1. Evidence for distinct mechanisms of small molecule inhibitors of filovirus entry.
- Author
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Schafer A, Xiong R, Cooper L, Nowar R, Lee H, Li Y, Ramirez BE, Peet NP, Caffrey M, Thatcher GRJ, Saphire EO, Cheng H, and Rong L
- Subjects
- A549 Cells, Animals, Chlorocebus aethiops, Ebolavirus physiology, Glycoproteins genetics, Hemorrhagic Fever, Ebola metabolism, Hemorrhagic Fever, Ebola pathology, Hemorrhagic Fever, Ebola virology, Host-Pathogen Interactions, Humans, Lysosomes drug effects, Lysosomes virology, Vero Cells, Viral Envelope Proteins genetics, Antiviral Agents pharmacology, Ebolavirus drug effects, Glycoproteins metabolism, Hemorrhagic Fever, Ebola drug therapy, Small Molecule Libraries pharmacology, Viral Envelope Proteins metabolism, Virus Internalization drug effects
- Abstract
Many small molecules have been identified as entry inhibitors of filoviruses. However, a lack of understanding of the mechanism of action for these molecules limits further their development as anti-filoviral agents. Here we provide evidence that toremifene and other small molecule entry inhibitors have at least three distinctive mechanisms of action and lay the groundwork for future development of anti-filoviral agents. The three mechanisms identified here include: (1) direct binding to the internal fusion loop region of Ebola virus glycoprotein (GP); (2) the HR2 domain is likely the main binding site for Marburg virus GP inhibitors and a secondary binding site for some EBOV GP inhibitors; (3) lysosome trapping of GP inhibitors increases drug exposure in the lysosome and further improves the viral inhibition. Importantly, small molecules targeting different domains on GP are synergistic in inhibiting EBOV entry suggesting these two mechanisms of action are distinct. Our findings provide important mechanistic insights into filovirus entry and rational drug design for future antiviral development., Competing Interests: The authors have declared that no competing interests exist.
- Published
- 2021
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