Self-assembling peptides: Sequence, secondary structure in solution and film formation

Peptides of alternating charge and hydrophobic amino acids have a tendency to adopt unusually stable beta-sheet structures that can form insoluble macroscopic aggregates under physiological conditions. In this study, analogues of a well-known self-assembling peptide, characterized by the same polar/nonpolar periodicity but with different residues, were designed to study the relationship between sequence, conformation in solution and film-forming capacity in saline solution. Peptide conformation, evaluated by circular dichroism, cot-related with film forming capacity observed by inverted optical microscopy after addition of saline solution and subsequent drying. We found that polar/nonpolar periodicity of several analogues is not criterion enough to induce beta-sheet and thus film formation and that conformations different from beta-sheet also allow self-assemblage. Furthermore, addition of the short adhesive sequence RGD to a known self-assembling sequence was shown to not prevent the self-assembling process. This finding might prove useful for the design of biomimetic scaffolds. (c) 2008 Wiley Periodicals, Inc.