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1.
In J774 macrophages and murine macrophages stimulated with acetylated low density lipoprotein (acetyl-LDL), the plasma membrane free cholesterol (FC) became accessible to acyl-CoA:cholesterol acyltransferase (ACAT) as substrate, the result being an accumulation of cholesteryl esters (CE) (Tabas, I., Rosoff, W. J., and Boykow, G. C (1988) J. Biol. Chem. 263, 1266-1272). As the route of delivery of FC to ACAT was not well characterized, we examined this route in the present study. In foam cells derived from rat peritoneal macrophages by preincubation with acetyl-LDL, esterification of the exogenously labeled [3H]FC was low (1.3% of total labeled cholesterol). In contrast, when cells were first labeled with exogenous [3H]FC and then chased with acetyl-LDL, the esterification was more extensive (9.2% of the total labeled cholesterol). During this experiment a significant portion of cellular [3H]FC was released into the medium (up to 33.4% of the total labeled cholesterol). In experiments using a two-compartment chamber in which cells in the lower and upper chambers were separated by filter paper yet the cells in both compartments could communicate without direct contact, [3H]FC released into the medium was biologically active and could serve as an efficient substrate for ACAT. Thus, when acetyl-LDL is not included in culture medium, FC delivery from the macrophage plasma membrane to ACAT is not enhanced, whereas in the presence of acetyl-LDL, plasma membrane FC released and bound to acetyl-LDL may re-enter the cells, possibly through the scavenger receptor. This would provide a significant route for CE synthesis in macrophages.  相似文献   

2.
Cholesteryl ester (CE) accumulation in arterial wall macrophages (foam cells), mediated by the intracellular enzyme acyl coenzyme A:cholesterol acyl transferase (ACAT), is a prominent feature of atherosclerotic lesions. However, native low density lipoprotein (LDL) does not cause activation of ACAT or CE accumulation in cultured mouse peritoneal macrophages despite both substantial LDL uptake and degradation and the presence of ACAT in these cells. We now report that when protein synthesis is inhibited in mouse peritoneal macrophages by treatment with cycloheximide, puromycin, or actinomycin D, native LDL-induced whole-cell ACAT activity and CE accumulation is 10-fold higher than that seen in LDL-treated control cells. The enhancement of ACAT activity was seen 4 h after the addition of cycloheximide, and ACAT activity returned to control values 4 h after the withdrawal of cycloheximide. Postnuclear supernatants and microsomes from cycloheximide-treated mouse peritoneal macrophages also had higher ACAT activity than microsomes from control cells, but the relative enhancement (maximum 3.3-fold) was less than that seen when ACAT was assayed in the intact cell. In contrast to the situation with mouse peritoneal macrophages, cycloheximide treatment of J774 macrophages, which under normal conditions display high ACAT activity and CE accumulation in the presence of native LDL, did not result in further enhancement of either ACAT activity or LDL-induced CE accumulation. From these data we postulate that mouse peritoneal macrophages have a short-lived protein that inhibits ACAT-mediated cholesterol esterification which is responsible for their lack of ACAT response and CE accumulation in the presence of native LDL. The explanation for high ACAT activity and LDL-induced CE accumulation in J774 macrophages may be that these cells lack the putative mouse peritoneal macrophage cholesterol esterification inhibitor.  相似文献   

3.
Cholesteryl ester accumulation in arterial wall macrophages (foam cells) is a prominent feature of atherosclerotic lesions. We have previously shown that J774 macrophages accumulate large amounts of cholesteryl ester when incubated with unmodified low density lipoprotein (LDL) and that this is related to sluggish down-regulation of the J774 LDL receptor and 3-hydroxy-3-methylglutaryl-coenzyme A reductase. To further explore intracellular cholesterol metabolism and regulatory events in J774 macrophages, we studied the effect of inhibitors of acyl-CoA:cholesterol acyl transferase (ACAT) on the cells' ability to accumulate cholesterol and to down-regulate receptor and reductase. Treatment of J774 cells with LDL in the presence of ACAT inhibitor 58-035 (Sandoz) prevented both cholesteryl ester and total cholesterol accumulation. Furthermore, 58-035 markedly enhanced down-regulation of the J774 LDL receptor and 3-hydroxy-3-methylglutaryl-CoA reductase in the presence of LDL. In dose-response studies, down-regulation of the receptor by 58-035 paralleled its inhibition of ACAT activity. Compound 58-035 also increased the down-regulation of the J774 LDL receptor in the presence of 25-hydroxycholesterol and acetyl-LDL but not in the presence of cholesteryl hemisuccinate, which is not an ACAT substrate. The ability of 58-035 to enhance LDL receptor down-regulation was negated when cells were simultaneously incubated with recombinant high density lipoprotein3 discs, which promote cellular cholesterol efflux. In contrast to the findings with J774 macrophages, down-regulation of the human fibroblast LDL receptor was not enhanced by 58-035. These data suggest that in J774 macrophages, but not in fibroblasts, ACAT competes for a regulatory pool of intracellular cholesterol, contributing to diminished receptor and reductase down-regulation, LDL-cholesterol accumulation, and foam cell formation.  相似文献   

4.
Net flux of cholesterol represents the difference between efflux and influx and can result in net cell-cholesterol accumulation, net cell-cholesterol depletion, or no change in cellular cholesterol content. We measured radiolabeled cell-cholesterol efflux and cell-cholesterol mass using cholesterol-normal and -enriched J774 and elicited mouse peritoneal macrophage cells. Net cell-cholesterol effluxes were observed when cholesterol-enriched J774 cells were incubated with 3.5% apolipoprotein (apo) B depleted human serum, HDL3, and apo A-I. Net cell-cholesterol influxes were observed when cholesterol-normal J774 cells were incubated with the same acceptors except apo A-I. When incubated with 2.5% individual sera, cholesterol mass efflux in free cholesterol (FC)-enriched J774 cells correlated with the HDL-cholesterol (HDL-C) concentrations (r2 = 0.4; P=0.003), whereas cholesterol mass influx in cholesterol-normal J774 cells correlated with the LDL cholesterol (LDL-C) concentrations (r2 = 0.6; P<0.0001) of the individual sera. A positive correlation was observed between measurements of [3H]cholesterol efflux and reductions in cholesterol mass (r2 = 0.4; P=0.001) in FC-enriched J774 cells. In conclusion, isotopic efflux measurements from cholesterol-normal or cholesterol-enriched cells provide an accurate measurement of relative ability of an acceptor to remove labeled cholesterol under a specific set of experimental conditions, i.e., efflux potential. Moreover, isotopic efflux measurements can reflect changes in cellular cholesterol mass if the donor cells are enriched with cholesterol.  相似文献   

5.
Hypercholesterolemic rabbit beta-VLDL and human LDL are both internalized by mouse peritoneal macrophages by receptor-mediated endocytosis. However, only beta-VLDL (which binds to the cells with a much higher affinity than LDL) markedly stimulates acyl-CoA/cholesterol acyl transferase (ACAT) and induces foam cell formation in these cells. As an initial step to test whether the two lipoproteins might be targeted to different organelles (which might differ in their ability to deliver cholesterol to microsomal ACAT), we studied the endocytic pathways of beta-VLDL and LDL. Lipoproteins were labeled with the non-transferable fluorescent label, DiI. When the macrophages were incubated with DiI-LDL for 10 min at 37 degrees C, the fluorescence was concentrated near the center of the cell both in heavily labeled vesicles and in a diffuse pattern. The pattern with DiI-beta-VLDL was quite different: an array of bright vesicles throughout the cytoplasm was the predominant feature. Differences in distribution were seen as early as 2 min of incubation and persisted throughout a 10-min chase period. By using a procedure in which photobleaching of DiI fluorescence converts diaminobenzidine into an electron-dense marker, we were able to identify at the ultrastructural level vesicles containing electron-dense material in cells incubated with DiI-beta-VLDL. Human E2/E2 beta-VLDL (from a patient with familial dysbetalipoproteinemia), which has a binding affinity and ACAT-stimulatory potential similar to LDL, gave a pattern of fluorescence virtually identical to LDL. Pulse-chase studies with 125I-labeled and [3H]cholesteryl ester-labeled lipoproteins disclosed that both protein degradation and cholesteryl ester hydrolysis were markedly retarded in beta-VLDL compared with LDL. Thus, in mouse peritoneal macrophages, endocytosed beta-VLDL appears in a distinct set of widely-distributed vesicles not seen with LDL (or with E2-beta-VLDL) and, compared with LDL, has a markedly diminished rate of protein degradation and cholesteryl ester hydrolysis. The differential routing of LDL and beta-VLDL may provide a mechanism for differences in ACAT-stimulatory potential between the two lipoproteins.  相似文献   

6.
Macrophages store excess unesterified cholesterol (free, FC) in the form of cholesteryl ester (CE) in cytoplasmic lipid droplets. The hydrolysis of droplet-CE in peripheral foam cells is critical to HDL-promoted reverse cholesterol transport because it represents the first step in cellular cholesterol clearance, as only FC is effluxed from cells to HDL. Cytoplasmic lipid droplets move within the cell utilizing the cytoskeletal network, but, little is known about the influence of the cytoskeleton on lipid droplet formation. To understand this role we employed cytochalasin D (cyt.D) to promote actin depolymerization in J774 macrophages. Incubating J774 with acetylated LDL creates foam cells having a 4-fold increase in cellular cholesterol content (30-40% cholesterol present as cholesteryl ester (CE)) in cytoplasmic droplets. Lipid droplets formed in the presence of cyt.D are smaller in diameter. CE-deposition and -hydrolysis are decreased when cells are cholesterol-enriched in the presence of cyt.D or latrunculin A, another cytoskeleton disrupting agent. However, when lipid droplets formed in the presence of cyt.D are isolated and incubated with an exogenous CE hydrolase, the CE is more rapidly metabolized compared to droplets from control cells. This is apparently due to the smaller size and altered lipid composition of the droplets formed in the presence of cyt.D. Cytoskeletal proteins found on CE droplets influence droplet lipid composition and maturation in model foam cells. In J774 macrophages, cytoskeletal proteins are apparently involved in facilitating the interaction of lipid droplets and a cytosolic neutral CE hydrolase and may play a role in foam cell formation. This article is part of a Special Issue entitled Advances in High Density Lipoprotein Formation and Metabolism: A Tribute to John F. Oram (1945-2010).  相似文献   

7.
It was previously reported by Tabas et al. that J774 macrophages, unlike mouse peritoneal macrophages, accumulate large amounts of cholesteryl esters when incubated with native low-density lipoprotein (LDL). Comparison of the cell line (designated J774A.2) used in those experiments with its parent line (J774A.1) indicates that it is a variant with a greater rate of cholesterol esterification. This large difference in cholesterol esterification was accompanied by only a small difference in rates of LDL uptake and degradation by the J774A.2 line. The J774A.2 cells have become a variant line through either mutation or selection which has enhanced its susceptibility to foam cell formation by its markedly increased ability to esterify cholesterol.  相似文献   

8.
Oxidatively modified low density lipoproteins (Ox-LDL) may be involved in determining the formation of foam cells by inducing cellular cholesteryl ester accumulation. We studied the effect of copper oxidized LDL (Ox-LDL) on cholesterol accumulation and esterification in murine macrophages. Ox-LDL (44 micrograms/ml of lipoprotein cholesterol) increased the total cholesterol content of the cells from 29 to 69 micrograms/mg cell protein. Free cholesterol accounted for 85% of this increase. Acetyl LDL (Ac-LDL) (38 micrograms/ml of lipoprotein cholesterol), raised total cellular cholesterol content to a similar extent (76 micrograms/mg cell protein), however only 25% of the accumulated cholesterol was unesterified. When ACAT activity was determined after incubation of J774 cell with Ox- or Ac-LDL, Ox-LDL were 12 times less effective than Ac-LDL in stimulating cholesteryl ester formation. This was not due to an inhibition of ACAT by Ox-LDL since these lipoproteins failed to inhibit pre activated enzyme in cholesteryl ester-loaded macrophages. The uptake of 125I-Ox-LDL: was 175% that of 125I-Ac-LDL, while degradation was only 20%. All together these data suggest an altered intracellular processing of Ox-LDL, which may be responsible for free cholesterol accumulation.  相似文献   

9.
Activation of acyl-CoA:cholesterol actyltransferase (ACAT) in macrophages by lipoproteins is a key event in atheroma foam cell formation. To help elucidate the mechanisms whereby lipoproteins stimulate ACAT, the early cellular events of lipoprotein-induced ACAT stimulation were studied in mouse peritoneal macrophages. As a function of increasing lipoprotein-cholesterol influx to the cell during the first few hours of incubation, ACAT activity was markedly stimulated by beta-very low density lipoprotein (beta-VLDL) and acetyl-low density lipoprotein (acetyl-LDL) only after lipoprotein-cholesterol influx reached a threshold level of approximately 25% above the basal cell cholesterol content. In contrast, LDL stimulated ACAT only minimally at this level of lipoprotein-cholesterol influx. In further experiments, the source of ACAT cholesterol substrate during the initial stimulation of ACAT was shown to be a mixture of cellular (approximately 75%) and lipoprotein-cholesterol (approximately 25%) in proportions that approximated the proportions of originally cellular and lipoprotein-cholesterol in the cell. Thus, lipoprotein-cholesterol rapidly mixed with most or all of cellular cholesterol before ACAT esterification. Additional studies showed that LDL caused significant efflux of cellular cholesterol, thus providing at least a partial explanation for the relatively weak ACAT stimulatory potential of LDL. To support this idea, LDL that was modified to decrease its ability to induce net cellular cholesterol efflux stimulated ACAT 2-fold greater than control LDL when matched for lysosomal LDL-cholesterol influx. Moreover, when the effective efflux potentials of beta-VLDL and acetyl-LDL were increased, ACAT stimulation was markedly decreased despite unchanged lipoprotein-cholesterol influx. Thus, macrophage ACAT is stimulated not directly by the influx of newly hydrolyzed lipoprotein-cholesterol but rather by net expansion of cellular cholesterol pools to a particular threshold level. This scheme has potentially important implications regarding the cellular and molecular mechanisms of foam cell formation.  相似文献   

10.
In contrast to some published studies of murine macrophages, we previously showed that ACAT inhibitors appeared to be anti-atherogenic in primary human macrophages in that they decreased foam cell formation without inducing cytotoxicity. Herein, we examined foam cell formation and cytotoxicity in murine ACAT1 knockout (KO) macrophages in an attempt to resolve the discrepancies. Elicited peritoneal macrophages from normal C57BL6 and ACAT1 KO mice were incubated with DMEM containing acetylated LDL (acLDL, 100 microg protein/ml) for 48h. Cells became cholesterol enriched and there were no differences in the total cholesterol mass. Esterified cholesterol mass was lower in ACAT1 KO foam cells compared to normal macrophages (p<0.04). Cytotoxicity, as measured by the cellular release of [(14)C]adenine from macrophages, was approximately 2-fold greater in ACAT1 KO macrophages as compared to normal macrophages (p<0.0001), and this was independent of cholesterol enrichment. cDNA microarray analysis showed that ACAT1 KO macrophages expressed substantially less collagen type 3A1 (26-fold), which was confirmed by RT-PCR. Total collagen content was also significantly reduced (57%) in lung homogenates isolated from ACAT1 KO mice (p<0.02). Thus, ACAT1 KO macrophages show biochemical changes consistent with increased cytotoxicity and also a novel association with decreased expression of collagen type 3A1.  相似文献   

11.
beta very low density lipoproteins (beta-VLDL) interact with mouse peritoneal macrophages via specific receptors leading to pronounced stimulation of cholesterol esterification. The present study has defined an alternative pathway for the processing of beta-VLDL in alveolar macrophages from Watanabe heritable hyperlipidemic (WHHL) rabbits. Macrophages from either New Zealand (NZ) or WHHL rabbits degraded 125I-beta-VLDL to an equivalent extent. Degradation was competed to a similar extent in both cell types by either excess unlabeled beta-VLDL or low density lipoprotein, indicative of a specific receptor involvement. Accumulation of intracellular degradation products of beta-VLDL labeled with the residualizing label, dilactitol-125I-tyramine, was similar in both cell types demonstrating that degradation was not due to secreted proteolytic enzymes. beta-VLDL promoted the incorporation of [3H]oleate into cholesteryl-[3H]oleate and increased the cellular mass of cholesterol in NZ macrophages. In contrast, beta-VLDL did not augment cholesteryl-[3H]oleate deposition in WHHL macrophages. This lack of cholesterol esterification occurred despite equivalent acyl-CoA:cholesterol acyltransferase activity in microsomal fractions of both cell types, and similar augmentations in cholesteryl-[3H]oleate during incubation with phospholipase C-treated LDL. Incubation of WHHL macrophages with beta-VLDL increased cellular cholesterol mass, although the response was attenuated compared to NZ cells. To determine whether these disparities in cholesterol esterification were related to the catabolic fate of beta-VLDL-derived cholesterol esters, [3H]cholesteryl oleate was exchanged into the core of beta-VLDL and incubated with macrophages in medium containing [14C]oleate. NZ macrophages accumulated both [3H]cholesterol and [3H]cholesteryl-[14C]oleate after 5 h, indicating hydrolysis and re-esterification of cholesterol esters. In contrast, WHHL macrophages only accumulated [3H]cholesterol esters, suggesting uptake of cholesterol esters without subsequent hydrolysis. These data demonstrate that WHHL macrophages possess a pathway for the intracellular processing of beta-VLDL that permits internalization of the particle without stimulation of cholesterol esterification.  相似文献   

12.
Macrophage cholesterol accumulation and foam cell formation are the hallmarks of early atherogenesis. Pomegranate juice (PJ) was shown to inhibit macrophage foam cell formation and development of atherosclerotic lesions. The aim of this study was to elucidate possible mechanisms by which PJ reduces cholesterol accumulation in macrophages. J774.A1 macrophages were preincubated with PJ followed by analysis of cholesterol influx [evaluated as LDL or as oxidized LDL (Ox-LDL) cellular degradation], cholesterol efflux and cholesterol biosynthesis. Preincubation of macrophages with PJ resulted in a significant reduction (P<.01) in Ox-LDL degradation by 40%. On the contrary, PJ had no effect on macrophage degradation of native LDL or on macrophage cholesterol efflux. Macrophage cholesterol biosynthesis was inhibited by 50% (P<.01) after cell incubation with PJ. This inhibition, however, was not mediated at the 3-hydroxy-3 methylglutaryl coenzyme A reductase level along the biosynthetic pathway. We conclude that PJ-mediated suppression of Ox-LDL degradation and of cholesterol biosynthesis in macrophages can lead to reduced cellular cholesterol accumulation and foam cell formation.  相似文献   

13.
Transbilayer movement of cholesterol in the human erythrocyte membrane   总被引:3,自引:0,他引:3  
The rate of transbilayer movement of cholesterol was measured in intact human erythrocytes. Suspended erythrocytes were incubated briefly with [3H]cholesterol in ethanol at 4 degrees C, or with liposomes containing [3H]cholesterol over 6 hr at 4 degrees C to incorporate the tracer into the outer leaflet of erythrocyte plasma membranes. The erythrocytes were then incubated at 37 degrees C to allow diffusion of cholesterol across the membrane bilayer. Cells were treated briefly with cholesterol oxidase to convert a portion of the outer leaflet cholesterol to cholestenone, and the specific radioactivity of cholestenone was determined over the time of tracer equilibration. The decrease in specific radioactivity of cholestenone reflected transbilayer movement of [3H]cholesterol. The transbilayer movement of cholesterol had a mean half-time of 50 min at 37 degrees C in cells labeled with [3H]cholesterol in ethanol, and 130 min at 37 degrees C in cells labeled with [3H]cholesterol exchanged from liposomes. The cells were shown, by the absence of hemolysis, to remain intact throughout the assay. The presence of 1 mM Mg2+ in the assay buffer was essential to prevent hemolysis of cells treated with cholesterol oxidase perturbed the cells, resulting in an accelerated rate of apparent transbilayer movement. Our data are also consistent with an asymmetric distribution of cholesterol in erythrocyte membranes, with the majority of cholesterol in the inner leaflet.  相似文献   

14.
Sulfonylureas are used in the treatment of non-insulin-dependent diabetes mellitus. Little is known, however, about their effects on cholesterol metabolism. We tested in the present study the effects of glibenclamide (GB) on cholesterol esterification (CE) in macrophage-derived cells. GB inhibited intracellular accumulation of CE induced by acetylated LDL or oxidized LDL in J774 cells, but no such effect on total cholesterol, suggesting that the target of GB was acyl-CoA:cholesterol acyltransferase (ACAT). In the cell-free reconstitution ACAT assay, GB inhibited the ACAT activity with an IC(50) value of 20 microM. Furthermore, GB effectively inhibited the ACAT activity of PMA-stimulated THP-1 cells to the undifferentiated level of THP-1. In the whole-cell ACAT assay using CHO cells overexpressed with ACAT-1 or ACAT-2, GB inhibited the activity of both isozymes with similar potency. Our in vitro data suggest that sulfonylurea could be a potential seed for a new generation of ACAT inhibitors.  相似文献   

15.
Hypertriglyceridemic (HTG) very low density lipoproteins (VLDL) from subjects with type IV hyperlipoproteinemia induce both cholesteryl ester (CE) and triglyceride (TG) accumulation in cultured J774 macrophages. We examined whether the cytokine interferon-gamma (IFN-gamma), which is expressed by lymphocytes in atherosclerotic lesions, would modulate macrophage uptake of HTG -VLDL. Incubation of cells with HTG -VLDL alone significantly increased cellular CE and TG mass 17- and 4.3-fold, respectively, while cellular free cholesterol (FC) was unaffected. Pre-incubation of cells with IFN-gamma (50 U/ml) prior to incubation with HTG -VLDL caused a marked enhancement in cellular CE and TG 27- and 6-fold over no additions (controls), respectively, and a 1.5-fold increase in FC. IFN-gamma increased low density lipoprotein (LDL)-induced cellular CE 2-fold compared to LDL alone. IFN-gamma did not enhance the uptake of type III (apoE2/E2) HTG -VLDL or VLDL from apoE knock-out mice. Incubations in the presence of a lipoprotein lipase (LPL) inhibitor or an acylCoA:cholesterol acyltransferase (ACAT) inhibitor demonstrated that the IFN-gamma-enhanced HTG -VLDL uptake was dependent on LPL and ACAT activities. IFN-gamma significantly increased the binding and degradation of 125I-labeled LDL. Binding studies with 125I-labeled alpha2-macroglobulin, a known LDL receptor-related protein (LRP) ligand, and experiments with copper-oxidized LDL indicated that the IFN-gamma-enhanced uptake was not due to increased expression of the LRP or scavenger receptors. Thus, IFN-gamma may promote foam cell formation by accelerating macrophage uptake of native lipoproteins. IFN-gamma-stimulated CE accumulation in the presence of HTG -VLDL occurs via a process that requires receptor binding-competent apoE and active LPL. IFN-gamma-enhanced uptake of both HTG -VLDL and LDL is mediated by the LDL-receptor and requires ACAT-mediated cholesterol esterification.  相似文献   

16.
Oxidation of low density lipoprotein (LDL) by cells of the arterial wall or in the presence of copper ions was shown to result in the peroxidation of its fatty acids as well as its cholesterol moiety. LDL incubation with cholesterol oxidase (CO) resulted in the conversion of up to 85% of the lipoprotein unesterified cholesterol (cholest-5-en-3-ol) to cholestenone (cholest-4-en-3-one) in a dose- and time-dependent pattern. Plasma very low density lipoprotein (VLDL) and high density lipoprotein (HDL) could be similarly modified by CO. In cholesterol oxidase-modified LDL (CO-LDL), unlike copper ion-induced oxidized LDL (Cu-Ox-LDL), there was no fatty acids peroxidation, and lipoprotein size or charge as well as LDL cholesteryl ester, phospholipids, and triglycerides content were not affected. CO-LDL, however, demonstrated enhanced susceptibility to oxidation by copper ions in comparison to native LDL. Upon incubation of CO-LDL with J-774 A.1 macrophage-like cell line, cellular uptake and degradation of the lipoprotein was increased by up to 62% in comparison to native LDL but was 15% lower than that of Cu-Ox-LDL. Similarly, the binding of CO-LDL to macrophages increased by up to 80%, and cellular cholesterol mass was increased 51% more than the mass obtained with native LDL. Several lines of evidence indicate that CO-LDL was taken up via the LDL receptor: 1) Excess amounts of unlabeled LDL, but not acetyl-LDL (Ac-LDL), effectively competed with 125I-CO-LDL for the uptake by cells. 2) The degradation of CO-LDL by various types of macrophages and by fibroblasts could be dissociated from that of Ac-LDL and was always higher than that of native LDL. 3) A monoclonal antibody to the LDL receptor (IgG-C7) and a monoclonal antibody to the LDL receptor binding domains on apoB-100 (B1B6) inhibited macrophage degradation of CO-LDL. The receptor for Cu-Ox-LDL, which is not shared with Ac-LDL, was also partially involved in macrophage uptake of CO-LDL, since Cu-Ox-LDL demonstrated some competition capability with CO-125I-LDL for its cellular degradation. CO-LDL cellular degradation was inhibited by chloroquine, thus implying lysosomal involvement in the cellular processing of the lipoprotein. Incubation of macrophages with LDL in the presence of increasing concentrations of cholestenone resulted in up to 52% enhanced lipoprotein cellular degradation suggesting that the cholestenone in CO-LDL might be involved in the enhanced cellular uptake of the modified lipoprotein.(ABSTRACT TRUNCATED AT 400 WORDS)  相似文献   

17.
Neutral cholesteryl ester hydrolase (CEH)-mediated hydrolysis of cellular cholesteryl esters (CEs) is required not only to generate free cholesterol (FC) for efflux from macrophages but also to release FC from lipoprotein-delivered CE in the liver for bile acid synthesis or direct secretion into the bile. We hypothesized that hepatic expression of CEH would regulate the hydrolysis of lipoprotein-derived CE and enhance reverse cholesterol transport (RCT). Adenoviral-mediated CEH overexpression led to a significant increase in bile acid output. To assess the role of hepatic CEH in promoting flux of cholesterol from macrophages to feces, cholesterol-loaded and [(3)H]cholesterol-labeled J774 macrophages were injected intraperitoneally into mice and the appearance of [(3)H]cholesterol in gallbladder bile and feces over 48 h was quantified. Mice overexpressing CEH had significantly higher [(3)H]cholesterol radiolabel in bile and feces, and it was associated with bile acids. This CEH-mediated increased movement of [(3)H]cholesterol from macrophages to bile acids and feces was significantly attenuated in SR-BI(-/-) mice. These studies demonstrate that similar to macrophage CEH that rate-limits the first step, hepatic CEH regulates the last step of RCT by promoting the flux of cholesterol entering the liver via SR-BI and increasing hepatic bile acid output.  相似文献   

18.
We examined the roles of phospholipase A2 (PLA2) in oxidized LDL (oxLDL)-induced cholesteryl ester formation in macrophages. In [3H]oleic acid-labeled RAW264.7 cells and mouse peritoneal macrophages, oxLDL induced [3H]cholesteryl oleate formation with an increase in free [3H]oleic acid and a decrease in [3H]phosphatidylcholine. The changes in these lipids were suppressed by methyl arachidonyl fluorophosphonate (MAFP), a cytosolic PLA2 (cPLA2) inhibitor. However, MAFP had no effect on the ACAT activity or the binding and/or uptake of oxLDL. Stimulation with oxLDL in the presence of [3H]cholesterol increased [3H]cholesteryl ester bearing fatty acyl chains derived from cellular and/or exogenous (oxLDL) lipids. The formation of cholesteryl ester under this condition was also inhibited by MAFP, and the inhibitory effect was reversed by adding oleic acid. While oxLDL did not affect the activity or amounts of cPLA2, preincubation with oxLDL enhanced the release of oleic acid and arachidonic acid induced by ionomycin in RAW264.7 cells. 13(S)-hydroxyoctadecadienoic acid, but not 7-ketocholesterol, also enhanced ionomycin-induced oleic acid release. These results suggest that oxLDL induces cPLA2 activation, which contributes, at least in part, to the supply of fatty acids required for the cholesteryl esterification, probably through the acceleration by oxidized lipids of the catalytic action of cPLA2 in macrophages.  相似文献   

19.
High-density lipoprotein (HDL) cholesteryl esters are taken up by fibroblasts via HDL particle uptake and via selective uptake, i.e., cholesteryl ester uptake independent of HDL particle uptake. In the present study we investigated HDL selective uptake and HDL particle uptake by J774 macrophages. HDL3 (d = 1.125-1.21 g/ml) was labeled with intracellularly trapped tracers: 125I-labeled N-methyltyramine-cellobiose-apo A-I (125I-NMTC-apo A-I) to trace apolipoprotein A-I (apo A-I) and [3H]cholesteryl oleyl ether to trace cholesteryl esters. J774 macrophages, incubated at 37 degrees C in medium containing doubly labeled HDL3, took up 125I-NMTC-apo A-I, indicating HDL3 particle uptake (102.7 ng HDL3 protein/mg cell protein per 4 h at 20 micrograms/ml HDL3 protein). Apparent HDL3 uptake according to the uptake of [3H]cholesteryl oleyl ether (470.4 ng HDL3 protein/mg cell protein per 4 h at 20 micrograms/ml HDL3 protein) was in significant excess on 125I-NMTC-apo A-I uptake, i.e., J774 macrophages demonstrated selective uptake of HDL3 cholesteryl esters. To investigate regulation of HDL3 uptake, cell cholesterol was modified by preincubation with low-density lipoprotein (LDL) or acetylated LDL (acetyl-LDL). Afterwards, uptake of doubly labeled HDL3, LDL (apo B,E) receptor activity or cholesterol mass were determined. Preincubation with LDL or acetyl-LDL increased cell cholesterol up to approx. 3.5-fold over basal levels. Increased cell cholesterol had no effect on HDL3 particle uptake. In contrast, LDL- and acetyl-LDL-loading decreased selective uptake (apparent uptake 606 vs. 366 ng HDL3 protein/mg cell protein per 4 h in unloaded versus acetyl-LDL-loaded cells at 20 micrograms HDL3 protein/ml). In parallel with decreased selective uptake, specific 125I-LDL degradation was down-regulated. Using heparin as well as excess unlabeled LDL, it was shown that HDL3 uptake is independent of LDL (apo B,E) receptors. In summary, J774 macrophages take up HDL3 particles. In addition, J774 cells also selectively take up HDL3-associated cholesteryl esters. HDL3 selective uptake, but not HDL3 particle uptake, can be regulated.  相似文献   

20.
Cholesterol efflux from macrophage foam cells, a key step in reverse cholesterol transport, requires trafficking of cholesterol from intracellular sites to the plasma membrane. Sphingomyelin is a cholesterol-binding molecule that transiently exists with cholesterol in endosomes and lysosomes but is rapidly hydrolyzed by lysosomal sphingomyelinase (L-SMase), a product of the acid sphingomyelinase (ASM) gene. We therefore hypothesized that sphingomyelin hydrolysis by L-SMase enables cholesterol efflux by preventing cholesterol sequestration by sphingomyelin. Macrophages from wild-type and ASM knockout mice were incubated with [(3)H]cholesteryl ester-labeled acetyl-LDL and then exposed to apolipoprotein A-I or high density lipoprotein. In both cases, [(3)H]cholesterol efflux was decreased substantially in the ASM knockout macrophages. Similar results were shown for ASM knockout macrophages labeled long-term with [(3)H]cholesterol added directly to medium, but not for those labeled for a short period, suggesting defective efflux from intracellular stores but not from the plasma membrane. Cholesterol trafficking to acyl-coenzyme A:cholesterol acyltransferase (ACAT) was also defective in ASM knockout macrophages. Using filipin to probe cholesterol in macrophages incubated with acetyl-LDL, we found there was modest staining in the plasma membrane of wild-type macrophages but bright, perinuclear fluorescence in ASM knockout macrophages. Last, when wild-type macrophages were incubated with excess sphingomyelin to "saturate" L-SMase, [(3)H]cholesterol efflux was decreased. Thus, sphingomyelin accumulation due to L-SMase deficiency leads to defective cholesterol trafficking and efflux, which we propose is due to sequestration of cholesterol by sphingomyelin and possibly other mechanisms. This model may explain the low plasma high density lipoprotein found in ASM-deficient humans and may implicate L-SMase deficiency and/or sphingomyelin enrichment of lipoproteins as novel atherosclerosis risk factors.  相似文献   

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