Amphiphilic peptides as models for protein-membrane interactions: interfacial behaviour of sequential Lys- and Leu-based peptides and their penetration into lipid monolayers

Abstract

Synthetic peptides constructed with doublets of hydrophobic residues tandemly repeated with doublets of positively charged residues, (Leu-Lys-Lys-Leu) n , were used as models for the study of protein-membrane interactions. Their behaviour has been compared with that of their strictly alternating iso peptides, (Leu-Lys) n . Both peptides present a random coil structure in pure water. In saline solutions, (Leu-Lys-Lys-Leu) n peptides adopt an α-helical structure whereas (Leu-Lys) n transit into a β-sheet structure. These peptides form multilayer assemblies on a pure water subphase but they are organized in monomolecular films on a saline aqueous subphase. The stability of these films increases with the peptide length. Structured peptides (α helices and β sheets) penetrate readily into lipid monolayers, whereas the penetration of unordered peptides is very slow. We have not observed any significant difference between the behaviour of a helices and β-sheet structures.