Scientific Reports (Aug 2017)

Structural basis for therapeutic inhibition of influenza A polymerase PB2 subunit

  • Xiaolei Ma,
  • Lili Xie,
  • Charles Wartchow,
  • Robert Warne,
  • Yongjin Xu,
  • Alexey Rivkin,
  • David Tully,
  • Steven Shia,
  • Kyoko Uehara,
  • Dianna M. Baldwin,
  • Gladys Muiru,
  • Weidong Zhong,
  • Isabel Zaror,
  • Dirksen E. Bussiere,
  • Vincent H. J. Leonard

DOI
https://doi.org/10.1038/s41598-017-09538-x
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 8

Abstract

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Abstract Influenza virus uses a unique mechanism to initiate viral transcription named cap-snatching. The PB2 subunit of the viral heterotrimeric RNA polymerase binds the cap structure of cellular pre-mRNA to promote its cleavage by the PA subunit. The resulting 11–13 capped oligomer is used by the PB1 polymerase subunit to initiate transcription of viral proteins. VX-787 is an inhibitor of the influenza A virus pre-mRNA cap-binding protein PB2. This clinical stage compound was shown to bind the minimal cap-binding domain of PB2 to inhibit the cap-snatching machinery. However, the binding of this molecule in the context of an extended form of the PB2 subunit has remained elusive. Here we generated a collection of PB2 truncations to identify a PB2 protein representative of its structure in the viral heterotrimeric protein. We present the crystal structure of VX-787 bound to a PB2 construct that recapitulates VX-787's biological antiviral activity in vitro. This co-structure reveals more extensive interactions than previously identified and provides insight into the observed resistance profile, affinity, binding kinetics, and conformational rearrangements induced by VX-787.