α-Helix to β-sheet transition within the Leu i Lys j (i=2j) series of lytic amphipathic peptides by decreasing their size

Abstract

De novo designed extremely simplified amphipathic basic LeuiLysj (i=2j) peptides of 8, 9 and 15 residues were synthesized to clarify the mechanism of action of natural cytotoxic and hemolytic small proteins or peptides. They proved to have strong hemolytic activity towards human erythrocytes which increases with peptide length. These peptides are highly surface active and form stable peptidic films at the air/water interface. The sensitive and efficient FTIR modulated polarization technique (PMIRRAS) allows one to obtain in situ structural and orientational information about the peptides at the interface. A transition of secondary structure is observed: the shorter peptides (8 and 9 residues) adopt β-sheet structures while the longer one (15 residues) is folded into an α-helix. In both cases, the peptides lie with the axis parallel to the interface. Their insertion into a dimyristoylphosphatidylcholine monolayer can be followed from the increase in the surface and/or pressure of the films. In the mixed films, the peptides adopt the same structure and orientation as observed at the air/water interface. Therefore, among the same series of peptides, a transition from β-sheet to α-helix occurs when the length increases (roughly>10 aa), but despite this drastic change both types of structures result in strongly hemolytic peptides.