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Conformation, Orientation, and Adsorption Kinetics of Dermaseptin B2 onto Synthetic Supports at Aqueous/Solid Interface

S. Noinville ^*, F. Bruston , C. El Amri ^*, D. Baron ^* and P. Nicolas 

^* Laboratoire de Dynamique, Interactions et Réactivité, Centre National de la Recherche Scientifique-Université Paris, 94320 Thiais, France; and Laboratoire de Bioactivation des Peptides, Institut Jacques Monod, 75251 Paris cedex 5, France

Correspondence: Address reprint requests to Dr. S. Noinville, Laboratoire de Dynamique, Interactions et Réactivité, CNRS, 2 rue Henri Dunant, 94320 Thiais, France. Tel.: 00-33-149-781-292; Fax: 00-33-149-781-18; E-mail: sylvie.noinville{at}glvt-cnrs.fr.

The antimicrobial activity of cationic amphipathic peptides is due mainly to the adsorption of peptides onto target membranes, which can be modulated by such physicochemical parameters as charge and hydrophobicity. We investigated the structure of dermaseptin B2 (Drs B2) at the aqueous/synthetic solid support interface and its adsorption kinetics using attenuated total reflection Fourier transform infrared spectroscopy and surface plasmon resonance. We determined the conformation and affinity of Drs B2 adsorbed onto negatively charged (silica or dextran) and hydrophobic supports. Synthetic supports of differing hydrophobicity were obtained by modifying silica or gold with -functionalized alkylsilanes (bromo, vinyl, phenyl, methyl) or alkylthiols. The peptide molecules adsorbed onto negatively charged supports mostly had a ß-type conformation. In contrast, a monolayer of Drs B2, mainly in the -helical conformation, was adsorbed irreversibly onto the hydrophobic synthetic supports. The conformational changes during formation of the adsorbed monolayer were monitored by two-dimensional Fourier transform infrared spectroscopy correlation; they showed the influence of peptide-peptide interactions on -helix folding on the most hydrophobic support. The orientation of the -helical Drs B2 with respect to the hydrophobic support was determined by polarized attenuated total reflection; it was around 15 ± 5°. This orientation was confirmed and illustrated by a molecular dynamics study. These combined data demonstrate that specific chemical environments influence the structure of Drs B2, which could explain the many functions of antimicrobial peptides.