Continuous measurement of rapid transbilayer movement of a pyrene-labeled phospholipid analogue.

The excimer forming capacity of the fluorescent moiety pyrene is employed to measure continuously the transbilayer (re)distribution of a pyrene-labeled phosphatidylcholine analogue (pyPC) in liposomal membranes. pyPC with a lauroyl residue (sn-1 position) and a short (butyroyl) fatty acid chain (sn-2 position) bearing the pyrene moiety incorporates rapidly into the outer leaflet of liposomes. The fluorescence intensities of excimers (I(E)) and of monomers (I(M)) of pyPC depend on the concentration of the analogue in a membrane leaflet. Therefore, the redistribution of pyPC from the outer to the inner leaflet can be followed by changes of the ratio I(E)/I(M). The transbilayer movement of pyPC in pure phospholipid vesicles is very slow indicated by a constant I(E)/I(M). However, addition of membrane active peptides (melittin, magainin 2 amide or a mutant of magainin 2 amide) induced a rapid translocation of pyPC from the outer to the inner leaflet. An approach is presented which allows estimating the transbilayer distribution of pyPC from the measured ratio I(E)/I(M).