Abstract
Up to now the details of the mechanisms of melittin action on biological bilayer model systems in dependence on lipid composition, in particular on the kind of head groups, temperature, and ionic strength are not well understood. In particular, the influence of cholesterol present in most eucaryotic cells and the influence of glycolipids present in bacterial membranes are far from being clear. Here, data are presented from investigations by small-angle X-ray scattering (SAXS), Fouriertransform infrared spectroscopy (FTIR), circular dichroism (CD) spectroscopy, Forster resonance electron transfer (FRET) spectroscopy, and calorimetric techniques (DSC: differential scanning calorimetry and ITC: isothermal titration calorimetry) on the interaction of melittin with different (glyco)lipids, in order to elucidate 1) the peptide secondary structure during the melittin-lipid interaction, 2) to monitor the intercalation of the peptide into membranes, 3) to characterize the aggregate structure of the lipids, 4) to characterize the influence of lipid:melittin ratio with regard to the acyl chain melting behaviour as well as 5) to determine the peptide-lipid binding stoichiometry. These experiments are correlated with results from biological test systems, in which the inhibition of the lipopolysaccharide-induced cytokine expression in human immune cells by melittin was monitored. Furthermore, the findings are related to data found in literature with various membrane systems and different techniques. In this way, it is now possible to better understand the details of the melittin-membrane interactions, which is important with respect to the understanding of its anti-inflammatory and antimicrobial properties.
Keywords: Melittin, outer membranes, lipopolysaccharide, antimicrobial peptide, small- and wide-angle X-ray diffraction, Fourier-transform infrared spectroscopy, FRET spectroscopy
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