International Journal of Molecular Sciences (Nov 2015)

Biodistribution, Stability, and Blood Distribution of the Cell Penetrating Peptide Maurocalcine in Mice

  • Pascale Perret,
  • Mitra Ahmadi,
  • Laurent Riou,
  • Sandrine Bacot,
  • Julien Pecher,
  • Cathy Poillot,
  • Alexis Broisat,
  • Catherine Ghezzi,
  • Michel De Waard

DOI
https://doi.org/10.3390/ijms161126054
Journal volume & issue
Vol. 16, no. 11
pp. 27730 – 27740

Abstract

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Maurocalcine (MCa) is the first natural cell penetrating peptide to be discovered in animal venom. In addition to the fact that it represents a potent vector for the cell penetration of structurally diverse therapeutic compounds, MCa also displays several distinguishing features that make it a potential peptide of choice for clinical and biotechnological applications. The aim of the present study was to gain new information about the properties of MCa in vivo in order to delineate the future potential applications of this vector. For this purpose, two analogues of this peptide with (Tyr-MCa) and without (Lin-Tyr-MCa) disulfide bridges were synthesized, radiolabeled with 125I, and their in vitro stabilities were first evaluated in mouse blood. The results indicated that 125I-Tyr-MCa was stable in vitro and that the disulfide bridges conferred a competitive advantage for the stability of peptide. Following in vivo injection in mice, 125I-Tyr-MCa targeted peripheral organs with interesting quantitative differences and the main route of peptide elimination was renal.

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