Lipid‐dependent pore formation by antimicrobial peptides arenicin‐2 and melittin demonstrated by their proton transfer activity

This work presents a comparative study of proton transfer activity (PTA) of two cationic (+6) antimicrobial peptides, β‐structural arenicin‐2 and α‐helical melittin. A new approach was proposed for the detection of passive proton transfer by using proteoliposomes containing bacteriorhodopsin, which creates a small light‐induced electrochemical proton gradient ?ΔpH. Addition of several nanomoles of the peptides lowers ?ΔpH that is proximately indicative of the pore formation. The quantitative analysis of sigmoidal dependences of ?pH on the peptides concentration was carried out using liposomes prepared from PC, PC/PE, PC/PE/PI and PC/PG. Substitution of PC‐containing liposomes with PE‐containing ones, having negative spontaneous curvature, reduced the PTA of α‐helical melittin and increased that of β‐structural arenicin‐2. This result indicates an essential difference in the pore formation by these peptides. Further increase of PTA in response to arenicin‐2 (in contrast to melittin) was observed in the liposomes prepared from PC/PE/PI. The data analysis leads to the conclusion that PTA is influenced by (i) efficiency of the pore assemblage, which depends on the structure of pore‐forming peptides, and the spontaneous curvature of lipids and (ii) the presence of mobile protons in the polar head groups of phospholipids. Copyright © 2014 European Peptide Society and John Wiley & Sons, Ltd.