PLoS ONE (Jan 2012)

Cupricyclins, novel redox-active metallopeptides based on conotoxins scaffold.

  • Marco Barba,
  • Anatoli P Sobolev,
  • Veranika Zobnina,
  • Maria Carmela Bonaccorsi di Patti,
  • Laura Cervoni,
  • Maria Carolina Spiezia,
  • M Eugenia Schininà,
  • Donatella Pietraforte,
  • Luisa Mannina,
  • Giovanni Musci,
  • Fabio Polticelli

DOI
https://doi.org/10.1371/journal.pone.0030739
Journal volume & issue
Vol. 7, no. 2
p. e30739

Abstract

Read online

Highly stable natural scaffolds which tolerate multiple amino acid substitutions represent the ideal starting point for the application of rational redesign strategies to develop new catalysts of potential biomedical and biotechnological interest. The knottins family of disulphide-constrained peptides display the desired characteristics, being highly stable and characterized by hypervariability of the inter-cysteine loops. The potential of knottins as scaffolds for the design of novel copper-based biocatalysts has been tested by engineering a metal binding site on two different variants of an ω-conotoxin, a neurotoxic peptide belonging to the knottins family. The binding site has been designed by computational modelling and the redesigned peptides have been synthesized and characterized by optical, fluorescence, electron spin resonance and nuclear magnetic resonance spectroscopy. The novel peptides, named Cupricyclin-1 and -2, bind one Cu(2+) ion per molecule with nanomolar affinity. Cupricyclins display redox activity and catalyze the dismutation of superoxide anions with an activity comparable to that of non-peptidic superoxide dismutase mimics. We thus propose knottins as a novel scaffold for the design of catalytically-active mini metalloproteins.