Rapid labeling of lipoproteins in plasma with radioactive cholesterol. Application for measurement of plasma cholesterol esterification

In order to efficiently and rapidly label lipoproteins in plasma with [3H]cholesterol, micelles consisting of lysophosphatidylcholine (lysoPC) and [3H]cholesterol (molar ratio, 50:1) were prepared. When trace amounts of these micelles were injected into plasma, [3H]cholesterol rapidly equilibrated among the plasma lipoproteins, as compared to [3H]cholesterol from an albumin-stabilized emulsion. The distributions of both [3H]cholesterol and unlabeled free cholesterol in plasma lipoproteins were similar in labeled plasma samples. This method of labeling can be used for the measurement of cholesterol esterification, or lecithin:cholesterol acyltransferase activity, in small amounts (20-40 microliters) of plasma samples.     

Effects of sphingomyelin degradation on cholesterol mobilization and efflux to high-density lipoproteins in cultured fibroblasts

The hydrolysis of sphingomyelin from cellular plasma membranes imposes many consequences on cellular cholesterol homeostasis by causing a rapid and dramatic redistribution of plasma membrane cholesterol within the cells (Slotte, J.P. and Bierman, E.L. (1988) Biochem. J. 250, 653-658). The objective of this study was to examine the effects of an extracellular cholesterol acceptor on the directions of the sphingomyelinase-induced cholesterol flow in cultured fibroblasts. We have used HDL3 as a physiological acceptor for cholesterol, and measured the effects of sphingomyelin hydrolysis on efflux and endogenous esterification of cellular [3H]cholesterol. Treatment of cells with sphingomyelinase did induce a dramatically increased esterification of plasma-membrane-derived [3H]cholesterol. The presence of HDL3 in the medium (100 micrograms/ml) did not prevent or reduce the extent of the sphingomyelinase-induced cellular esterification of [3H]cholesterol. Degradation of cellular sphingomyelin (75% hydrolysis) also did not enhance the rate of [3H]cholesterol efflux from the plasma membranes to HDL3. In addition, we also observed that the degradation of sphingomyelin in the HDL3 particles (complete degradation) did not change the apparent rate of [3H]cholesterol transfer from HDL3 to the cells. These findings together indicate that hydrolysis of sphingomyelin did not markedly affect the rates of cholesterol surface transfer between HDL3 and cells. By whatever mechanism cholesterol is forced to be translocated from the plasma membranes subsequent to the degradation of sphingomyelin, it appears that the sterol flow is specifically directed towards the interior of the cells.     

Esterification of exogenously derived free cholesterol by cultured fibroblasts

The incorporation and esterification by cultured human fibroblasts of vesicle- or low density lipoprotein-derived free [3H]cholesterol was examined. The rate of the cellular uptake of free [3H]cholesterol from lipid vesicles was similar in both LDL-receptor positive lung fibroblasts and in LDL-receptor negative fibroblasts. When human LDL was used as the carrier of free [3H]cholesterol, however, the LDL-receptor positive lung fibroblasts incorporated significantly more [3H]cholesterol than did the LDL-receptor negative cells. The exchangeable free [3H]cholesterol was available for intracellular esterification. The formation of [3H]cholesteryl esters was markedly inhibited by lysosomotropic drugs, either indicating a partly lysosomal esterification reaction, or implying that free [3H]cholesterol moves through the lysosomal compartment on its way to intracellular esterification sites. Either way, the lysosomes appear to have a metabolic role in the metabolism of exchangeable free [3H]cholesterol.     

Acyl coenzyme A:cholesterol acyl transferase in macrophages utilizes a cellular pool of cholesterol oxidase-accessible cholesterol as substrate

Cholesterol esterification by acyl CoA:cholesterol acyl transferase (ACAT) in macrophages is a key process in atheroma foam cell formation. However, the process of cholesterol substrate delivery to ACAT is not well defined. In this study, J774 macrophages, which form foam cells with native low density lipoprotein (LDL), were labeled with [3H]cholesterol-containing liposomes. Most (80-90%) of the cholesterol label could be converted by cholesterol oxidase to cholestenone, suggesting plasma membrane localization; only 0.6% of the label was in cholesteryl ester (CE). In cells chased for 6 h in medium lacking LDL, the distribution of label was essentially unchanged, whereas in cells chased with LDL, 28% of the label was incorporated into CE concomitant with a decrease in cholestenone label to 50%. [3H]Cholesterol-labeled mouse peritoneal macrophages incubated with acetyl-LDL, and both J774 and mouse peritoneal macrophages incubated with 25-hydroxy-cholesterol, also showed a shift of label from cholestenone to CE. Similar results were found when cellular cholesterol was biosynthetically labeled with [3H]mevalonate. The percentage of cholesterol substrate for ACAT in LDL-treated J774 macrophages which originates from endogenous cellular pools (versus that originating from LDL itself) is approximately 50%. We conclude that upon activation of ACAT in macrophages, there is a novel process whereby a cholesterol oxidase-accessible pool of cellular cholesterol, presumably plasma membrane cholesterol, is translocated to ACAT in the endoplasmic reticulum.     

Exposure of rat peritoneal macrophages to acetylated low density lipoprotein results in release of plasma membrane cholesterol. An efficient substrate for esterification by acyl-CoA:cholesterol acyltransferase.

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.     

Movement of cholesterol in vitro in rat blood and quantitation of the exchange of free cholesterol between plasma and erythrocytes

After administration of [4-(14)C]cholesterol to rats, blood was obtained and incubated for 6 hr or less. Incubation resulted in a net loss of erythrocyte cholesterol and, simultaneously, in an increase of esterified cholesterol in plasma and alpha-lipoproteins. Erythrocyte labile cholesterol was shown to be the sole precursor of esterified cholesterol. However, the relation between loss and esterification was not absolute. Loss of erythrocyte cholesterol could be inhibited without affecting esterification and vice versa. A catenary turnover model is proposed, which links in vivo erythrocyte labile cholesterol and plasma esterified cholesterol. Free cholesterol also exchanged between erythrocytes and lipoproteins. The topological model, as tested by analog computer, appears to be a bicompartmental system governed by nonconstant exchange fluxes. They are exponential functions of time and vary from 0.065 to 0.020 mg/hr/g of blood. The fitting of the curves obtained by analog computer analysis to the experimental curves requires esterification as described above. Variation of the exchange fluxes would be the consequence of lipoprotein structural alterations. If this is true, the initial value of the measured flux in vitro is identical with the in vivo value, and the turnover time of erythrocyte cholesterol is 9.2 hr. Initial exchange flux is not dependent on plasma cholesterol level or on the age of the rats, but it is temperature dependent. Addition of amphotericin B to the plasma does not modify exchange fluxes, but erythrocyte cholesterol loss is increased.     

Intracellular transport of cholesterol in type C Niemann-Pick fibroblasts

The purpose of this study was to determine the capacity of Niemann-Pick type C (NPC) fibroblasts to transport cholesterol from the cell surface to intracellular membranes. This is relevant in light of the observations that NPC cells display a sluggish metabolism of LDL-derived cholesterol, a phenomenon which could be explained by a defective intracellular transport of cholesterol. Treatment of NPC cells for 4 h with 0.1 mg/ml of LDL failed to increase the incorporation of [14C]oleic acid into cholesterol [14C]oleate, an observation consistent with previous reports on this cell type (Pentchev et al. (1985) Proc. Natl. Acad. Sci. USA 82, 8247). Normal fibroblasts, however, displayed the classical upregulation (6-fold over control) of the endogenous esterification reaction in response to LDL exposure. Incubation of normal or NPC fibroblasts with sphingomyelinase (100 mU/ml; Staphylococcus aureus) led to a rapid and marked increase (9- and 10-fold for normal and NPC fibroblasts, respectively, after 4 h) in the esterification of plasma-membrane-derived [3H]cholesterol suggesting that sphingomyelin degradation forced a net transfer of cholesterol from the cell surface to the endoplasmic reticulum. The similar response in normal and mutant fibroblasts to the degradation of sphingomyelin suggests that plasma membrane cholesterol can be transported into the substrate pool of ACAT to about the same extent in these two cell types. Degradation of cell sphingomyelin in NPC fibroblasts also resulted in the movement of 20-25% of the cellular cholesterol from a cholesterol oxidase susceptible pool into oxidase-resistant pools, implying that a substantial amount of plasma membrane cholesterol was internalized after sphingomyelin degradation. This cholesterol internalization was not accompanied by an increased rate of membrane internalization, as measured by [3H]sucrose uptake. Although NPC cells showed a relative accumulation of unesterified cholesterol and a sluggish esterification of LDL-derived cholesterol when exposed to LDL, these cells responded like normal fibroblasts with regard to their capacity to transport cholesterol from the cell surface into intracellular sites in response to sphingomyelin degradation. It therefore appears that NPC cells, in contrast to the impaired intracellular movement of lipoprotein-derived cholesterol, do not display a general impairment of cholesterol transport between the cell surface and the intracellular regulatory pool of cholesterol.     

Niemann-Pick type II fibroblasts exhibit impaired cholesterol esterification in response to sphingomyelin hydrolysis.

Fibroblasts from patients with Niemann-Pick Type II disease, including the panethnic type C (NPC) and Nova Scotia Acadian type D (NPD) forms, exhibit reduced or delayed stimulation of cholesterol esterification by low density lipoprotein (LDL). Based on recent evidence that cholesterol esterification can also be stimulated by cell surface sphingomyelin hydrolysis, we have compared the response of normal, NPC and NPD fibroblasts to treatment with exogenous sphingomyelinase (SMase). Staphylococcus aureus SMase (greater than 0.05 U/ml) hydrolyzed over 90% of endogenous sphingomyelin within 1 h and increased incorporation of [3H]oleic acid into cholesterol-[3H]oleate after an initial lag in all three cell types. However, normal levels of cholesterol esterification were not observed for NP Type II fibroblasts: four NPD cell lines exhibited an average of 32% of normal response while cholesterol esterification was only 20% in two well-characterized NPC lines. A third NPC line exhibited normal response to SMase despite greater than 90% impairment of LDL-stimulated cholesterol esterification. Incubation of fibroblasts with LDL followed by SMase produced a synergistic response, particularly in NPC cells where there was little response to either treatment alone. Chloroquine abolished LDL-stimulated cholesterol esterification in normal fibroblasts but had no effect on the response to SMase, indicating that lysosomal enzymes may not be involved in SMase-mediated cholesterol esterification. These results suggest that intracellular processing of cholesterol derived from either LDL or release from the plasma membrane (by sphingomyelin hydrolysis) is affected in Niemann-Pick Type II cells and that these pathways can complement one another in the stimulation of cholesterol esterification.     

Selective inhibition of acyl coenzyme A:cholesterol acyltransferase by compound 58-035

Compound 58-035 (3-[decyldimethylsilyl]-N-[2-(4-methylphenyl)-1-phenylethyl]pro panamide) has been found to inhibit the accumulation of cholesteryl esters in both rat hepatoma (Fu5AH) cells and arterial smooth muscle cells in culture. To explore the specificity of 58-035, we have studied the esterification of cholesterol, retinol, and glycerides by the Fu5AH cell and by isolated membranes. Exposure of Fu5AH to cholesterol/phospholipid dispersions and 58-035 (greater than 100 ng/ml) for 24 h resulted in greater than 95% inhibition of cholesterol esterification while cellular free cholesterol increased slightly. Inhibition was also rapid; incorporation of [3H]oleate into cholesteryl [3H]oleate equaled only 12% of control value after 30 min with 58-035 at 5 micrograms/ml. In contrast, there was no decrease in [3H]oleate incorporation into phospholipids or diglycerides, nor was the esterification of [3H]retinol inhibited by 58-035. In microsomal fractions, acyl-CoA:cholesterol acyltransferase could be inhibited completely by 58-035, while activities of acyl-CoA: retinol acyltransferase and triglyceride synthesis proceeded at 75-100% of control values. These observations that 58-035 is highly selective allow the inference that acyl-CoA:cholesterol acyltransferase is a separate microsomal enzyme whose activity can be modulated independently from acyl-CoA:retinol acyltransferase and other cellular acyltransferases.     

The cholesterol storage disorder of the mutant BALB/c mouse. A primary genetic lesion closely linked to defective esterification of exogenously derived cholesterol and its relationship to human type C Niemann-Pick disease

An inborn murine cholesterol storage disorder exists which is characterized by a lesion in intracellular cholesterol esterification not accounted for by any discernible abnormality in acyl-CoA: cholesterol acyltransferase (Pentchev, P.G., Boothe, A.D., Kruth, H.S., Weintroub, H., Stivers, J., and Brady, R.O. (1984) J. Biol. Chem. 259, 5784-5791). Current studies have shown that the level of esterification of nonlipoprotein-derived [3H]cholesterol in cultured fibroblasts from heterozygous mutant mice was intermediary between the level found in normal fibroblasts and the deficient level found in fibroblasts from homozygous mutant mice. Homozygous-affected fibroblasts took up and converted [3H]desmosterol to [3H]cholesterol at a normal rate indicating that the murine mutation does not compromise the transport of exogenous sterol to microsomes. In contrast to the defect in esterification of exogenously derived cholesterol, synthesis of cholesteryl ester from [3H]mevalonic acid and [3H]squalene was normal in affected fibroblasts as was the stimulation of cholesteryl ester synthesis from endogenous cholesterol induced by 25-hydroxycholesterol. In surveying a number of mutant cell lines from human metabolic disorders with phenotypic manifestations similar in part to the mutant cholesterol storage mouse, Niemann-Pick C fibroblasts displayed a similar defect in esterification of exogenously derived cholesterol.     

Origin and fate of rat plasma cholesterol in vivo. Modelling of cholesterol movements between plasma and organs

A cholesterol system model was developed in the rat following a single injection of red cells containing free (unesterified) [3H]cholesterol. The radioactivity of free and esterified cholesterol in the different parts of the system was measured during the 48 h following tracer introduction. The model consisted of seven compartments (red cell free cholesterol, plasma and liver free and esterified cholesterol, total cholesterol in the rapidly and slowly exchangeable carcass pools). The model was validated by the similarity between simulated and experimental values during the 48 h following tracer introduction. Both the fractional rate of cholesterol esterification in the plasma (0.44 h-1) and liver (0.01 h-1) and the fractional exchange rate of free cholesterol from the plasma towards the various organs (particularly 3 h-1 towards the liver for a total of 7 h-1) can be estimated with this model. The results show that cholesterol movements between the plasma and the different organs take place mainly through intense free cholesterol exchanges, resulting in a low net flux.     

Niemann-Pick Type II fibroblasts exhibit impaired cholesterol esterification in response to shingomyelin hydrolysis

Fibroblasts from patients with Niemann-Pick Type II disease, including the panethnic type C (NPC) and Nova Scotia Acadian type D (NPD) forms, exhibit reduced or delayed stimulation of cholesterol esterification by low density lipoprotein (LDL). Based on recent evidence that cholesterol esterification can also be stimulated by cell surface sphingomyelin hydrolysis, we have compared the response of normal, NPC and NPD fibroblasts to treatment with exogenous sphingomyelinase (SMase). Staphylococcus aureus SMase (> 0.05 U/ml) hydrolyzed over 90% of endogenous sphingomyelin within 1 h and increased incorporation of [³H]oleic acid into cholesterol-[³H]oleate after an initial lag in all three cell types. However, normal levels of cholesterol esterification were not observed for NP Type II fibroblasts: four NPD cell lines exhibited an average of 32% of normal response while cholesterol esterification was only 20% in two well-characterized NPC lines. A third NPC line exhibited normal response to SMase despite greater than 90% impairment of LDL-stimuated cholesterol esterification. Incubation of fibroblasts with LDL followed by SMase produced a synergistic response, particularly in NPC cells where there was little response to either treatment alone. Chloroquinone abolished LDL-stimulated cholesterol esterification in normal fibroblasts but had no effect on the response to SMase, indicating that lysosomal enzymes may not be involved in SMase-mediated cholesterol esterification. These results suggest that intracellular processing of cholesterol derived from either LDL or release from the plasma membrane (by sphingomyelin hydrolysis) is affected in Niemann-Pick Type II cells and that these pathways can complement one another in the stimulation of cholesterol esterification.     

Uptake and esterification of exogenous cholesterol by low-density-lipoprotein-receptor-negative human fibroblasts in culture.

The incorporation and metabolism of both vesicle- and LDL (low-density lipoprotein)- derived [3H]cholesterol by LDL-receptor-negative fibroblasts were studied. Independent of the cholesterol source, free [3H]cholesterol was readily incorporated into the cells and was available for esterification. 7-Oxocholesterol stimulated both [3H]cholesterol incorporation, by increasing the exchange rate, and the subsequent esterification of it irrespective of the source of exogenous [3H]cholesterol. The 7-oxocholesterol-stimulated esterification of exogenously derived LDL free [3H]cholesterol was progesterone-sensitive and energy-requiring.     

Intracellular sterol distribution in transfected mouse L-cell fibroblasts expressing rat liver fatty acid-binding protein

The potential role of liver fatty acid binding protein (L-FABP) in modulating cellular sterol distribution was examined in mouse L-cell fibroblasts transfected with cDNA encoding L-FABP. L-cells were chosen because they contain only a small amount of endogenous FABP which does not bind [3H]cholesterol, does not enhance intermembrane sterol transfer, and whose content is unaltered by the expression of L-FABP. Transfected L-cells expressed 0.34% of cytosolic protein as L-FABP. Transfection alone with low expression of L-FABP (0.008% of cytosolic protein) had no effect on any of the parameters tested. Three aspects of cellular sterol transfer were examined. First, cellular sterol uptake, monitored by [3H]cholesterol and the fluorescent sterol, delta-5,7,9(11),22-ergostatetraen-3 beta-ol, was increased 21.5 +/- 2.6% (p less than 0.001) in L-cells expressing L-FABP. This increase was not accounted for by increased sterol esterification in the cells expressing L-FABP. Inhibition of both cholesterol transfer and esterification with 3-(decyldimethylsilyl)-N-[2-(4-methylphenyl)-1-phenylethyl]propanamide from Sandoz abolished the L-FABP related enhancement of both [3H]cholesterol uptake and esterification. Second, plasma membrane transbilayer distribution of sterol, determined by fluorescence methods indicated that the majority of sterol was in the inner leaflet of the plasma membrane. In transfected cells expressing L-FABP, twice as much sterol (28 +/- 4%) was present in the exofacial leaflet of the plasma membrane as compared to that of control cells (15 +/- 2%). Third, expression of L-FABP enhanced sterol transfer from the plasma membrane to microsomes in intact cells. Treatment of [3H]cholesterol or [3H]oleate-loaded cells with sphingomyelinase resulted in increased formation of radiolabeled cholesterol ester, consistent with enhanced microsomal esterification of plasma membrane derived cholesterol. Concomitantly, plasma membrane [3H]cholesterol became less accessible to oxidation by cholesterol oxidase. Sphingomyelinase-stimulated cholesterol esterification was 21 +/- 3% greater in transfected cells. Concomitantly, accessibility of plasma membrane [3H]cholesterol to cholesterol oxidase was decreased 18 +/- 3% in cells expressing L-FABP. These differences are consistent with the ability of L-FABP to influence sterol transport and plasma membrane transbilayer sterol distribution in intact cells.     

Metabolism of low-density lipoprotein free cholesterol by human plasma lecithin-cholesterol acyltransferase

The metabolism of cholesterol derived from [3H]cholesterol-labeled low-density lipoprotein (LDL) was determined in human blood plasma. LDL-derived free cholesterol first appeared in large alpha-migrating HDL (HDL2) and was then transferred to small alpha-HDL (HDL3) for esterification. The major part of such esters was retained within HDL of increasing size in the course of lecithin-cholesterol acyltransferase (LCAT) activity; the balance was recovered in LDL. Transfer of preformed cholesteryl esters within HDL contributed little to the labeled cholesteryl ester accumulating in HDL2. When cholesterol for esterification was derived instead from cell membranes, a significantly smaller proportion of this cholesteryl ester was subsequently recovered in LDL. These data suggest compartmentation of cholesteryl esters within plasma that have been formed from cell membrane or LDL free cholesterol, and the role for HDL2 as a relatively unreactive sink for LCAT-derived cholesteryl esters.     

Translocation of both lysosomal LDL-derived cholesterol and plasma membrane cholesterol to the endoplasmic reticulum for esterification may require common cellular factors involved in cholesterol egress from the acidic compartments (lysosomes/endosomes)

Using a stable cell line 25-RA derived from wild-type Chinese hamster ovary (CHO) cells as the parental cell, this laboratory previously reported the isolation and characterization of CHO cell mutants (cholesterol-trafficking or CT) defective in transporting LDL-derived cholesterol out of the acidic compartment(s) (lysosomes/endosomes) to the endoplasmic reticulum (ER) for esterification. In this report, we show that the CT mutation can be complemented by fusion with human cells; however, attempts to complement the CT defect through DNA transfection have resulted in a collection of stable cell lines designated as ST cells. Under cholesterol starvation condition, the ST cells exhibit an elevated rate of cholesterol ester biosynthesis (by 3- to 5-fold) compared to both the parental CHO cells and the CT cells. The phenotypes of the ST cells are stable. ST cells are thus new cell lines arisen from the CT cells. When the plasma membranes of the parental, CT, and ST cells are labelled with [³H]cholesterol, ST cells show rates of [³H]cholesterol esterification much higher than that observed in CT cells but lower than that observed in the parental CHO cells. This result shows that translocation of plasma membrane cholesterol to the ER for esterification is defective in the CT cells. This result also suggests that ST cells acquire increased cholesterol trafficking activity between the lysosome and the ER without mixing with the plasma membrane cholesterol pool. The characteristics of CT cells and ST cells reported here suggest that translocation of both lysosomal LDL-derived cholesterol and plasma membrane cholesterol to the ER for esterification may require common cellular factors involved in cholesterol egress from the acidic compartment(s) (lysosomes/endosomes).     

Depletion of plasma-membrane sphingomyelin rapidly alters the distribution of cholesterol between plasma membranes and intracellular cholesterol pools in cultured fibroblasts.

This study examines the relationship between cellular sphingomyelin content and the distribution of unesterified cholesterol between the plasma-membrane pool and the putative intracellular regulatory pool. The sphingomyelin content of cultured human skin fibroblasts was reduced by treatment of intact cells with extracellularly added neutral sphingomyelinase, and subsequent changes in the activities of cholesterol-metabolizing enzymes were determined. Exposure of fibroblasts to 0.1 unit of sphingomyelinase/ml for 60 min led to the depletion of more than 90% of the cellular sphingomyelin, as determined from total lipid extracts. In a time-course study, it was found that within 10 min of the addition of sphingomyelinase to cells, a dramatic increase in acyl-CoA:cholesterol acyltransferase activity could be observed, whether measured from the appearance of plasma membrane-derived [3H]cholesterol or exogenously added [14C]oleic acid, in cellular cholesteryl esters. In addition, the cholesteryl ester mass was significantly higher in sphingomyelin-depleted fibroblasts at 3 h after exposure to sphingomyelinase compared with that in untreated fibroblasts [7.1 +/- 0.4 nmol of cholesterol/mg equivalents of esterified cholesterol compared with 4.2 +/- 0.1 nmol of cholesterol/mg equivalents of cholesteryl ester in control cells (P less than 0.05)]. The sphingomyelin-depleted cells also showed a reduction in the rate of endogenous synthesis of cholesterol, as measured by incorporation of sodium [14C]acetate into [14C]cholesterol. These results are consistent with a rapid movement of cholesterol from sphingomyelin-depleted plasma membranes to the putative intracellular regulatory pool of cholesterol. This mass movement of cholesterol away from the plasma membranes presumably resulted from a decreased capacity of the plasma membranes to solubilize cholesterol, since sphingomyelin-depleted cells also had a decreased capacity to incorporate nanomolar amounts of [3H]cholesterol from the extracellular medium, as compared with control cells. These findings confirm previous assumptions that the membrane sphingomyelin content is an important determinant of the overall distribution of cholesterol within intact cells.     

Rapid intracellular transport of LDL-derived cholesterol to the plasma membrane in cultured fibroblasts

The kinetics of low density lipoprotein (LDL) cholesterol transport to the plasma membrane of Chinese hamster ovary (CHO) cells was studied. LDL was reconstituted with [3H]cholesteryl linoleate and added to CHO cells in a pulse-chase experiment. The internalization and lysosomal cleavage of reconstituted LDL (rLDL) [3H]cholesteryl linoleate to free [3H]cholesterol occurred with a half-time of 37 min after a 30-min lag. The rate of transport of released [3H]cholesterol to the plasma membrane was measured by brief (20-30 sec) cholesterol oxidase treatment of intact, adherent cells: the half-time of transport was 42 min. The similarity in the rate of free cholesterol release from rLDL and transport of this cholesterol to the plasma membrane suggests very rapid transport of rLDL cholesterol from the lysosome to the plasma membrane. Cells were shown to be intact throughout the cholesterol oxidase treatment by the absence of cell-derived lactate dehydrogenase (LDH) activity or K+ in the assay buffer.     

The effect of interleukin 1 beta on the biosynthesis of cholesterol, phosphatidylcholine, and sphingomyelin in fibroblasts, and on their efflux from cells to lipid-free apolipoprotein A-I.

In this study we have investigated the effect of interleukin 1beta (IL-1beta) on the metabolism of cholesterol and choline-phospholipids in cultured fibroblasts, and also measured efflux of these lipids to lipid-free apo A-I as a function of IL-1beta treatment. Long-term exposure (up to 48 h) of cells to IL-1beta (1 ng.mL-1) markedly increased the rate of cholesterol esterification, as determined by the incorporation of [3H]oleic acid into cholesteryl esters. This treatment also led to a substantially increased mass of cholesteryl esters in the cells. The accumulation of cholesteryl esters in IL-1beta-treated cells could be blocked using compound 58-035 to inhibit the activity of acyl-CoA cholesterol acyl transferase. The activation of cholesterol esterification by IL-1beta was evident within a few hours after initiation of the IL-1beta treatment. Cholesterol biosynthesis was inhibited by 25% by IL-1beta (after 48 h exposure), and this eventually led to a 20% decrease in cell cholesterol mass. Treatment of cells with IL-1beta for 48 h also reduced the synthesis of sphingomyelin and caused a 30% decrease in cell sphingomyelin mass (after 48 h at 1 ng.mL-1 of IL-1beta). IL-1beta did not stimulate an acute (within a few minutes up to an hour) degradation of cell [3H]sphingomyelin. This suggests that IL-1beta did not activate an endogenous sphingomyelinase in these cells, but only affected rates of synthesis. The rate of phosphatidylcholine synthesis was barely affected, but mass was moderately reduced by a 48-h treatment of cells with IL-1beta. Finally, the efflux of cell [3H]cholesterol, [3H]sphingomyelin, and [3H]phosphatidylcholine to lipid-free apolipoprotein A-I was markedly increased from cells treated with IL-1beta for 24 and 48 h. We conclude that long-term exposure of cells to IL-1beta had marked effects on the cellular homeostasis of cholesterol and choline-containing phospholipids.     

Effects of fasting on plasma lipids and cholesterol esterification in plasma, liver and intestinal mucosa in the char (Salmo alpinus L.)

1. CoA-dependent cholesterol esterification, measured as esterification of 3H-cholesterol, was demonstrated in homogenates of liver and intestinal mucosa of the char (Salmo alpinus L.). 2. Plasma concentration of triacylglycerols, unesterified and total cholesterol were significantly reduced to 43, 58 and 72% of the control values, respectively, after 6 weeks fasting. 3. The rate of cholesterol esterification in plasma and liver homogenate was significantly lower in the fasted fish compared to the controls, but the esterification activity in the homogenate of intestinal mucosa increased twofold in the fish fasted for 6 weeks.