Interaction of hydrophobic and amphipathic antimicrobial peptides with lipid bicelles | Boulder Peptide Symposium

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Interaction of hydrophobic and amphipathic antimicrobial peptides with lipid bicelles

Interaction of hydrophobic and amphipathic antimicrobial peptides with lipid bicelles

Bicelles are model membrane systems that can be macroscopically oriented in a magnetic field at physiological temperature. The macroscopic orientation of bicelles allows to detect, by means of magnetic resonance spectroscopies, small changes in the order of the bilayer caused by solutes interacting with the membrane. These changes would be hardly detectable in isotropic systems such as vesicles or micelles. The aim of this work is to show that bicelles represent a convenient tool to investigate the behavior of antimicrobial peptides (AMPs) interacting with membranes, using electron paramagnetic resonance (EPR) spectroscopy. We performed the EPR experiments on spin-labeled bicelles using various AMPs of different length, charge, and amphipathicity: alamethicin, trichogin GA IV, magainin 2, HP(2–20), and HPA3. We evaluated the changes in the order parameter of the spin-labeled lipids as a function of the peptide-to-lipid ratio. We show that bicelles labeled at position 5 of the lipid chains are very sensitive to the perturbation induced by the AMPs even at low peptide concentrations. Our study indicates that peptides that are known to disrupt the membrane by different mechanisms (i.e., alamethicin vs magainin 2) show very distinct trends of the order parameter as a function of peptide concentration. Therefore, spin-labeled bicelles proved to be a good system to evaluate the membrane disruption mechanism of new AMPs. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.

Thumbnail image of graphical abstract

The interaction of bicelles with several antimicrobial peptides, either amphipathic or fully hydrophobic, has been studied with EPR spectroscopy. We show that bicelles are a convenient tool to distinguish peptides with different mechanisms of action on membranes.


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