Synthesis and antiviral effect of novel fluoxetine analogues as enterovirus 2C inhibitors
Publication date
2020-06
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Abstract
Enteroviruses (EV) are a group of positive-strand RNA (+RNA) viruses that include many important human pathogens (e.g. poliovirus, coxsackievirus, echovirus, numbered enteroviruses and rhinoviruses). Fluoxetine was identified in drug repurposing screens as potent inhibitor of enterovirus B and enterovirus D replication. In this paper we are reporting the synthesis and the antiviral effect of a series of fluoxetine analogues. The results obtained offer a preliminary insight into the structure-activity relationship of its chemical scaffold and confirm the importance of the chiral configuration. We identified a racemic fluoxetine analogue, 2b, which showed a similar antiviral activity compared to (S)-fluoxetine. Investigating the stereochemistry of 2b revealed that the S-enantiomer exerts potent antiviral activity and increased the antiviral spectrum compared to the racemic mixture of 2b. In line with the observed antiviral effect, the S-enantiomer displayed a dose-dependent shift in the melting temperature in thermal shift assay, indicative for direct binding to the recombinant 2C protein.
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Taverne, SDG 3 - Good Health and Well-being
Citation
Manganaro, R, Zonsics, B, Bauer, L, Lorenzo Lopez, M, Donselaar, T, Zwaagstra, M, Saporito, F, Ferla, S, Strating, J R P M, Coutard, B, Hurdiss, D L, van Kuppeveld, F J M & Brancale, A 2020, 'Synthesis and antiviral effect of novel fluoxetine analogues as enterovirus 2C inhibitors', Antiviral Research, vol. 178, 104781. https://doi.org/10.1016/j.antiviral.2020.104781