PORPHYRINS AS FLUORESCENT-PROBES FOR MONITORING PHASE-TRANSITIONS OF LIPID DOMAINS IN BIOLOGICAL-MEMBRANES - FACTORS INFLUENCING THE MICROENVIRONMENT OF HEMATOPORPHYRIN AND PROTOPORPHYRIN IN LIPOSOMES
F. Ricchelli et S. Gobbo, PORPHYRINS AS FLUORESCENT-PROBES FOR MONITORING PHASE-TRANSITIONS OF LIPID DOMAINS IN BIOLOGICAL-MEMBRANES - FACTORS INFLUENCING THE MICROENVIRONMENT OF HEMATOPORPHYRIN AND PROTOPORPHYRIN IN LIPOSOMES, Journal of photochemistry and photobiology.B, Biology, 29(1), 1995, pp. 65-70
The distribution properties of haematoporphyrin (HP) and protoporphyri
n (PP) (concentration range 0.5-15 mu M) in small unilamellar vesicles
(SUVs) of dimiristoylphosphatidylcholine (DMPC), sometimes mixed with
cholesterol (Chol) or cardiolipin (Card), were compared with those al
ready reported for HP and PP in SUVs of dipalmitoylphosphatidylcholine
(DPPC). In the latter system the study was extended to vesicles modif
ied by addition of high concentrations of Chol (up to 55 mol% of total
lipids) or Card (up to 37% w/w). These lipids are determinants for mo
st biological membranes. The studies were performed by following the t
emperature dependence of the porphyrin fluorescence polarization and t
he quenching of porphyrin fluorescence by methyl viologen. In all lipi
d systems tip interacts with very polar, solvent-accessible regions of
the inner monolayer. In DMPC liposomes HP is partitioned at the phosp
holipid headgroup-water interfaces over the whole concentration range.
In contrast, discrimination of different areas (lipid-headgroup and h
eadgroup-water interfaces) in the polar regions of the inner monolayer
of DPPC liposomes is possible by modulating the dye concentration, HP
shows no tendency to diffuse into pure lipid domains: a significant l
oading of the outer monolayer is observed only after an increase in th
e fluidity of the system by addition of Card or by increasing the temp
erature. A limit situation is obtained in DPPC liposomes enriched with
high concentrations of Chol: in spite of the very low affinity of KP
for Chol-rich domains of lipid membranes, porphyrin molecules do not m
ove to the external monolayer but instead accumulate in mixed DPPC-Cho
l regions at the water-lipid inner interface. In all lipid systems PP
is preferentially distributed in the most buried, hydrophobic regions
of the lipid bilayer. A shift of the porphyrin molecules towards more
quencher-accessible lipid domains is possible only in mixed DMPC-Chol
or DMPC-Card liposomes brought to the fluid state with high temperatur
es.