Rosmarinic acid inhibits Rift Valley fever virus: in vitro, computational and analytical studies
Faten Farouk; Mohamed A Zarka; Majid Mohammed Al-Sawahli; Amr Hassan; Aly Fahmy Mohamed; Ibrahim M Ibrahim; Mohammed, Fafy; Rania Ibrahim Shebl;
Abstract
Aim: The antiviral potentials of rosmarinic acid (RA) against Rift Valley fever (RVF) virus were investigated.
Methods: Antiviral activity was investigated by evaluating the reduction in the viral infectivity titer.
Computational and LC–MS studies were performed for investigating the mechanism of action. This is
via testing the interaction between RA and its major metabolite with the key infectivity proteins and
determination of RA cellular permeability. Results: A superior reduction in RVF infectivity titer (45.5%)
was observed when RA was applied post-infection compared to 17.7% reduction following its application
before infection in addition to time-dependent inactivation kinetics. Recorded data showed in-silico
inhibitory potential of RA and its metabolite against RVFV cap-binding protein and glycoprotein C, which
are integral for viral transcription. LC–MS revealed cellular inclusion of RA, supporting its intracellular
viral interaction. Conclusion: These antiviral potentials might suggest a promising foundation for future
anti-RVF drug development.
Methods: Antiviral activity was investigated by evaluating the reduction in the viral infectivity titer.
Computational and LC–MS studies were performed for investigating the mechanism of action. This is
via testing the interaction between RA and its major metabolite with the key infectivity proteins and
determination of RA cellular permeability. Results: A superior reduction in RVF infectivity titer (45.5%)
was observed when RA was applied post-infection compared to 17.7% reduction following its application
before infection in addition to time-dependent inactivation kinetics. Recorded data showed in-silico
inhibitory potential of RA and its metabolite against RVFV cap-binding protein and glycoprotein C, which
are integral for viral transcription. LC–MS revealed cellular inclusion of RA, supporting its intracellular
viral interaction. Conclusion: These antiviral potentials might suggest a promising foundation for future
anti-RVF drug development.
Other data
| Title | Rosmarinic acid inhibits Rift Valley fever virus: in vitro, computational and analytical studies | Authors | Faten Farouk; Mohamed A Zarka; Majid Mohammed Al-Sawahli; Amr Hassan; Aly Fahmy Mohamed; Ibrahim M Ibrahim; Mohammed, Fafy ; Rania Ibrahim Shebl | Keywords | antiviral • catechol ring • Rift Valley fever virus • rosmarinic acid | Issue Date | 19-Dec-2023 | Publisher | Taylor &Francis | Journal | Future Virology | Volume | 18 | Issue | 15 | Start page | 1001 | End page | 1019 | DOI | https://doi.org/10.2217/fvl-2023-0119 |
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