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Targeting Toll-like receptor-driven systemic inflammation by engineering an innate structural fold into drugs

Author

Listed:
  • Ganna Petruk

    (Lund University)

  • Manoj Puthia

    (Lund University)

  • Firdaus Samsudin

    (Technology and Research (A*STAR))

  • Jitka Petrlova

    (Lund University)

  • Franziska Olm

    (Lund University)

  • Margareta Mittendorfer

    (Lund University)

  • Snejana Hyllén

    (Lund University
    Skåne University Hospital)

  • Dag Edström

    (Lund University
    Skåne University Hospital)

  • Ann-Charlotte Strömdahl

    (Lund University)

  • Carl Diehl

    (SARomics Biostructures AB, Medicon Village)

  • Simon Ekström

    (BioMS - Swedish National Infrastructure for Biological Mass Spectrometry)

  • Björn Walse

    (SARomics Biostructures AB, Medicon Village)

  • Sven Kjellström

    (Lund University)

  • Peter J. Bond

    (Technology and Research (A*STAR)
    National University of Singapore)

  • Sandra Lindstedt

    (Lund University
    Skåne University Hospital)

  • Artur Schmidtchen

    (Lund University
    Dermatology, Skane University Hospital)

Abstract

There is a clinical need for conceptually new treatments that target the excessive activation of inflammatory pathways during systemic infection. Thrombin-derived C-terminal peptides (TCPs) are endogenous anti-infective immunomodulators interfering with CD14-mediated TLR-dependent immune responses. Here we describe the development of a peptide-based compound for systemic use, sHVF18, expressing the evolutionarily conserved innate structural fold of natural TCPs. Using a combination of structure- and in silico-based design, nuclear magnetic resonance spectroscopy, biophysics, mass spectrometry, cellular, and in vivo studies, we here elucidate the structure, CD14 interactions, protease stability, transcriptome profiling, and therapeutic efficacy of sHVF18. The designed peptide displays a conformationally stabilized, protease resistant active innate fold and targets the LPS-binding groove of CD14. In vivo, it shows therapeutic efficacy in experimental models of endotoxin shock in mice and pigs and increases survival in mouse models of systemic polymicrobial infection. The results provide a drug class based on Nature´s own anti-infective principles.

Suggested Citation

  • Ganna Petruk & Manoj Puthia & Firdaus Samsudin & Jitka Petrlova & Franziska Olm & Margareta Mittendorfer & Snejana Hyllén & Dag Edström & Ann-Charlotte Strömdahl & Carl Diehl & Simon Ekström & Björn W, 2023. "Targeting Toll-like receptor-driven systemic inflammation by engineering an innate structural fold into drugs," Nature Communications, Nature, vol. 14(1), pages 1-20, December.
    • Handle: RePEc:nat:natcom:v:14:y:2023:i:1:d:10.1038_s41467-023-41702-y
    DOI: 10.1038/s41467-023-41702-y
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    References listed on IDEAS

    as
    1. Haider Ghaidan & Martin Stenlo & Anna Niroomand & Margareta Mittendorfer & Gabriel Hirdman & Nika Gvazava & Dag Edström & Iran A. N. Silva & Ellen Broberg & Oskar Hallgren & Franziska Olm & Darcy E. W, 2022. "Reduction of primary graft dysfunction using cytokine adsorption during organ preservation and after lung transplantation," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    2. Rathi Saravanan & Daniel A Holdbrook & Jitka Petrlova & Shalini Singh & Nils A Berglund & Yeu Khai Choong & Sven Kjellström & Peter J Bond & Martin Malmsten & Artur Schmidtchen, 2018. "Structural basis for endotoxin neutralisation and anti-inflammatory activity of thrombin-derived C-terminal peptides," Nature Communications, Nature, vol. 9(1), pages 1-14, December.
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