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Plectasin is a peptide antibiotic with therapeutic potential from a saprophytic fungus

Author

Listed:
  • Per H. Mygind

    (Novozymes A/S)

  • Rikke L. Fischer

    (Statens Serum Institut)

  • Kirk M. Schnorr

    (Novozymes A/S)

  • Mogens T. Hansen

    (Novozymes A/S)

  • Carsten P. Sönksen

    (Novozymes A/S)

  • Svend Ludvigsen

    (Novo Nordisk A/S)

  • Dorotea Raventós

    (Novozymes A/S)

  • Steen Buskov

    (Novozymes A/S)

  • Bjarke Christensen

    (Novozymes A/S)

  • Leonardo De Maria

    (Novozymes A/S)

  • Olivier Taboureau

    (Novozymes A/S
    Novo Nordisk A/S)

  • Debbie Yaver

    (Novozymes Inc.)

  • Signe G. Elvig-Jørgensen

    (Novozymes A/S)

  • Marianne V. Sørensen

    (Novozymes A/S)

  • Bjørn E. Christensen

    (Novozymes A/S)

  • Søren Kjærulff

    (Novozymes A/S)

  • Niels Frimodt-Moller

    (Statens Serum Institut)

  • Robert I. Lehrer

    (David Geffen School of Medicine at UCLA)

  • Michael Zasloff

    (Georgetown University Medical Center)

  • Hans-Henrik Kristensen

    (Novozymes A/S)

Abstract

Animals and higher plants express endogenous peptide antibiotics called defensins. These small cysteine-rich peptides are active against bacteria, fungi and viruses. Here we describe plectasin—the first defensin to be isolated from a fungus, the saprophytic ascomycete Pseudoplectania nigrella. Plectasin has primary, secondary and tertiary structures that closely resemble those of defensins found in spiders, scorpions, dragonflies and mussels. Recombinant plectasin was produced at a very high, and commercially viable, yield and purity. In vitro, the recombinant peptide was especially active against Streptococcus pneumoniae, including strains resistant to conventional antibiotics. Plectasin showed extremely low toxicity in mice, and cured them of experimental peritonitis and pneumonia caused by S. pneumoniae as efficaciously as vancomycin and penicillin. These findings identify fungi as a novel source of antimicrobial defensins, and show the therapeutic potential of plectasin. They also suggest that the defensins of insects, molluscs and fungi arose from a common ancestral gene.

Suggested Citation

  • Per H. Mygind & Rikke L. Fischer & Kirk M. Schnorr & Mogens T. Hansen & Carsten P. Sönksen & Svend Ludvigsen & Dorotea Raventós & Steen Buskov & Bjarke Christensen & Leonardo De Maria & Olivier Tabour, 2005. "Plectasin is a peptide antibiotic with therapeutic potential from a saprophytic fungus," Nature, Nature, vol. 437(7061), pages 975-980, October.
    • Handle: RePEc:nat:nature:v:437:y:2005:i:7061:d:10.1038_nature04051
    DOI: 10.1038/nature04051
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    Cited by:

    1. Christin Pohl & Gregory Effantin & Eaazhisai Kandiah & Sebastian Meier & Guanghong Zeng & Werner Streicher & Dorotea Raventos Segura & Per H. Mygind & Dorthe Sandvang & Line Anker Nielsen & Günther H., 2022. "pH- and concentration-dependent supramolecular assembly of a fungal defensin plectasin variant into helical non-amyloid fibrils," Nature Communications, Nature, vol. 13(1), pages 1-15, December.
    2. William F Porto & Állan S Pires & Octavio L Franco, 2012. "CS-AMPPred: An Updated SVM Model for Antimicrobial Activity Prediction in Cysteine-Stabilized Peptides," PLOS ONE, Public Library of Science, vol. 7(12), pages 1-7, December.

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