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Multi-omics characterization of the monkeypox virus infection

Author

Listed:
  • Yiqi Huang

    (School of Medicine)

  • Valter Bergant

    (School of Medicine)

  • Vincent Grass

    (School of Medicine)

  • Quirin Emslander

    (School of Medicine)

  • M. Sabri Hamad

    (School of Medicine)

  • Philipp Hubel

    (Max-Planck Institute of Biochemistry
    Universität Hohenheim)

  • Julia Mergner

    (Technical University of Munich)

  • Antonio Piras

    (School of Medicine)

  • Karsten Krey

    (School of Medicine)

  • Alexander Henrici

    (School of Medicine)

  • Rupert Öllinger

    (Technical University of Munich)

  • Yonas M. Tesfamariam

    (University of Bonn)

  • Ilaria Dalla Rosa

    (The Francis Crick Institute)

  • Till Bunse

    (School of Medicine)

  • Gerd Sutter

    (LMU Munich
    Partner site Munich)

  • Gregor Ebert

    (School of Medicine/Helmholtz Munich)

  • Florian I. Schmidt

    (University of Bonn)

  • Michael Way

    (The Francis Crick Institute
    Imperial College)

  • Roland Rad

    (Technical University of Munich)

  • Andrew G. Bowie

    (Trinity College Dublin)

  • Ulrike Protzer

    (Partner site Munich
    School of Medicine/Helmholtz Munich)

  • Andreas Pichlmair

    (School of Medicine
    Partner site Munich)

Abstract

Multiple omics analyzes of Vaccinia virus (VACV) infection have defined molecular characteristics of poxvirus biology. However, little is known about the monkeypox (mpox) virus (MPXV) in humans, which has a different disease manifestation despite its high sequence similarity to VACV. Here, we perform an in-depth multi-omics analysis of the transcriptome, proteome, and phosphoproteome signatures of MPXV-infected primary human fibroblasts to gain insights into the virus-host interplay. In addition to expected perturbations of immune-related pathways, we uncover regulation of the HIPPO and TGF-β pathways. We identify dynamic phosphorylation of both host and viral proteins, which suggests that MAPKs are key regulators of differential phosphorylation in MPXV-infected cells. Among the viral proteins, we find dynamic phosphorylation of H5 that influenced the binding of H5 to dsDNA. Our extensive dataset highlights signaling events and hotspots perturbed by MPXV, extending the current knowledge on poxviruses. We use integrated pathway analysis and drug-target prediction approaches to identify potential drug targets that affect virus growth. Functionally, we exemplify the utility of this approach by identifying inhibitors of MTOR, CHUK/IKBKB, and splicing factor kinases with potent antiviral efficacy against MPXV and VACV.

Suggested Citation

  • Yiqi Huang & Valter Bergant & Vincent Grass & Quirin Emslander & M. Sabri Hamad & Philipp Hubel & Julia Mergner & Antonio Piras & Karsten Krey & Alexander Henrici & Rupert Öllinger & Yonas M. Tesfamar, 2024. "Multi-omics characterization of the monkeypox virus infection," Nature Communications, Nature, vol. 15(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-51074-6
    DOI: 10.1038/s41467-024-51074-6
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