to observe those subtler differences in the background of milder disease.”

Ultimately, the clinical trial assessed the safety profile of obeldesivir for use in a diverse population. Like remdesivir, obeldesivir could continue to be tested in humans for effectiveness and, if appropriate, rapidly deployed against susceptible novel coronaviruses that might emerge.

The research team also remains hopeful about the potential use of this broad-spectrum antiviral medicine against other RNA viruses.

Reference: Martinez DR, Moreira FR, Catanzaro NJ, et al. The oral nucleoside prodrug GS-5245 is efficacious against SARS-CoV-2 and other endemic, epidemic, and enzootic coronaviruses. Sci Trans Med. 16(748):eadj4504. doi: 10.1126/scitranslmed.adj4504

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