The role of amphipathicity in the folding, self-association and biological activity of multiple subunit small proteins.

The effect that altering amphipathicity has on the folding process and self association of melittin, a small model protein, has been investigated using single amino acid substitutions of lysine 7, a residue distant from the contact residues involved in the hydrophobic core of tetrameric melittin. While substitutions of such a residue were not expected to interfere with the packing process, the largest alterations in the potential overall amphipathicity of melittin were found to prevent the folding into an alpha-helical conformation to occur and, in turn, to prevent the self association. Amphipathic alpha-helices were found to be a key determining feature in the early folding process of the self association of peptides and protein segments. Those substitutions, which prevented the inducible amphipathic folding ability, were also found to result in a loss in hemolytic and antimicrobial activity. These results, combined with studies of the binding to artificial liposomes and to polysialic acids, indicate that the losses in activity were due to an initial inability to be induced into an amphipathic alpha-helix and to self associate. Ultimately, melittin's self association is proposed to be required to penetrate the carbohydrate barrier present in biological membranes.