alamethicin and protegrin-1

Lipid bilayers containing the antimicrobial peptide protegrin-1 (PG-1) were studied by lamellar X-ray diffraction. Previously, we have shown that the peptide exists in two distinct states when associated with lipid bilayers depending on the peptide concentration [Heller, W. T., Waring, A. J., Lehrer, R. I., and Huang, H. W. (1998) Biochemistry 37, 17331-17338]. For concentrations below a lipid-dependent threshold, PG-1 exhibits a unique oriented circular dichroism spectrum called the S state. X-ray experiments show that in this state PG-1 decreases the thickness of the lipid bilayer in proportion to the peptide concentration, similar to alamethicin's membrane thinning effect. This indicates that the S state is adsorbed in the headgroup region of the lipid bilayer, where the peptide is in an inactive state. For PG-1 above the threshold concentration, X-ray diffraction shows that the interaction between the peptide and the bilayer changes significantly. These results suggest that PG-1 has the same concentration-gated mechanism of action as alamethicin.

Topics: Alamethicin; Amino Acid Sequence; Anti-Infective Agents; Antimicrobial Cationic Peptides; Lipid Bilayers; Molecular Sequence Data; Peptides; Phosphatidylcholines; Protein Structure, Secondary; Proteins; X-Ray Diffraction

Protegrin-1 (PG-1), a beta-sheet antimicrobial peptide, was studied in aligned lipid bilayers by oriented circular dichroism (OCD). All of its spectra measured in a variety of lipid compositions were linear superpositions of two primary basis spectra, indicating that PG-1 existed in two different states in membranes. We designated these as state S and state I. The state assumed by PG-1 was strongly influenced by lipid composition, peptide concentration, and hydration condition. We have previously reported that the helical peptides, alamethicin and magainin, also exhibit two distinct OCD basis spectra-one corresponding to surface adsorption with the helix parallel to the bilayer and the other with perpendicular transbilayer insertion. States S and I of PG-1 may correspond to the surface state and the insertion state of alamethicin, since they show a similar dependence on lipid composition, peptide concentration, and hydration condition. Nonoriented CD spectra obtained from vesicle, micelle, and solution preparations are not linear superpositions of the basis spectra of the states S and I. This indicates that a molecular orientation change alone is insufficient to describe the S left and right arrow I transition. Rather, a more complicated process is taking place, perhaps involving a change in the hydrogen bonding pattern of the backbone. Although the structural basis of the OCD spectra remains to be determined, the discovery of two distinct states can provide information about dynamic changes of PG-1 in membranelike environments, properties undoubtedly related to its antimicrobial and cytotoxic effects.

Topics: Alamethicin; Amino Acid Sequence; Animals; Anti-Infective Agents; Antimicrobial Cationic Peptides; Circular Dichroism; Lipid Bilayers; Micelles; Molecular Sequence Data; Protein Structure, Secondary; Proteins; Swine