Pharmaceutics (Mar 2023)

Antiviral Mechanisms of <i>N</i>-Phenyl Benzamides on Coxsackie Virus A9

  • Mira Laajala,
  • Kerttu Kalander,
  • Sara Consalvi,
  • Olivier Sheik Amamuddy,
  • Özlem Tastan Bishop,
  • Mariangela Biava,
  • Giovanna Poce,
  • Varpu Marjomäki

DOI
https://doi.org/10.3390/pharmaceutics15031028
Journal volume & issue
Vol. 15, no. 3
p. 1028

Abstract

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Enteroviruses are one of the most abundant groups of viruses infecting humans, and yet there are no approved antivirals against them. To find effective antiviral compounds against enterovirus B group viruses, an in-house chemical library was screened. The most effective compounds against Coxsackieviruses B3 (CVB3) and A9 (CVA9) were CL212 and CL213, two N-phenyl benzamides. Both compounds were more effective against CVA9 and CL213 gave a better EC50 value of 1 µM with high a specificity index of 140. Both drugs were most effective when incubated directly with viruses suggesting that they mainly bound to the virions. A real-time uncoating assay showed that the compounds stabilized the virions and radioactive sucrose gradient as well as TEM confirmed that the viruses stayed intact. A docking assay, taking into account larger areas around the 2-and 3-fold axes of CVA9 and CVB3, suggested that the hydrophobic pocket gives the strongest binding to CVA9 but revealed another binding site around the 3-fold axis which could contribute to the binding of the compounds. Together, our data support a direct antiviral mechanism against the virus capsid and suggest that the compounds bind to the hydrophobic pocket and 3-fold axis area resulting in the stabilization of the virion.

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