1,721,113 research outputs found
pH-Sensitive Liposomes: Structural Characterization and Possible Therapeutic Applications
No full textThe definition of liposomal preparations where sensitivity to moderate drops of pH (i.e. from 7.4 to 6.8) can be induced by the presence of plasma itself has been investigated. Liposome stability was monitored using 5,6-carboxyfluorescein (CF). We used sulfatide as the pH sensitive molecule on the basis of our previous studies in which we demonstrated an enhanced anti-tumor activity against a transplantable metastatic tumor model for ADM entrapped liposomes containing sulfatide. The amount of CF released at pH 6.8 in the presence of 50% plasma from small unilamellar vesicles (SUV), composed of egg phosphatidylcholine (EPC) and bovine brain sulfatide (CS) (4:1 m/m), was 3-fold that at pH 7.4, whereas no significant differences were observed when the same liposomes were incubated in buffer at 7.4 and 6.8 respectively. The plasma dependent pH sensitivity of these liposomes seems to specifically depend on the presence of sulfatide in the bilayer since neither cholesterol 3 sulfate (Choi 3S) nor galactocerebroside, are able to induce pH sensitivity in EPC liposomes. Of all the plasma components considered, VLDL seemed preferentially involved in the pH sensitivity induced by CS since they promoted an almost complete release of CF from EPC-CS liposomes at pH 6.
Ceramide in primary astrocytes from cerebellum : metabolism and role in cell proliferation
No full textCerebellar astrocytes are equipped with an efficient molecular machinery able to control the levels, and possibly the subcellular location, of ceramide. The major metabolic routes that contribute to the maintenance and variation of the cellular ceramide include ceramide biosynthesis, by de novo pathway or sphingosine recycling, ceramide formation from complex sphingolipids degradation and ceramide catabolism. In cerebellar astrocytes from rat cerebellum a peculiar metabolism of sphingomyelin occurs. This includes the preponderance of acidic sphingomyelinase, paralleled by a deficiency of the neutral Mg2+-dependent enzyme, as well as the presence of an extra-Golgi form of sphingomyelin synthase, which shares many characteristics with PC-PLC. Moreover these cells are characterized by a high efficiency in converting sphingosine to ceramide, possibly functional to the role played by astrocytes in the prevention of neuronal damage by high sphingosine concentration. Recent evidence demonstrates that a change of ceramide level is one of the key steps in the chain of reactions elicited by mitogenic stimuli. In fact, low cellular levels of ceramide characterize, and appear to be required for, the proliferation of cerebellar astrocytes. In particular mitogenic stimuli, such as basic fibroblast growth factor (bFGF), rapidly down regulate the cellular levels of ceramide by stimulating sphingomyelin synthase. Ceramide acts as an intracellular physiological inhibitor of cell growth, being able to counteract the effect of bFGF by inhibiting the MAP kinase pathway. Although many questions remain in this field, the present knowledge strongly supports that ceramide represents a crucial member within lipid mediators, involved in the signaling pathways underlying cell proliferation in cerebellar astrocytes
Characterization of lipid peroxidation kinetics in the core and in surface of human plasma lipoprotein: a study based on the use of three different pyrene derivatives
No full text
Salvage pathways in glycosphingolipid metabolism
No full textIn this review, the focus is on the role of salvage pathways in glycosphingolipid, particularly, ganglioside metabolism. Ganglioside de novo biosynthesis, that begins with the formation of ceramide and continues with the sequential glycosylation steps producing the oligosaccharide moieties, is briefly outlined in its enzymological and cell-topological aspects. Neo-synthesized gangliosides are delivered to the plasma membrane, where their oligosaccharide chains protrude toward the cell exterior. The metabolic fate of gangliosides after internalization via endocytosis is then described, illustrating: (a) the direct recycling of gangliosides to the plasma membrane through vesicles gemmated from sorting endosomes; (b) the sorting through endosomal vesicles to the Golgi apparatus where additional glycosylations may take place; and (c) the channelling to the endosomal/lysosomal system, where complete degradation occurs with formation of the individual sugar (glucose, galactose, hexosamine, sialic acid) and lipid (ceramide, sphingosine, fatty acid) components of gangliosides. The in vivo and in vitro evidence concerning the metabolic recycling of these components is examined in detail. The notion arises that these salvage pathways, leading to the formation of gangliosides and other glycosphingolipids, sphingomyelin, glycoproteins and glycosaminoglycans, represent an important saving of energy in the cell economy and constitute a relevant event in overall ganglioside (or glycosphingolipid, in general) turnover, covering from 50% to 90% of it, depending on the cell line and stage of cell life. Sialic acid is the moiety most actively recycled for metabolic purposes, followed by sphingosine, hexosamine, galactose and fatty acid. Finally, the importance of salvage processes in controlling the active concentrations of ceramide and sphingosine, known to carry peculiar bioregulatory/signalling properties, is discussed
Predominance of the acylation route in the metabolic processing of exogenous sphingosine in neural and extraneural cells in culture
No full textThe metabolic fate of exogenous [H-3]sphingosine was investigated in five types of cultured cells: primary cultures of neurons and astrocytes, murine and human neuroblastoma cells and human skin fibroblasts. After administration of 40 nM [3-H-3]sphingosine into a cell-conditioned medium containing fetal calf serum, all cell types rapidly and efficiently incorporated the long-chain base in a time-dependent fashion. In all cases, after a 120 min pulse, the amount of radioactivity taken up was in the range of the endogenous sphingosine content. However, unchanged [H-3]sphingosine represented only a very minor portion of the label incorporated into cells throughout the pulse period (10-120 min), indicating rapid and efficient sphingosine metabolism in these cells. Most of the [H-3]sphingosine taken up was metabolically processed, either by degradation (assessed as (H2O)-H-3 release into the culture medium) or by N-acylation (mainly to radioactive ceramide, sphingomyelin, neutral glycolipids and gangliosides). [H-3]Sphingosine 1-phosphate accounted for less than 2 % of the total radioactivity incorporated in all cases. Throughout the pulse period and in all cell types, H-3-labelled organic metabolites largely prevailed over (H2O)-H-3, indicating that N-acylation is the major metabolic fate of sphingosine in these cells under apparently physiological conditions. These results are consistent with the notion that sphingosine has a rapid turnover in the cells studied, and indicate that regulation of the basal level of this bioactive molecule occurs mainly through N-acylation
Biomodulatory role of ceramide in basic fibroblast growth factor-induced proliferation of cerebellar astrocytes in primary culture
No full textTo evaluate the role of ceramide in glial growth, primary cultures of quiescent astrocytes from rat cerebellum were stimulated to proliferate by mitogenic doses of basic fibroblast growth factor (bFGF). Parallel to the bFGF mitogenic effect was a marked, and persistent, decrease in cellular ceramide levels. Both in vitro and in culture metabolic studies have led us to exclude both sphingomyelinase and ceramidase involvement in ceramide level variation. Instead, we found evidence of a functional connection between the decrease in ceramide levels and astrocyte proliferation. In fact, cell growth in bFGF-stimulated astrocytes was inhibited by exogenous ceramide and C2-ceramide, maximal inhibition being obtained at a ceramide concentration of 5-10 M. Under the same conditions, the dihydroderivatives of ceramides were without effect. Following ceramide treatment, the phosphorylation of the MAP kinase isoforms ERK1/2, key components in bFGF-induced cell proliferation, was examined. The administration of antiproliferative doses of ceramide or C2-ceramide, but not of their dihydroderivatives, resulted in a significant inhibition of ERK1/2 activation. In conclusion, our data indicate that the prompt modulation of ceramide levels by bFGF is an early step associated with the signaling pathways responsible for the mitogenic activity of bFGF in astrocyte
N-PYRENE DODECANOYL SULFATIDE AS MEMBRANE PROBE - A STUDY OF GLYCOLIPID DYNAMIC BEHAVIOR IN MODEL MEMBRANES
No full textAn N-linked pyrene-dodecanoyl sulfatide was employed to measure the ratio of excimer fluorescence to monomer fluoresence intensities (E/M). The E/M values provided information about both the dynamic behavior and the structural distribution of the labelled glycolipid in note dispersion of micellar sulfatides and multilamellar vesicles of different phospholipids. Most of the labelled sulfatide seems to be located in domains sequestered from the surrounding phospholipids still above the phase transition temperature of the vesicles. The glycolipids sequestered in these domain environment are less sensitive to the structural changes that the addition of cholesterol or Ca2+ can induce in the phospholipid regions during the phase transition
PLASMA DEPENDENT PH SENSITIVITY OF LIPOSOMES CONTAINING SULFATIDE
No full textIn this study we investigated the possibility to define relatively plasma-stable liposomal preparations in which the sensitivity to moderate drops of pH (i.e., from 7.4 to 6.8) would be induced by the presence of plasma itself. The liposome stability was monitored by determining the release of entrapped 5,6-carboxyfluorescein (CF). Using small unilamellar vesicles composed of egg phosphatidylcholine (EPC) and bovine brain sulfatide (CS) (4:1, molar ratio), the amount of CF released at pH 6.8 in the presence of 50% plasma was 3-fold that at pH 7.4, whereas no significant differences in the amount of CF released were observed when the same liposomes were incubated in buffer at pH 7.4 and 6.8, respectively. The increase in plasma induced leakage as a consequence of a drop in the pH medium, seems to specifically depend on the presence of sulfatide molecule in the bilayer since neither the acidic cholesterol 3-sulfate nor galactocerebroside, are able to induce pH sensitivity in EPC liposomes. Of all the plasma components considered (VLDL, LDL, HDL, protein fraction), VLDL seemed preferentially involved in the pH sensitivity induced by CS since they promoted an almost complete release of CF from EPC/CS small unilamellar vesicles. Thus, these liposomes are potentially a useful tool for a specific drug delivery to those pathological tissues such as tumors, inflammation sites and ischemic areas in which it is known that a lowering of the pH can occur
- …
