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Multiple capsid-stabilizing interactions revealed in a high-resolution structure of an emerging picornavirus causing neonatal sepsis

Author

Listed:
  • Shabih Shakeel

    (Institute of Biotechnology and Department of Biological Sciences)

  • Brenda M. Westerhuis

    (Laboratory of Clinical Virology, Academic Medical Center, Meibergdreef 9)

  • Ausra Domanska

    (Institute of Biotechnology and Department of Biological Sciences)

  • Roman I. Koning

    (Leiden University Medical Center, Postal Zone S1-P, P.O. Box 9600)

  • Rishi Matadeen

    (Netherlands Centre for Electron Nanoscopy, Institute of Biology, Ensteinweg 55)

  • Abraham J. Koster

    (Leiden University Medical Center, Postal Zone S1-P, P.O. Box 9600)

  • Arjen Q. Bakker

    (AIMM Therapeutics, Academic Medical Center, Meibergdreef)

  • Tim Beaumont

    (AIMM Therapeutics, Academic Medical Center, Meibergdreef)

  • Katja C. Wolthers

    (Laboratory of Clinical Virology, Academic Medical Center, Meibergdreef 9)

  • Sarah J. Butcher

    (Institute of Biotechnology and Department of Biological Sciences)

Abstract

The poorly studied picornavirus, human parechovirus 3 (HPeV3) causes neonatal sepsis with no therapies available. Our 4.3-Å resolution structure of HPeV3 on its own and at 15 Å resolution in complex with human monoclonal antibody Fabs demonstrates the expected picornavirus capsid structure with three distinct features. First, 25% of the HPeV3 RNA genome in 60 sites is highly ordered as confirmed by asymmetric reconstruction, and interacts with conserved regions of the capsid proteins VP1 and VP3. Second, the VP0 N terminus stabilizes the capsid inner surface, in contrast to other picornaviruses where on expulsion as VP4, it forms an RNA translocation channel. Last, VP1’s hydrophobic pocket, the binding site for the antipicornaviral drug, pleconaril, is blocked and thus inappropriate for antiviral development. Together, these results suggest a direction for development of neutralizing antibodies, antiviral drugs based on targeting the RNA–protein interactions and dissection of virus assembly on the basis of RNA nucleation.

Suggested Citation

  • Shabih Shakeel & Brenda M. Westerhuis & Ausra Domanska & Roman I. Koning & Rishi Matadeen & Abraham J. Koster & Arjen Q. Bakker & Tim Beaumont & Katja C. Wolthers & Sarah J. Butcher, 2016. "Multiple capsid-stabilizing interactions revealed in a high-resolution structure of an emerging picornavirus causing neonatal sepsis," Nature Communications, Nature, vol. 7(1), pages 1-8, September.
    • Handle: RePEc:nat:natcom:v:7:y:2016:i:1:d:10.1038_ncomms11387
    DOI: 10.1038/ncomms11387
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    Cited by:

    1. Wenjie Qiao & Christopher M. Richards & Youlim Kim & James R. Zengel & Siyuan Ding & Harry B. Greenberg & Jan E. Carette, 2024. "MYADM binds human parechovirus 1 and is essential for viral entry," Nature Communications, Nature, vol. 15(1), pages 1-14, December.

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