Transmembrane and cytoplasmic domains of syndecan mediate a multi-step endocytic pathway involving detergent-insoluble membrane rafts.

Syndecan heparan sulphate proteoglycans directly mediate a novel endocytic pathway. Using Chinese hamster ovary cells expressing the human syndecan 1 core protein or a chimaeric receptor, FcR-Synd, consisting of the ectodomain of the IgG Fc receptor Ia linked to the transmembrane and cytoplasmic domains of syndecan 1, we previously reported that efficient internalization is triggered by ligand clustering, requires intact actin microfilaments and tyrosine kinases, proceeds with a t(1/2) of approx. 1 h and is distinct from coated-pit pathways. We have now examined the involvement of cholesterol-rich, detergent-insoluble membrane rafts. On clustering, (125)I-labelled IgG bound to FcR-Synd rapidly became insoluble in cold Triton X-100, well before endocytosis. Insolubility of clustered FcR-Synd ligand did not require the syndecan ectodomain, linkage of the cytoplasmic tail to the cytoskeleton, or energy-dependent cellular metabolism. Pretreatment of cells with cyclodextrin to deplete cholesterol from rafts abolished insolubility of the clustered ligand and inhibited endocytosis in a dose-responsive fashion. Similar results were obtained with (125)I-labelled lipoprotein lipase bound to authentic cell-surface syndecan. In contrast, the 39 kDa receptor-associated protein (RAP), a coated-pit ligand, was more than 80% soluble in cold Triton even after internalization; cellular cholesterol depletion failed to substantially affect the internalization of (125)I-RAP. Overall, our results indicate a multi-step endocytic process consisting of ligand binding, clustering, energy-independent lateral movement into detergent-insoluble membrane rafts and finally recruitment of actin and tyrosine kinases to bring the ligands into the cell.

Perlecan heparan sulfate proteoglycan: a novel receptor that mediates a distinct pathway for ligand catabolism.

Cell surface heparan sulfate proteoglycans (HSPGs) participate in the catabolism of many physiologically important ligands. We previously reported that syndecan HSPGs directly mediate endocytosis, independent of coated pits. We now studied perlecan, a major cell surface HSPG genetically distinct from syndecans. Cells expressing perlecan but no other proteoglycans bound, internalized, and degraded atherogenic lipoproteins enriched in lipoprotein lipase. Binding was blocked by heparitinase, and degradation by chloroquine. Antibodies against beta(1) integrins reduced initial ligand binding, consistent with their roles as cell surface attachment sites for perlecan. By several criteria, catabolism via perlecan was distinct from either coated pits or the syndecan pathway. The kinetics of internalization (t(12) = 6 h) and degradation (t(12) approximately 18 h) were remarkably slow, unlike the other pathways. Blockade of the low density lipoprotein receptor-related protein did not slow perlecan-dependent internalization. Internalization via perlecan was inhibited by genistein but unaffected by cytochalasin D, a pattern distinct from coated pits or syndecan-mediated endocytosis. Finally, we examined cooperation between perlecan and low density lipoprotein receptors and found limited synergy. Our results demonstrate that perlecan mediates internalization and lysosomal delivery that is kinetically and biochemically distinct from other known uptake pathways and is consistent with a very slow component of HSPG-dependent ligand processing found in vitro and in vivo.

Cell-surface heparan sulfate proteoglycans: dynamic molecules mediating ligand catabolism.

Though sometimes regarded as merely passive, space-filling components, proteoglycans are in fact metabolically active molecules with carbohydrate and protein domains that are highly conserved throughout evolution, indicating specific, crucial functions. Here we review recent evidence that heparan sulfate proteoglycans, particularly syndecans and perlecan, are able to mediate directly the internalization of lipoproteins and other ligands, without requiring the participation of LDL receptor family members. Thus, heparan sulfate proteoglycans can function as receptors. In the case of syndecan heparan sulfate proteoglycans, efficient internalization is triggered by clustering of the transmembrane and cytoplasmic domains and then proceeds through a noncoated pit pathway, possibly caveolae. The physiologic and pathophysiologic importance of these direct heparan sulfate proteoglycan-mediated catabolic pathways in the liver and in the arterial wall in vivo remains to be settled.

The syndecan family of proteoglycans. Novel receptors mediating internalization of atherogenic lipoproteins in vitro.

Cell-surface heparan sulfate proteoglycans have been shown to participate in lipoprotein catabolism, but the roles of specific proteoglycan classes have not been examined previously. Here, we studied the involvement of the syndecan proteoglycan family. First, transfection of CHO cells with expression vectors for several syndecan core proteins produced parallel increases in the cell association and degradation of lipoproteins enriched in lipoprotein lipase, a heparan-binding protein. Second, a chimeric construct, FcR-Synd1, that consists of the ectodomain of the IgG Fc receptor Ia linked to the highly conserved transmembrane and cytoplasmic domains of syndecan-1 directly mediated efficient internalization, in a process triggered by ligand clustering. Third, internalization of lipase-enriched lipoproteins via syndecan-1 and of clustered IgGs via the chimera showed identical kinetics (t1/2 = 1 h) and identical dose-response sensitivities to cytochalasin B, which disrupts microfilaments, and to genistein, which inhibits tyrosine kinases. In contrast, internalization of the receptor-associated protein, which proceeds via coated pits, showed a t1/2 < 15 min, limited sensitivity to cytochalasin B, and complete insensitivity to genistein. Thus, syndecan proteoglycans can directly mediate ligand catabolism through a pathway with characteristics distinct from coated pits, and might act as receptors for atherogenic lipoproteins and other ligands in vivo.

Interaction of avidin-carrying red blood cells with nucleated cells.

In vivo application of red blood cells (RBC) modified with avidin-biotin complex has been suggested recently for various purposes. However, avidin attachment to RBC alters their biocompatibility. Thus, it has been described that avidin-carrying biotinylated RBC were lysed by the complement. In the present work interaction between avidin-carrying RBC and nucleated cells has been examined. It was found that attachment of avidin, but not streptavidin, to RBC led to binding of avidin-carrying RBC to nucleated cells. Adhesiveness of nucleated cells for avidin-carrying RBC varied for different types of nucleated cells. The strongest adhesion was observed with human fibroblasts and rat Kupffer cells, while rat liver endothelial cells were practically non-adhesive for avidin-carrying RBC of corresponding species. In contrast with avidin (streptavidin)-induced lysis by the complement, avidin-induced adhesion was independent of temperature, the presence of divalent ions and mode of avidin attachment. Polyanions (dextran sulphate and heparin) efficiently inhibited the adhesion presumably due to interaction with the membrane-bound avidin. Polyanions to a much lesser extent inhibited lysis of avidin-carrying RBC, which might be a result of their interaction with the complement components. Polycations also blocked adhesion of avidin-carrying RBC to nucleated cells, presumably due to interaction with negatively charged cell-surface components. Therefore, attachment of avidin to RBC alters their biocompatibility, due to both high positive charge of avidin and the cross-linking of biotinylated membrane proteins.

[The cholesterol level in the peripheral blood lymphocytes: the interrelationship with ischemic heart disease in patients with different types of hyperlipidemia]. / Uroven' kholesterina v limfotsitakh perifericheskoi krovi: vzaimosviaz' s ishemicheskoi bolezn'iu serdtsa u patsientov s razlichnymi tipami giperlipidemii.

Variability of cholesterol levels inside lymphocytes (CLL) have been compared with the concentration of total cholesterol, triglycerides and HDL of blood plasma among normal donors and hyperlipidemic patients. Persons with elevated CLL was found among normal donors and hyperlipidemic patients, each group comprising 4-5%. No significant correlation was followed between CLL & the level of total cholesterol, triglyceride & HDL blood plasma level among total observed population. However a consistent correlation was found between CLL & blood plasma cholesterol/triglyceride ratio among patient with elevated plasma triglyceride.

Platelets in patients with homozygous familial hypercholesterolemia are sensitive to Ca(2+)-mobilizing activity of low density lipoproteins.

While some data suggest that Ca(2+)-mobilizing effects of low density lipoprotein (LDL) in platelets are mediated by a specific membrane receptor, the data about the nature of this lipoprotein-binding site are contradictory. This work was performed in order to assess possible involvement of apolipoprotein (apo) B,E receptor, present in most cell types. To answer the question we compared effects of LDL in normal platelets and those obtained from patients with homozygous familial hypercholesterolemia (HFH), characterized by absence of functional apo B,E receptors. We have found that in accordance with previous results LDL induced instant reversible elevation of free cytoplasmic calcium concentration ([Ca2+]i) in fura-2-loaded platelets. The effect was observed both in healthy and HFH groups. Neither half-maximal effective concentrations nor maximal effects of LDL differed significantly between two groups. Ca(2+)-mobilizing effects of lipoproteins were potentiated about 4-fold by epinephrine and completely blocked by prostaglandin E1 both in platelets of healthy and HFH subjects. The similarity of lipoprotein effects in control and HFH platelets is evidence that apo B,E receptor does not mediate the Ca(2+)-mobilizing activity of LDL in this cell type.

[Regulation of intracellular cholesterol synthesis in hypercholesterolemia by glucocorticoids]. / Reguliatsiia gliukokortikoidami sinteza vnutrikletochnogo kholesterina pri giperkholesterinemia.

The rate of endogenous cholesterol synthesis in blood lymphocytes and skin fibroblasts from patients with type IIa hyperlipidemia was found to be increased in comparison with healthy donors. The cells of hyperlipidemic patients had lowered levels of glucocorticoid receptors concomitantly with a partial loss of their sensitivity to glucocorticoids. In fibroblasts from patients with hereditary hypercholesteremia of homozygous type the number of glucocorticoid receptors did not exceed 10% of their content in normal cells. The decrease of the number of glucocorticoid receptors in patients with type IIa hyperlipidemia seems to be a compensatory response of cells culminating in activation of endogenous cholesterol synthesis.

Interaction of apolipoprotein B-containing lipoprotein secreted by Hep G2 cells with receptors for low-density lipoprotein.

Radioligand and immunoenzymatic techniques were used to characterize the receptor binding properties of apolipoprotein B-containing lipoprotein produced by HepG2 cell line (H-LpB). It was found that compared to plasma low-density lipoprotein (LDL), the interaction of H-LpB nonseparated from conditioned medium with normal fibroblasts was 6-8-times lower and only slightly exceeded the nonspecific binding of LDL modified by malondialdehyde, while the uptake of the indicated lipoproteins by LDL receptor-negative strain of fibroblasts were identical. The uptake of H-LpB by normal fibroblasts increased 1.5-2-times after isolation from the culture medium by immunoaffinity chromatography. The effect of isolation could be explained by the finding that apolipoprotein E-containing lipoprotein secreted by HepG2 cells effectively competed for the binding with LDL-receptors. The obtained results suggest that H-LpB produced by HepG2 cells is poorly recognized by the LDL-receptors.

Inhibition of cholesterol synthesis by lovastatin tested on six human cell types in vitro.

Lovastatin (mevinolin) caused a strong and dose-dependent inhibition of cholesterol synthesis in six types of cultured human cells. Fifty percent inhibition of cholesterol synthesis in human enterocytes was observed at a lovastatin concentration of about 0.004 ng/ml and in other cells at a lovastatin concentration of about 0.03 ng/ml. At lovastatin concentrations between 1.0 and 100.0 ng/ml, a moderate tissue selectivity of lovastatin action was noted. At optimal concentrations, lovastatin inhibited cholesterol synthesis in hepatocytes by 98%, in normal and LDL-receptor negative fibroblasts, arterial smooth muscle cells and hepatoma G-2 cells by about 90%, and in enterocytes by 75%. In rat enterocytes lovastatin inhibited cholesterol synthesis by only 60%.

[The effect of khellin and timefurone on secretion and catabolism of lipoproteins by cultured human and rabbit hepatocytes]. / Vliianie kellina i taimfurona na sekretsiiu i katabolizm lipoproteidov kul'tiviruemymi gepatotsitami cheloveka i krolika.

Using human and rabbit hepatocyte cultures, the effects of khellin and timefurone on lipoprotein metabolism were studied with special reference to the following parameters: i) binding and degradation of 125I-labeled low density lipoproteins (LDL); ii) apoprotein B (apo-B) secretion measured by immunoenzymatic assay, iii) [35S]methionine labeled apo-B and apo-E within the composition of very low density lipoproteins (VLDL); iiii) total cholesterol synthesis and cholesterol secretion within the composition of VLDL. The therapeutic concentrations (0.1-10 micrograms/ml) of the above drugs had no appreciable effect on the binding and degradation of 125I-LDL but inhibited the secretion of apo-B VLDL, leaving the apo-E VLDL unaffected. This was paralleled with inhibition of cholesterol synthesis (by 30-50%) and VLDL secretion. These results suggest that khellin and timefurone mediate the hypolipidemic effect via the reduction of the intracellular synthesis of cholesterol and secretion of apo-B containing VLDL by hepatocytes.

New methods of diagnosing receptor metabolism disturbances of low density lipoproteins.

The authors present new approaches to assessment of various aspects of receptor metabolism for low density lipoproteins in patients with atherosclerosis: the ability of lipoproteins to interact with cell receptors in culture in the presence of nonfractionated serum; analysis of the genetically determined number of LDL receptors on culture cells, and the in vivo lipoprotein uptake in the liver. The ability of apo B-containing lipoproteins in patients with atherosclerosis to interact effectively with cell receptors was confirmed, the activity of LDL receptors on cells in cultures from patients with hypercholesterolaemia was analysed, and a decrease in 99mTc-labelled LDL uptake in the liver of patients with the heterozygous form of familial hypercholesterolaemia was demonstrated. The above approaches could be useful in the choice of individual treatment of clinically manifest atherosclerosis and evaluation of therapeutic efficacy.

Effect of plasmapheresis on the liver uptake of ApoB-lipoproteins labeled with technetium-99m.

To study liver low density lipoprotein (LDL)-receptor activity before and after plasmapheresis, [99mTc] very low density lipoprotein (VLDL) was used. Autologous VLDL was labeled, sterilized by filtration, and administered intravenously to patients under a gamma camera. The uptake of lipoproteins in the liver was measured by scintiscanning. Liver activity curves were generated for each patient. The liver activity in patients with the heterozygous form of familial hypercholesterolemia (FH) and in patients with symptomatic atherosclerosis (SA) without hereditary deficit of LDL receptors was reduced as compared to healthy people. Plasmapheresis enhanced the liver uptake of the 99mTc-labeled lipoproteins in atherosclerotic patients. Thus, labeled metabolites could presumably be of use in assessing the effect of plasmapheresis on liver function.

[Physico-chemical properties of low density lipoproteins isolated in an equilibrium density gradient]. / Fiziko-khimicheskie svoistva podfraktsii lipoproteidov nizkoi plotnosti, poluchennykh v ravnovesnom gradiente plotnosti.

The tryptophanyls of total low density lipoproteins (LDL) (1.006-1.063 g/ml) from coronary heart disease (CHD) patients and subjects without CHD signs had different accessibility to fluorescence quenchers (I-and acrylamide). LDL were separated into subfractions in equilibrium density gradient. The coefficient of extinction , quantum yield and other spectral characteristics of LDL intrinsic fluorescence, rotational mobility of maleimide spin labels and fatty acid spin probe were different in LDL subfractions from healthy subjects. LDL subfractions with hydrated density 1.045-1.05 g/ml bound to B,E-receptors of cultured fibroblasts more effectively than did subfractions with density 1.01-1.03 g/ml. Structural differences of apo-B in the particles with different lipid to protein ratio are supposed.

[Apoprotein B: its plasma level and interaction with cultured fibroblasts]. / Apoprotein B: kontsentratsiia v plazme krovi i vzaimodeistvie s fibroblastami v ku'lture.

To study the relationship between the ability of apolipoprotein B (apo B) to interact with LDL receptors and its blood concentration, enzyme immunoassay was used to measure serum apo B levels in 51 healthy donors, 84 patients with coronary heart disease (CHD), and 22 newborns. Employing the same serum samples, the binding of apo B to fibroblasts was determined by the enzyme immunoassay modified for cultured cells. The mean values of apo B concentrations were found to be 0.89 +/- 0.25 mg/ml in the donors, 1.29 +/- 0.51 mg/ml in CHD patients, and 0.57 +/- 0.19 mg/ml in the newborns, while the apo B binding to the cells amounted to 108.9 +/- 16.7, 141.5 +/- 43.6, and 55.0 +/- 24.6 ng/mg, respectively. The mean values of serum apo B binding in the healthy donors and CHD patients were shown to correspond to the concentration relationship of pure LDL interaction with LDL receptors. The findings suggest that higher plasma apo B concentrations in CHD patients cannot be explained by lowered ability of serum apolipoproteins B to interact with LDL receptors of the cells.

Effect of cell cholesterol content on apolipoprotein B secretion and LDL receptor activity in the human hepatoma cell line, HepG2.

Human hepatoma HepG2 cells were used to study the effects of cholesterol loading and depletion on apolipoprotein B (apoB) secretion and low-density lipoprotein (LDL) receptor activity. Exposure of HepG2 cells to cholesterol and oleic acid, which elevated intracellular cholesterol levels, stimulated apoB secretion and reduced receptor-mediated uptake of LDL, whereas recombinant complexes of apolipoprotein A-I with dimyristoylphosphatidylcholine, which depleted the cellular cholesterol pool, inhibited apoB secretion and up-regulated LDL receptors. Significant negative correlation (r = -0.92, P less than 0.001) between the levels of apoB secretion and LDL uptake was found. These data suggest that the cholesterol content of the cells may induce concomitant changes in apoB secretion and LDL receptor activity.

[Physico-chemical and functional characteristics of a subfraction of low-density lipoproteins isolated by ion-exchange column chromatography]. / Fiziko-khimicheskie i funktsional'nye kharakteristiki podfraktsii lipoproteidov nizkoi plotnosti, poluchennykh ionoobmennoi kolonochnoi khromatografiei.

Fractionation of human blood plasma low density lipoproteins (LDL) was performed by ion-exchange chromatography, using a linear NaCl gradient. It was shown that the binding of LDL subfractions eluted with a low ionic strength buffer (i.e., containing the particles with a lower negative charge) to B, E-receptors of fibroblasts was more effective than that of subfractions eluted with a high ionic strength buffer (i.e., containing the particles with a higher negative charge). The LDL particles with a lower negative charge had lower values of flotation coefficients (according to analytical ultracentrifugation data), smaller dimensions (according to gradient gel electrophoresis data) and a lower phospholipid/protein ratio (w/w). The experimental results suggest that LDL subfractions having different electrical parameters of the particle surface also differ in other physicochemical properties and seem to play a different role in atherogenesis.