Filipin as a flow microfluorometry probe for cellular cholesterol

The polyene antibiotic filipin, which forms specific complexes with 3 beta-hydroxysterols, displays spectral properties compatible with its use in flow microfluorometry (FMF). The purpose of this study was to test the suitability of filipin as an FMF probe for unesterified cellular cholesterol. The following experimental conditions appeared optimal for cells with an average unesterified cholesterol content of less than 3 nmol per 10(6) cells: 2 X 10(6) fixed cells (1-4% p-formaldehyde, 30 min, 21 degrees C) stained for 2-4 h with 100 micrograms/ml filipin and excited at 350.7/356.7 nm. Fluorescence emission (Em) was measured above 510 nm. Less suitable conditions involved excitation at 488 nm or using cells which had not been fixed. Fixation preserved the live-dead cell discrimination provided by forward light scatter measurements, so that dead cells could be excluded from the FMF analysis of cellular cholesterol. Under the above conditions FMF analysis of a variety of murine cell types showed that in all cases the fluorescence intensity of filipin-stained cells was clearly increased above autofluorescence levels of the unstained control cells. The increase in fluorescence signal in different filipin stained cell types correlated (P less than or equal to .001) with the cellular content of unesterified cholesterol determined by an independent enzymatic assay. The sensitivity of the FMF assay was in the femtomole (10(-15) ) range. Mixing experiments with cells of different cholesterol levels showed that the technique distinguishes cell populations with distinctive levels of unesterified cholesterol. We therefore concluded that filipin is a useful FMF probe for determining relative levels of unesterified cholesterol in cells.     

The phase behavior of cholesteryl esters in intracellular inclusions.

Differential scanning calorimetry and polarizing light microscopy have been used to investigate kinetic and thermodynamic properties of the phase behavior of cholesteryl ester contained in Fu5AH rat hepatoma cells and J774 murine macrophages. These cultured cells store cholesteryl esters as cytoplasmic inclusions of approximately 1-micron diameter and thus are models of the foam cells characteristic of atherosclerotic plaque. Simple binary mixtures of cholesteryl palmitate and cholesteryl oleate, the predominant cholesteryl esters in cellular inclusions in both cell types serve as models to explain important aspects of the phase behavior of these inclusions. Although inclusions should exist as stable crystals at 37 degrees C under conditions of thermodynamic equilibrium, microscopic examination of cells indicates that inclusions exist as metastable liquid crystals at 37 degrees C for extended periods of time. Using an analytical model based on nucleation theory, we predict that the cholesteryl ester inclusions should be liquid-crystalline in the cytoplasm of living cells. This may not be true either for lysosomal cholesteryl ester or for extracellular cholesteryl ester present in advanced atherosclerotic plaque where fusion of droplets can enhance the possibility of crystallization. The enhanced metastability of the relatively fluid liquid-crystalline state in cellular inclusions should result in increased activity of the neutral cholesteryl ester hydrolase in living cells.     

Hydrolysis of cholesteryl ester in low density lipoprotein converts this lipoprotein to a liposome.

Previously, we isolated and characterized unique liposomal-like, cholesterol-rich lipid particles that accumulate in human atherosclerotic lesions. Human plasma low density lipoprotein (LDL) has a molar ratio of total cholesterol to phospholipid (3:1) similar to that of this lesion cholesterol-rich lipid particle. However, LDL is enriched in cholesteryl ester while the lesion lipid particle is enriched in unesterified cholesterol. To examine a possible precursor-product relationship between LDL and the lesion lipid particle, we hydrolyzed the cholesteryl ester core of LDL with cholesterol esterase. Cholesteryl ester hydrolysis occurred only after LDL was treated with trypsin. Trypsin pretreatment was not required for cholesteryl ester hydrolysis of LDL oxidized with copper, a treatment that also degrades apolipoprotein B, the major protein moiety in LDL. In contrast to greater than 90% hydrolysis of cholesteryl ester in trypsin-cholesterol esterase-treated or copper-oxidized LDL, there was only 18% hydrolysis of cholesteryl ester in similarly treated high density lipoprotein. With a limited 10-min hydrolysis of LDL cholesteryl ester, LDL-sized particles and newly formed larger flattened films or discs were present. With complete hydrolysis of LDL cholesteryl ester, LDL particles converted to complex multilamellar, liposomal-like, structures with sizes approximately five times larger than native LDL. These liposomal-like particles derived from LDL were chemically and structurally similar to unesterified cholesterol-rich lipid particles that accumulate in atherosclerotic lesions.     

Mechanisms and consequences of cellular cholesterol exchange and transfer

It is apparent from consideration of the reactions involved in cellular cholesterol homeostasis that passive transfer of unesterified cholesterol molecules plays a role in cholesterol transport in vivo. Studies in model systems have established that free cholesterol molecules can transfer between membranes by diffusion through the intervening aqueous layer. Desorption of free cholesterol molecules from the donor lipid-water interface is rate-limiting for the overall transfer process and the rate of this step is influenced by interactions of free cholesterol molecules with neighboring phospholipid molecules. The influence of phospholipid unsaturation and sphingomyelin content on the rate of free cholesterol exchange are known in pure phospholipid bilayers and similar effects probably occur in cell membranes. The rate of free cholesterol clearance from cells is determined by the structure of the plasma membrane. It follows that the physical state of free cholesterol in the plasma membrane is important for the kinetics of cholesterol clearance and cell cholesterol homeostasis, as well as the structure of the plasma membrane. Bidirectional flux of free cholesterol between cells and lipoproteins occurs and rate constants characteristic of influx and efflux can be measured. The direction of any net transfer of free cholesterol is determined by the relative free cholesterol/phospholipid molar ratios of the donor and acceptor particles. Cholesterol diffuses down its gradient of chemical potential generally partitioning to the phospholipid-rich particle. Such a surface transfer process can lead to delivery of cholesterol to cells. This mechanism operates independently of any lipoprotein internalization by receptor-mediated endocytosis. The influence of enzymes such as lecithin-cholesterol acyltransferase and hepatic lipase on the direction of net transfer of free cholesterol between lipoproteins and cells can be understood in terms of their effects on the pool sizes and the rate constants for influx and efflux. Excess accumulation of free cholesterol in cells stimulates the rate of cholesteryl ester formation and induces deposition of cholesteryl ester inclusions in the cytoplasm similar to the situation in the 'foam' cells of atherosclerotic plaque. Clearance of cellular cholesteryl ester requires initial hydrolysis to free cholesterol followed by efflux of this free cholesterol. The rate of clearance of cholesteryl ester from cytoplasmic droplets is influenced by the physical state of the cholesteryl ester; liquid-crystalline cholesteryl ester is removed more slowly than cholesteryl ester in a liquid state.(ABSTRACT TRUNCATED AT 400 WORDS)     

A defect in mobilization of cholesteryl esters in rabbit macrophages

Macrophages provide an important way for cholesteryl esters to accumulate in tissues in pathologic amounts. We studied cholesteryl ester metabolism in thioglycollate-induced peritoneal macrophages obtained from normocholesterolemic and hypercholesterolemic rabbits. The macrophage preparations from normocholesterolemic rabbit (MN cells) had 26 nmol esterified cholesterol/mg cellular protein, incorporated 1 nmol of labeled oleate into cholesteryloleate/2 h per mg cellular protein and had an acyl-coenzyme A:cholesterol acyltransferase activity of 22 pmol cholesterylpalmitate formed/min per mg protein in isolated membranes. The macrophage preparations from hypercholesterolemic rabbits (MHC cells) contained a 12-fold greater mass of cholesteryl ester, had an 8-times higher rate of formation of cholesteryloleate, and had 3-times more acyl-coenzyme A:cholesterol acyltransferase activity in the isolated membranes. When a cholesterol acceptor (10% fetal bovine serum or 10 mg of lipid-free fetal bovine serum protein) was added to the culture medium of rabbit MHC cells, the MHC cells retained more than 70% of their cholesteryl esters after 48 h of incubation. In contrast, when a cholesterol acceptor (10% fetal bovine serum) was added to the medium of thioglycollate-induced, cholesterol-enriched macrophages from mice, the mice macrophages retained only 19% of their cholesteryl esters after 48 h of incubation. The limited capacity of rabbit macrophages to release unesterified cholesterol from stored cytoplasmic cholesteryl esters to an exogenous acceptor may be related to the propensity of rabbits to develop atherosclerotic lesions.     

Stable overexpression of human macrophage cholesteryl ester hydrolase results in enhanced free cholesterol efflux from human THP1 macrophages

Reduction of the lipid burden of atherosclerotic lesion-associated macrophage foam cells is a logical strategy to reduce the plaque volume. Since extracellular cholesterol acceptor-mediated cholesterol efflux is the only recognized mechanism of cholesterol removal from foam cells and this process is rate limited at the level of intracellular cholesterol ester hydrolysis, a reaction catalyzed by neutral cholesteryl ester hydrolase (CEH), we examined the hypothesis that CEH overexpression in the human macrophage monocyte/macrophage cell line THP1 results in increased cholesterol efflux, as well as decreased cellular cholesterol ester accumulation. We generated THP1-CEH cells with stable integration of human macrophage CEH cDNA driven by the cytomegalovirus promoter. Compared with wild-type THP1 cells (THP1-WT), THP1-CEH cells showed increased CEH mRNA expression and increased CEH activity. Efflux of free or unesterified cholesterol by acetylated LDL-loaded THP1-CEH cells to ApoA-I by an ABCA1-dependent pathway or to HDL by an ABCG1-dependent pathway was significantly higher than that in THP1-WT cells. In addition, THP1-CEH cells accumulated significantly lower amount of esterified cholesterol. CEH overexpression, therefore, not only enhances cholesterol efflux but also reduces cellular accumulation of cholesteryl esters. Taken together, these data provide evidence for evaluating CEH expression in human macrophages as a potential target for attenuation of foam cell formation and regression of atherosclerotic plaques. lipoproteins; lipid burden; foam cells     

Foam cell formation containing lipid droplets enriched with free cholesterol by hyperlipidemic serum.

A monoclonal antibody, ASH1a/256C (256C), which binds to atherosclerotic lesions in Watanabe heritable hyperlipidemic rabbit (WHHL) aorta in vivo, recognizes complex structures of phosphatidylcholine mixed with neutral lipids. In the present study, a cell culture system is described in which foam cells express 256C-positive lipid droplets. J774.1 macrophages were incubated in the presence of a small volume of WHHL serum for 24 h to produce foam cells, which were then incubated without the WHHL serum for 3 days. Oil red O-positive lipid droplets appeared on day 1, and were present in the cells during the whole incubation period. The lipid droplets in the cells were positively immunostained with antibody 256C on day 4, although they were negative on day 1. Expression of the antigenic lipid droplets was also induced by the addition of acetylated LDL or sera from patients with hyperlipidemia. When foam cells were induced by the addition of WHHL serum, cellular content of cholesteryl ester was greatly increased but then decreased to near basal levels by day 4. Concomitantly, cellular free cholesterol increased during the culture period, indicating that the cholesteryl ester changes to free cholesterol by day 4. The lipid droplets in the foam cells on day 4 were positively stained with filipin, a fluorescent probe for free cholesterol, as well as with 256C antibody, indicating that free cholesterol is enriched in antigenic lipid droplets. These observations suggest that hydrolysis and rearrangement of cellular cholesterol take place in foam cells to form complex structures of phosphatidylcholine and free cholesterol in lipid droplets.     

Isolation and characterization of Chinese hamster ovary cell mutants defective in intracellular low density lipoprotein-cholesterol trafficking

This paper reports the isolation and characterization of Chinese hamster ovary cell mutants defective in low density lipoprotein (LDL)-cholesterol trafficking. The parental cell line was 25-RA, which possesses LDL receptors and various cholesterogenic enzyme activities that are partially resistant to down regulation by exogenous sterols (Chang, T. Y., and J. S. Limanek. 1980. J. Biol. Chem. 255:7787-7795). Because these cells accumulate a large amount of intracellular cholesteryl ester when grown in medium containing 10% fetal calf serum, mutagenized populations of 25-RA cells were grown in the presence of a specific inhibitor of acyl-coenzyme A: cholesterol acyltransferase (ACAT), which depleted their cholesteryl ester stores. Without this cholesterol ester storage, 99% of 25-RA cells die after 5-d growth in cholesterol starvation medium, while the mutant cells, which accumulate free cholesterol intracellularly, survived. In two mutant clones chosen for characterization, activation of cholesteryl ester synthesis by LDL was markedly reduced in the mutant cells compared with 25-RA cells. This lack of activation of cholesterol ester synthesis in the mutant cells could not be explained by defective uptake and/or processing of LDL or by a decreased amount of ACAT, as determined by in vitro enzyme activity. Mutant cells grown in the presence of LDL contain numerous cytosolic particles that stain intensely with the fluorescent compound acridine orange, suggesting that they are acidic. The particles are also stained with filipin, a cholesterol-specific fluorescent dye. Indirect immunofluorescence with a monoclonal antibody specific for a lysosomal/endosomal fraction revealed a staining pattern that colocalized with the filipin signal. The mutant phenotype was recessive. The available evidence indicates that the mutant cells can take up and process LDL normally, but the hydrolyzed cholesterol accumulates in an acidic compartment, probably the lysosomes, where it can not be transported to its normal intracellular destinations.     

Type C Niemann-Pick disease: spectrum of phenotypic variation in disruption of intracellular LDL-derived cholesterol processing

To investigate biochemical heterogeneity within Niemann-Pick type C disease (NPC), the two most characteristic abnormalities, namely (1) kinetics of LDL-stimulated cholesteryl ester formation and (2) intravesicular accumulation of LDL-derived unesterified cholesterol, evaluated by histochemical filipin staining, were studied in cultured skin fibroblasts from a population of 125 NPC patients. Profound alterations (esterification rates less than 10% of normal, very numerous and intensely fluorescent cholesterol-filipin granules) were demonstrated in 86% of the cases, depicting the 'classical' NPC phenotype. The remaining cell lines showed a graded less severe impairment and more transient delay in the induction of LDL-mediated cholesteryl esterification, along with an attenuated accumulation of unesterified cholesterol. In particular, cells from a small group (7%) of patients, which have been individualized as representative of a 'variant' phenotype, showed only slight alterations of esterification, restricted to the early phase of LDL uptake and undistinguishable from those in heterozygotes. In these cells, an abnormal cytochemical distribution of LDL-derived cholesterol, although moderate, was still evident provided rigorous experimental conditions were followed. A third, less clearly individualized group (7%), differing from the classical phenotype mostly by higher rates of cholesteryl ester formation, has been designated as an 'intermediary' phenotype to reflect a more difficult diagnosis of such patients. These findings have an important bearing with regard to diagnosis and genetic counselling, although the significance of such a phenotypic variation in terms of genetic heterogeneity has still to be demonstrated. A given biochemical phenotype was however a constant observation within a family (14 pairs of siblings tested so far). The unique feature of LDL-cholesterol processing alterations in NPC has been further established from comparative studies in Wolman disease and I-cell disease, showing normal or different intracellular distribution of unesterified LDL-derived cholesterol in the latter disorders. Correlation between biochemical and clinical NPC phenotypes was only partial, but a correlation between the severity of alterations in cholesterol processing and sphingomyelin catabolism could be established.     

Effect of apolipoprotein E-free high density lipoproteins on cholesterol metabolism in cultured pig hepatocytes

We studied cholesterol synthesis from [14C]acetate, cholesterol esterification from [14C]oleate, and cellular cholesterol and cholesteryl ester levels after incubating cells with apoE-free high density lipoproteins (HDL) or low density lipoproteins (LDL). LDL suppressed synthesis by up to 60%, stimulated esterification by up to 280%, and increased cell cholesteryl ester content about 4-fold. Esterification increased within 2 h, but synthesis was not suppressed until after 6 h. ApoE-free HDL suppressed esterification by about 50% within 2 h. Cholesterol synthesis was changed very little within 6 h, unless esterification was maximally suppressed; synthesis was then stimulated about 4-fold. HDL lowered cellular unesterified cholesterol by 13-20% within 2 h and promoted the removal of newly synthesized cholesterol and cholesteryl esters. These changes were transient; by 24 h, both esterification and cellular unesterified cholesterol returned to control levels, and cholesteryl esters increased 2-3-fold. HDL core lipid was taken up selectively from 125I-labeled [3H]cholesteryl ester- and ether-labeled HDL. LDL core lipid uptake was proportional to LDL apoprotein uptake. The findings suggest that 1) the cells respond initially to HDL or LDL with changes in esterification, and 2) HDL mediates both the removal of free cholesterol from the cell and the delivery of HDL cholesteryl esters to the cell.     

Modulation of endosomal cholesteryl ester metabolism by membrane cholesterol

Cells acquire cholesterol in part by endocytosis of cholesteryl ester containing lipoproteins. In endosomes and lysosomes cholesteryl ester is hydrolyzed by acidic cholesteryl ester hydrolase producing cholesterol and fatty acids. Under certain pathological conditions, however, such as in atherosclerosis, excessive levels of cholesteryl ester accumulate in lysosomes for reasons that are poorly understood. Here, we have studied endosomal and lysosomal cholesteryl ester metabolism in cultured mouse macrophages and with cell-free extracts. We show that net hydrolysis of cholesteryl ester is coupled to the transfer of cholesterol to membranes. When membrane cholesterol levels are low, absorption of cholesterol effectively drives cholesteryl ester hydrolysis. When cholesterol levels in acceptor membranes approach saturation or when cholesterol export is blocked, cholesterol is re-esterified in endosomes. These results reveal a new facet of cellular cholesterol homeostasis and provide a potential explanation for cholesteryl ester accumulation in lysosomes of atherosclerotic cells.     

Cellular cholesteryl ester clearance. Relationship to the physical state of cholesteryl ester inclusions

The hypothesis that clearance of cellular cholesteryl ester deposits may be a function of the physical state of the stored lipid has been investigated. Cultured rat hepatoma cells were induced to store cholesteryl ester in either anisotropic inclusions by exposure to free cholesterol-rich phospholipid dispersions or isotropic inclusions by exposure to identical dispersions supplemented with oleic acid. Differential scanning calorimetry demonstrated an order/disorder transition at 43 degrees C for cholesteryl esters stored in anisotropic inclusions; the enthalpy of this transition was consistent with a smectic liquid crystalline to liquid transition. Lipids in cells with isotropic inclusions displayed no order/disorder transitions over the range 20-80 degrees C, indicating that the lipids are in a liquid state. The presence of oleic acid did not influence the mass of cholesteryl ester stored but increased the amount of stored triglyceride. Fatty acyl compositions of the cholesteryl esters were different under the two loading conditions; in particular, there was 38% cholesteryl oleate in anisotropic inclusions and 65% cholesteryl oleate in isotropic inclusions. Kinetics of cholesteryl ester clearance from cells with either anisotropic or isotropic inclusions were studied during a 12-h exposure to acceptors of free cholesterol. In both cases, cholesteryl ester clearance is essentially linear over 12 h and is directly proportional to the initial content of cholesteryl ester. However, the fraction of initial content of cholesteryl ester cleared in 12 h is 0.17 +/- 0.05 for cells with anisotropic inclusions and 0.34 +/- 0.09 for cells with isotropic inclusions. Our data demonstrate that the more rapid clearance of cholesteryl ester by cells with isotropic inclusions can be correlated with the physical state of the cholesteryl ester.     

Effect of unesterified cholesterol on the compartmentation of a fluorescent cholesteryl ester in a lipoprotein-like lipid microemulsion.

The access of enzymes and lipid transfer proteins to neutral lipids located predominantly in the core compartment of lipoproteins may be determined to some degree by the solubility of the neutral lipids in the surface monolayer of phospholipid. This report concerns the hypothesis that unesterfied cholesterol can affect the partition of a cholesteryl ester between the surface monolayer of a lipid emulsion and the internal core compartment, thus controlling the degree to which the cholesteryl ester is presented at the emulsion surface. For microemulsions composed of dimyristoyl phosphatidylcholine and cholesteryl oleate, the addition of unesterified cholesterol results in an increase in the particle size from about 170 nm diameter to 210 nm diameter at 13.5 mol% unesterified cholesterol. Fluorescent quenching methods were devised to determine the apparent partition of a fluorescent cholesteryl ester (cholesteryl anthracene-9-carboxylate) between surface and core compartments. The addition of unesterified cholesterol resulted in the movement of the fluorescent cholesteryl ester from the surface monolayer to the core compartment. The apparent partition coefficient, defined as the ratio of the concentration of probe in the monolayer to that in the core, decreased from 1.03 in the absence of unesterfied cholesterol to 0.54 at 28 mol% unesterified cholesterol in the emulsion. In this process, the fluorescent cholesteryl ester becomes less accessible to a quencher (5-doxyl stearate) located in the surface monolayer. The decrease in the surface curvature resulting from incorporation of unesterified cholesterol into the particle does not influence this quenching process. We conclude that the presence of unesterified cholesterol in the emulsion causes the fluorescent cholesteryl ester to become less soluble in the surface monolayer.     

Localization of lipoprotein unesterified cholesterol in nondenaturing gradient gels with filipin

A method is described for the staining of lipoprotein unesterified cholesterol in nondenaturing polyacrylamide gradient gels with the fluorescent polyene antibiotic, filipin. The sensitivity of the filipin stain was comparable to that of oil red O and Coomassie R250 in terms of the amount of lipoprotein applied. Filipin successfully stained discoidal complexes of apoA-I-phosphatidylcholine-cholesterol, which in turn were stained poorly with oil red O. The potential for the identification of unesterified cholesterol-enriched lipoprotein subclasses was demonstrated.     

Morphological characterization of the cholesteryl ester cycle in cultured mouse macrophage foam cells

Mouse peritoneal macrophages can be induced to accumulate cholesteryl esters by incubating them in the presence of acetylated low density lipoprotein. The cholesteryl esters are sequestered in neutral lipid droplets that remain in the cell even when the acetylated low density lipoprotein is removed from the culture media. Previous biochemical studies have determined that the cholesterol component of cholesteryl ester droplets constantly turns over with a half time of 24 h by a cyclic process of de-esterification and re-esterification. We have used morphologic techniques to determine the spatial relationship of cholesteryl ester, free cholesterol, and lipase activity during normal turnover and when turnover is disrupted. Lipid droplets were surrounded by numerous 7.5-10.0-nm filaments; moreover, at focal sites on the margin of each droplet there were whorles of concentrically arranged membrane that penetrated the matrix. Histochemically detectable lipase activity was associated with these stacks of membrane. Using filipin as a light and electron microscopic probe for free cholesterol, we determined that a pool of free cholesterol was associated with each lipid droplet. Following incubation in the presence of the exogenous cholesterol acceptor, high density lipoprotein, the cholesteryl ester droplets disappeared and were replaced with lipid droplets of a different lipid composition. Inhibition of cholesterol esterification caused cholesteryl ester droplets to disappear and free cholesterol to accumulate in numerous myelin-like structures in the body of the cell.     

Labeling of cholesterol with filipin in cellular membranes of parenchymatous organs. Standardization of incubation conditions

Filipin is used for ultrastructural cytochemical localization of cholesterol in biological membranes. It binds to unesterified 3 beta-hydroxy-sterols forming 25 nm complexes which are readily recognized in freeze-fracture replicas. Since most investigations with filipin have been performed in isolated cells (tissue culture, cell suspensions etc.) we have investigated the conditions for reproducible labeling of cholesterol in membranes of parenchymatous organs. Vibratome sections of rat kidney fixed by glutaraldehyde perfusion were incubated in filipin and freeze-fracture replicas were prepared using standard techniques. The concentration of filipin, the thickness of vibratome sections and the incubation time and temperature were varied over a wide range. Optimal results were obtained with 50 micron thick tissue slices incubated in 400 micrograms/ml of filipin for 46 h at room temperature. Under these conditions lysosomes were consistently labeled while mitochondria and the endoplasmatic reticulum were negative. Peroxisomes showed a little or no labeling at all while the nuclear envelope was heavily labeled in some cells being negative in others. The method described here should be useful in investigation of the role of cholesterol in function of biological membranes in parenchymatous organs and compact tissues.     

氧化低密度脂蛋白诱导主动脉平滑肌细胞胆固醇酯聚集和凋亡(英)

细胞内胆固醇代谢的失衡和细胞凋亡都与动脉粥样硬化的发生有关.为了研究两者之间的关系,我们把猪的主动脉平滑肌细胞与15 mg／L氧化低密度脂蛋白共同孵育72 h,发现细胞内胆固醇酯与总胆固醇的比值由26.2%增加到64.1%,并且细胞内胆固醇酯的积聚有剂量依赖关系,表明细胞已经转化为平滑肌源性的泡沫细胞.另外,使用荧光显微镜、激光共聚焦显微镜和流式细胞仪分别发现,与氧化低密度脂蛋白共孵育的细胞有典型的凋亡形态改变.从实验可以推测,由氧化低密度脂蛋白诱导的平滑肌细胞凋亡,除了低密度脂蛋白氧化的因素外,也可能与细胞内胆固醇酯与总胆固醇的比值升高有关.     

Acyl-CoA cholesterol acyltransferase in cultured glioblastoma cells

We investigated the incorporation of radioactive precursors into cholesteryl ester in cultured glioblastoma cells. It was found that polar cholesterol derivatives and exogenous cholesterol contained in lipoprotein complexes greatly enhanced intracellular cholesteryl ester formation. The direct transfer of the acyl moiety from acyl-CoA to free cholesterol was demonstrated in broken cell preparations. Further evidence of the existence of the acyl-CoA:cholesterol acyltransferase (ACAT) in glioblastoma cells came from the conversion of radioactive cholesterol to cholesteryl ester by glial cell homogenates. The characteristics of the enzymic assay were studied in detail. This enzymic activity was greatly enhanced in homogenates prepared from 7-ketocholesterol-treated cells. Thus, cells more active in cholesterol esterification possessed a higher ACAT activity. Progesterone inhibited cholesterol esterification in cell-free preparations. The marked inhibition of intracellular cholesteryl ester formation in intact cells by progesterone is a strong argument for the exclusive role of ACAT in glioblastoma cells. Similar properties of cholesteryl ester biosynthesis have been observed in neuroblastoma cells and primary brain cell cultures. In conclusion, the same enzyme is involved in cholesteryl ester biosynthesis in all neural cells. Neural and nonneural cells share many fundamental characteristics of cholesteryl ester formation.     

The effect of low density lipoproteins, cholesterol, and 25-hydroxycholesterol on apolipoprotein B gene expression in HepG2 cells.

The purpose of the present study was to examine the effects of exogenous cholesterol on the apolipoprotein (Apo) B gene expression in HepG2 cells. Pure cholesterol had no significant effect on either the cellular content of cholesteryl esters or the net accumulation of neutral lipids and ApoB in the culture medium. By contrast, addition of 25-hydroxycholesterol increased the net accumulation of cholesteryl esters in cells and medium by 2-3-fold and decreased that of unesterified cholesterol by 50% in both compartments. A 33% reduction in the cellular content of triglycerides was commensurate with a 40% increase in their accumulation in the medium. A significant 3-fold increase in the net accumulation of ApoB in the medium was predominantly due to enhanced secretion of newly synthesized ApoB as established by pulse-chase studies. The stimulation in ApoB secretion was accompanied by a 55% increase in cellular ApoB mRNA. Under these experimental conditions, the low density lipoprotein receptor activity was decreased by only 12-20%. Addition of progesterone prevented the effects of 25-hydroxycholesterol. The changes in the concentration of neutral lipids and ApoB were reflected in the composition of secreted "low-density" lipoproteins. These particles had increased percentage contents of cholesteryl esters and ApoB and a decreased percentage content of unesterified cholesterol in comparison with lipoproteins produced by control cells. The rate of ApoB production was not correlated with the triglyceride mass in the cells but was positively correlated with the cellular and secreted cholesteryl esters and secreted triglycerides. With the exception of unchanged cellular unesterified cholesterol and ApoB mRNA levels, plasma low density lipoprotein had similar, although less pronounced, effects on the production of neutral lipids and ApoB. These results demonstrate that in HepG2 cells the synthesis and secretion of ApoB and cholesteryl esters are tightly coupled and that 25-hydroxycholesterol increased the concentration of ApoB-containing lipoproteins primarily by stimulating their production rather than reducing their catabolism.     

The effect of calcium antagonists on cholesterol metabolism in human aortal intima cells and macrophage lines]

Effects of two Ca-antagonists, verapamil and nifedipine, on the total cellular cholesterol content and accumulation, as well as on the synthesis and hydrolysis of cholesteryl esters in human aortic intimal smooth muscle cells and P388D1 cell line have been studied. Verapamil and nifedipine used at 10(-6) M and higher concentrations decreased the total cellular cholesterol content (by 25-40%) in intimal cells isolated from atherosclerotic lesions without any effect on the cholesterol content in normal intimal cells or P388D1 cells. At 2 x 10(-5) M verapamil and nifedipine prevented the accumulation of cholesterol induced by atherogenic blood serum or atherogenic low density lipoproteins in both types of cells. At 10(-5) M and higher concentrations verapamil and nifedipine inhibited (2-3-fold) cholesteryl ester synthesis in intimal cells and, used at 10(-6) M and higher doses, in P388D1 cells as well. Verapamil and nifedipine (2 x 10(-5) M) enhanced the hydrolysis of cholesteryl esters in both types of cells. The Ca-channel agonist Bay K8644 had no effect on cholesteryl ester synthesis, nor did it suppress its inhibition by Ca-antagonist. The beta-receptor blocker propranolol induced the accumulation of cholesterol in intimal cells and inhibited the synthesis and hydrolysis of cholesterol esters in these cells. The data obtained suggest that the antiatherosclerotic action of Ca-blockers is determined by their ability to reduce the cellular cholesterol content which is suggested to be the result of enhanced hydrolysis of cellular cholesteryl esters.