PLoS Biology (Jun 2019)

A novel druggable interprotomer pocket in the capsid of rhino- and enteroviruses.

  • Rana Abdelnabi,
  • James A Geraets,
  • Yipeng Ma,
  • Carmen Mirabelli,
  • Justin W Flatt,
  • Aušra Domanska,
  • Leen Delang,
  • Dirk Jochmans,
  • Timiri Ajay Kumar,
  • Venkatesan Jayaprakash,
  • Barij Nayan Sinha,
  • Pieter Leyssen,
  • Sarah J Butcher,
  • Johan Neyts

DOI
https://doi.org/10.1371/journal.pbio.3000281
Journal volume & issue
Vol. 17, no. 6
p. e3000281

Abstract

Read online

Rhino- and enteroviruses are important human pathogens, against which no antivirals are available. The best-studied inhibitors are "capsid binders" that fit in a hydrophobic pocket of the viral capsid. Employing a new class of entero-/rhinovirus inhibitors and by means of cryo-electron microscopy (EM), followed by resistance selection and reverse genetics, we discovered a hitherto unknown druggable pocket that is formed by viral proteins VP1 and VP3 and that is conserved across entero-/rhinovirus species. We propose that these inhibitors stabilize a key region of the virion, thereby preventing the conformational expansion needed for viral RNA release. A medicinal chemistry effort resulted in the identification of analogues targeting this pocket with broad-spectrum activity against Coxsackieviruses B (CVBs) and compounds with activity against enteroviruses (EV) of groups C and D, and even rhinoviruses (RV). Our findings provide novel insights in the biology of the entry of entero-/rhinoviruses and open new avenues for the design of broad-spectrum antivirals against these pathogens.