posted on 2015-12-17, 03:57authored byYen-Fei Chen, Tzu-Lin Sun, Yen Sun, Huey W. Huang
Daptomycin is the first approved
member of a new structural class
of antibiotics, the cyclic lipopeptides. The peptide interacts with
the lipid matrix of cell membranes, inducing permeability of the membrane
to ions, but its molecular mechanism has been a puzzle. Unlike the
ubiquitous membrane-acting host-defense antimicrobial peptides, daptomycin
does not induce pores in the cell membranes. Thus, how it affects
the permeability of a membrane to ions is not clear. We studied its
interaction with giant unilamellar vesicles (GUVs) and discovered
a lipid-extracting phenomenon that correlates with the direct action
of daptomycin on bacterial membranes observed in a recent fluorescence
microscopy study. Lipid extraction occurred only when the GUV lipid
composition included phosphatidylglycerol and in the presence of Ca2+ ions, the same condition found to be necessary for daptomycin
to be effective against bacteria. Furthermore, it occurred only when
the peptide/lipid ratio exceeded a threshold value, which could be
the basis of the minimal inhibitory concentration of daptomycin. In
this first publication on the lipid extracting effect, we characterize
its dependence on ions and lipid compositions. We also discuss possibilities
for connecting the lipid extracting effect to the antibacterial activity
of daptomycin.