Drug repurposing screen identifies lonafarnib as respiratory syncytial virus fusion protein inhibitor

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The article discusses a drug repurposing screen that identified lonafarnib as a potential inhibitor of the respiratory syncytial virus (RSV) fusion protein. The study screened a drug library and identified several primary candidates, including lonafarnib. Dose-response analyses confirmed the antiviral activity of lonafarnib, and when RSV was passaged with lonafarnib, mutations in the RSV fusion protein were observed, conferring resistance to the drug. Surface plasmon resonance and co-crystallography revealed that lonafarnib binds to the RSV fusion protein. In a murine infection model, oral administration of lonafarnib reduced RSV virus load. This study establishes lonafarnib as an effective fusion protein inhibitor for RSV.

Abstract

Respiratory syncytial virus (RSV) is a common cause of acute lower respiratory tract infection in infants, older adults and the immunocompromised. Effective directly acting antivirals are not yet available for clinical use. To address this, we screen the ReFRAME drug-repurposing library consisting of 12,000 small molecules against RSV. We identify 21 primary candidates including RSV F and N protein inhibitors, five HSP90 and four IMPDH inhibitors. We select lonafarnib, a licensed farnesyltransferase inhibitor, and phase III candidate for hepatitis delta virus (HDV) therapy, for further follow-up. Dose-response analyses and plaque assays confirm the antiviral activity (IC50: 10-118 nM). Passaging of RSV with lonafarnib selects for phenotypic resistance and fixation of mutations in the RSV fusion protein (T335I and T400A). Lentiviral pseudotypes programmed with variant RSV fusion proteins confirm that lonafarnib inhibits RSV cell entry and that these mutations confer lonafarnib resistance. Surface plasmon resonance reveals RSV fusion protein binding of lonafarnib and co-crystallography identifies the lonafarnib binding site within RSV F. Oral administration of lonafarnib dose-dependently reduces RSV virus load in a murine infection model using female mice. Collectively, this work provides an overview of RSV drug repurposing candidates and establishes lonafarnib as a bona fide fusion protein inhibitor.

Introduction

Acute RSV infection is the leading cause of severe lower-respiratory-tract infections in young children<a data-track="click" data-track-action="reference anchor" data-track-label="link" data-test="citation-ref" aria-label="Reference 1" title="Liu,

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Categorized as Virology

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