P. Kallinteri et al., Uptake of liposomes which incorporate a glycopeptide fraction of asialofetuin by HepG(2) cells, J LIPOS RES, 11(2-3), 2001, pp. 175-193
We examined the interaction between liposomes which incorporate a fraction
triantennary glycopeptide (AF) of asialofetuin and human hepatoma cells (He
pG(2)) in vitro. HepG(2) cells are known to express the asialoglycoprotein
receptor.
For liposome preparation AF, was cleaved from asialofetuin, purified and co
njugated with different length (C-12 C-16 and C-18) fatty acids (FA). ne co
njugates were subsequently incorporated into pre-formed sonicated liposomes
using a mild cholate incubation method. Interactions between AF(2)/ FA-lip
osomes as well as control-liposomes (with no ligand) and cells (in the pres
ence of serum) were measured at different lipid doses after incubating HepG
(2) cells with liposomes at 4 degreesC and 37 degreesC, in the absence and
presence of galactose, and also evaluated by fluorescence microscopy. More
extensive studies were performed with the AF(2)/C-18-Liposomes which were p
reviously found to incorporate higher amounts of ligand and be the most sta
ble of the formulations prepared.
Results from both, morphological and quantitative studies, demonstrate that
AF(2)/C-16 and especially AF(2)/C-18-liposomes are bound and taken up by t
he cells by a galactose specific mechanism. The AF(2)/C-12-liposomes-which
were previously found to incorporate low amounts of ligand in a non-stable
way-were taken up by the cells in amounts similar to those of the control l
iposomes (without ligand) while this uptake was not reduced by galactose an
d therefore possibly non-specific. The intracellular localization of AF(2)/
C-18-liposomes was further evidenced by intracellular acidification using N
H4Cl. These conclusions. justify the importance of further in vivo studies
in order to demonstrate the capability of the proposed system to target hep
atocytes.