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d-Maurocalcine, a Pharmacologically Inert Efficient Cell-penetrating Peptide Analogue

2010; Elsevier BV; Volume: 285; Issue: 44 Linguagem: Inglês

10.1074/jbc.m110.104919

1083-351X

Cathy Poillot, Kaouthar Dridi, Hicham Bichraoui, Julien Pêcher, Sébastien Alphonse, Badreddine Douzi, Michel Ronjat, Hervé Darbon, Michel De Waard,

Antimicrobial Peptides and Activities

Maurocalcine has been the first demonstrated animal toxin acting as a cell-penetrating peptide. Although it possesses competitive advantages, its use as a cell-penetrating peptide (CPP) requires that analogues be developed that lack its characteristic pharmacological activity on ryanodine-sensitive calcium channels without affecting its cell-penetrating and vector efficiencies. Here, we present the synthesis, three-dimensional 1H NMR structure, and activity of d-maurocalcine. We demonstrate that it possesses all of the desired features for an excellent CPP: preserved structure, lack of pharmacological action, conserved vector properties, and absence of cell toxicity. This is the first report of a folded/oxidized animal toxin in its d-diastereomer conformation for use as a CPP. The protease resistance of this new peptide analogue, combined with its efficient cell penetration at concentrations devoid of cell toxicity, suggests that d-maurocalcine should be an excellent vector for in vivo applications. Maurocalcine has been the first demonstrated animal toxin acting as a cell-penetrating peptide. Although it possesses competitive advantages, its use as a cell-penetrating peptide (CPP) requires that analogues be developed that lack its characteristic pharmacological activity on ryanodine-sensitive calcium channels without affecting its cell-penetrating and vector efficiencies. Here, we present the synthesis, three-dimensional 1H NMR structure, and activity of d-maurocalcine. We demonstrate that it possesses all of the desired features for an excellent CPP: preserved structure, lack of pharmacological action, conserved vector properties, and absence of cell toxicity. This is the first report of a folded/oxidized animal toxin in its d-diastereomer conformation for use as a CPP. The protease resistance of this new peptide analogue, combined with its efficient cell penetration at concentrations devoid of cell toxicity, suggests that d-maurocalcine should be an excellent vector for in vivo applications.