Metal-promoted assembly of two collagen mimetic peptides into a biofunctional "spiraled horn" scaffold

Abstract

Biofunctional scaffolds for the delivery of living cells are of the utmost importance for regenerative medicine. Herein, a novel, robust "spiraled horn" scaffold was elucidated through the Co2+-promoted hierarchical assembly of two collagen mimetic peptides, NCoH and HisCol. Each "horn" displayed a periodic banding pattern with band lengths corresponding to the length of the collagen peptide triple helix. Strand exchange between the two peptide trimers resulted in failure to form this intricate morphology, lending support to a precise metal-ligand-based mechanism of assembly. Little change occurred to the observed morphology when the Co2+ concentration was varied from 0.5 to 4.0 mM, and the scaffold was found to be fully formed within two minutes of exposure to the metal ion. The horned network also displayed biological functionality by binding to a His-tagged fluorophore and associating with cells.