Inhibitors of sterol synthesis. 14 alpha-ethyl-5 alpha-cholest-7-ene-3 beta,15 alpha-diol induces changes in the sterol composition and the morphology of CHO-K1 cells

Incubation of CHO-K1 cells in lipid-deficient medium containing 14 alpha-ethyl-5 alpha-cholest-7-ene-3 beta,15 alpha-diol (0.1 microM) for 4 days was associated with a profound change in cellular sterol composition as reflected by a marked accumulation of lanosterol and 24,25-dihydrolanosterol. A striking elongation of the cells was also observed. Incubation of CHO-K1 cells in lipid-deficient medium containing lanosterol (10 microM) also caused a significant accumulation of lanosterol which was also associated with a marked elongation of the cells.     

Inhibitors of sterol synthesis. Exogenous oleate reduces the inhibitory effect of 5 alpha-cholest-8(14)-en-3 beta-ol-15-one on the growth of CHO-K1 cells

5 alpha-Cholest-8(14)-en-3 beta-ol-15-one, a hypocholesterolemic agent and a potent inhibitor of sterol biosynthesis, inhibited the growth of CHO-K1 cells incubated in medium containing fetal calf serum. The concentration of the oxysterol required to inhibit growth by 50% was 13 microM. Sodium oleate (82 microM) reduced the inhibitory effects of the sterol, and increased the concentration of the 15-ketosterol required to cause a 50% inhibition of growth to 25 microM. The ACAT inhibitor N'-(2,4-difluoro-phenyl)-N-[4-(2,2-dimethylpropy)-phenyl]-methyl)- N- heptylurea (5 microM) abolished the effect of sodium oleate, and reduced the concentration of the 15-ketosterol required to inhibit growth by 50% to 5 microM.     

5 alpha-Cholest-8(14)-en-3 beta-ol-15-one. In vivo conversion to cholesterol upon oral administration to a nonhuman primate

The metabolism of 5 alpha-cholest-8(14)-en-3 beta-ol-15-one (I), a potent inhibitor of cholesterol synthesis with marked hypocholesteremic activity, has been studied in a nonhuman primate. A mixture of [2,4-3H]-I and [4-14C]-cholesterol was administered to a male baboon in the form of a feedball. Blood was samples at 4, 8, 12, 16, and 24 hr. Detailed analyses of the plasma lipids indicated very rapid absorption of I (relative to cholesterol) and metabolism to cholesterol, cholesteryl esters, and esters of I. The labeled cholesterol was characterized by chromatographic techniques and by purification by way of its dibromide derivative. The levels of 3H in plasma associated with I, esters of I, cholesterol, and cholesteryl esters each showed a different time course. By 24 hr after the administration of [2,4-3H]-I, most of the 3H in plasma was associated with cholesterol and cholesteryl esters. The levels of total 3H and 14C in plasma at various times after the administration of the mixture of [2,4-3H]-I and [4-14C]-cholesterol differed markedly with 3H showing a maximum value at 4 hr and 14C showing a maximum value at 24 hr.     

The effects of phorbol ester on anabolism of lipids of cultured human skin fibroblasts

We have investigated the independent effects of phorbol ester (phorbol 12-myristate 13-acetate) on anabolism of the major lipid components in cultured diploid human skin fibroblasts. When we incubated these cells with [3H]acetate in serum-free medium for 18 h in the presence of 16 nM phorbol ester, [3H]acetate incorporation and the cellular content of cholesterol ester increased, and free cholesterol decreased. Enhancement of [3H]acetate incorporation into cholesterol ester was also observed when the cells were incubated with phorbol ester for 5 h in medium containing lipoprotein-deficient serum. Incorporation of [3H]galactose into glycosphingolipids increased many fold upon exposure of the cells either to fetal calf serum or separately to phorbol ester. Therefore, phorbol ester independently affects cholesterol and glycosphingolipid metabolism in a way that may be similar to that reported for serum low-density lipoproteins and unknown other factors in fetal calf serum. We have observed these effects of phorbol ester in the intact living cell. These findings should provide useful means for the study of metabolism of the plasma membrane lipid components in fibroblasts.     

Inhibitors of sterol synthesis. Studies of the distribution and metabolism of 5 alpha-[2,4-3H]cholest-8(14)-en-3 beta-ol-15-one after intragastric administration to rats

5 alpha-[2,4-3H]Cholest-8(14)-en-3 beta-ol-15-one was administered to a series of male Sprague-Dawley rats by intragastric intubation in the form of an emulsion in a mixture of triolein, sodium taurocholate, bovine serum albumin, and glucose. [4-14C]Cholesterol was similarly administered to a second series of rats. The distribution of 3H and 14C was studied at 12 and 48 h after the administration of the sterols. The results demonstrated that the 15-ketosterol is absorbed and metabolized to material with the chromatographic properties of fatty acid esters of the 15-ketosterol, to cholesterol, and to fatty acid esters of cholesterol. The [3H]cholesterol formed from the 15-ketosterol was characterized by its behavior on silicic acid-Super Cel column chromatography, by the chromatographic behavior of its acetate derivative on alumina-AgNO3 column chromatography, and by purification by way of its dibromide derivative without significant change in specific activity. The general distribution of 3H was similar to that of 14C. No unusual concentration of 3H in any of the organs studied was observed.     

The regulation of 3-hydroxy-3-methylglutaryl-CoA reductase activity, cholesterol esterification and the expression of low-density lipoprotein receptors in cultured monocyte-derived macrophages.

Human blood monocytes cultured in medium containing 20% whole serum showed the greatest activity of 3-hydroxy-3-methylglutaryl-CoA (HMG-CoA) reductase and [14C]acetate incorporation into non-saponifiable lipids around the 7th day after seeding, the period of greatest growth. Although there was enough low-density lipoprotein (LDL) in the medium to saturate the LDL receptors that were expressed by normal cells at that time, HMG-CoA reductase activity and acetate incorporation were as high in normal cells as in cells from familial-hypercholesterolaemic (FH) patients. Both the addition of extra LDL, which interacted with the cells by non-saturable processes, and receptor-mediated uptake of acetylated LDL significantly reduced reductase activity and increased incorporation of [14C]oleate into cholesteryl esters in normal cells and cells from FH patients ('FH cells'), and reduced the expression of LDL receptors in normal cells. Pre-incubation for 20h in lipoprotein-deficient medium apparently increased the number of LDL receptors expressed by normal cells but reduced the activity of HMG-CoA reductase in both normal and FH cells. During subsequent incubations the same rate of degradation of acetylated LDL and of non-saturable degradation of LDL by FH cells was associated with the same reduction in HMG-CoA reductase activity, although LDL produced a much smaller stimulation of oleate incorporation into cholesteryl esters. In normal cells pre-incubated without lipoproteins, receptor-mediated uptake of LDL could abolish reductase activity and the expression of LDL receptors. The results suggested that in these cells, receptor-mediated uptake of LDL might have a greater effect on reductase activity and LDL receptors than the equivalent uptake of acetylated LDL. It is proposed that endogenous synthesis is an important source of cholesterol for growth of normal cells, and that the site at which cholesterol is deposited in the cells may determine the nature and extent of the metabolic events that follow.     

Synthesis and uptake of gangliosides by choleragen-responsive human fibroblasts.

Human fibroblasts, cultured in medium containing 10% fetal calf serum, responded dramatically to choleragen with an increase in cyclic adenosine monophosphate content to greater than 48 times basal levels. Analysis of these cells for gangliosides indicated that the major ganglioside was N-acetylneuraminylgalactosylglucosylceramide (GM3) with trace amounts (less than or equal to 100 pmol/mg of protein) of other gangliosides including GM1, the putative choleragen receptor. Although the cells contained three glycosyltransferases required for ganglioside synthesis, the N-acetylgalactosaminyltransferase activity necessary for the conversion of GM3 to more complex gangliosides was not detected. When the cells were grown in medium containing [14C]galactose or N-acety[3H]mannosamine, however, all of the gangliosides became labeled, indicating that the cells can synthesize complex gangliosides. Although fetal calf serum contains gangliosides including GM1, [3H]GM1 was taken up poorly from the growth medium and uptake at the rate observed could have accounted for less than 2% of the GM1 content of the cells. When the cells were incubated in chemically defined medium containing [3H]GM1 at the concentrations present in fetal calf serum, rapid uptake of the ganglioside occurred and the total GM1 content of the cells increased threefold in less than 3 h. Thus, although the cells are capable of binding exogenous gangliosides, the gangliosides in fetal calf serum are in a form not readily available to the cells.     

High-density lipoprotein-associated 17beta-estradiol fatty acyl ester uptake by Fu5AH hepatoma cells: implications of the roles of scavenger receptor class B, type I and the low-density lipoprotein receptor

17beta-estradiol (E2) fatty acyl esters naturally incorporate into high-density lipoprotein (HDL). The objective was to elucidate mechanisms involved in HDL-associated E2 cellular uptake and to determine the intracellular distribution of E2 and its fatty acyl esters (E2-FAE) after uptake. [3H]E2 or [3H] cholesterol was incubated with human serum for 24 h to allow for fatty acyl esterification. Total-HDL containing [3H]E2-FAE or [3H]cholesterol esters was isolated by sequential density ultracentrifugation and then incubated with Fu5AH rat hepatoma cells for various time points. Cellular uptake was determined by intracellular radioactivity as a percentage of total radioactivity. Chemical inhibition of scavenger receptor class B, type I and low-density lipoprotein (LDL) receptor competition assays were performed to determine cellular uptake mechanisms. Compared to HDL-[3H]cholesterol, cellular uptake of HDL-[3H]E2 occurred at an initially rapid rate. SR-BI inhibition resulted in a decrease in HDL-E2 uptake and LDL impaired this uptake in a concentration-dependent manner. Accordingly, pretreatment of cells with BLT-1 combined with LDL addition significantly attenuated HDL-E2 uptake. HDL-E2-FAE was hydrolyzed into free E2 with the maximum at 24 h. Fu5AH cells facilitate HDL-E2 uptake by at least SR-BI and LDL receptor pathways and intracellular hydrolysis of E2-FAE into free E2 ensues.     

Metabolic dehydration of prostaglandin E2 and cellular uptake of the dehydration product: correlation with prostaglandin E2-induced growth inhibition

When L-1210 murine leukemia cells were incubated with 60 microM PGE2 in culture medium containing fetal calf serum for various time, cell proliferation was inhibited dependent on incubation time. However, when the medium containing PGE2 was changed every 6 h during 24 h exposure to cells, growth inhibition became much weaker. Moreover, when the medium containing PGE2 was aged by preincubating without cells at 37 degrees C, growth inhibitory effect of the medium was enhanced with preincubation time, suggesting that active growth inhibitory compound(s) accumulated during preincubation. In culture medium containing fetal calf serum, PGE2 degraded time-dependently and the major product was identified as PGA2 by HPLC. Furthermore, when cells were incubated with the medium containing 60 microM[3H]PGE2 or the same medium aged by preincubation, we observed that the radioactivity was taken up by the cells time-dependently, and identified the incorporated radioactivity as PGA2. This uptake was closely correlated with decrease in viable cell number during incubation. These results suggested that growth inhibitory effect of PGE2 was due to the metabolic dehydration of PGE2 to PGA2, and PGA2, after taken up by cells, exerted cell growth inhibition.     

Failure of the intracellular itinerary of beta very low density lipoproteins to augment cholesterol esterification in macrophages from Watanabe heritable hyperlipidemic rabbits

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.     

The effects of monensin on membrane lipids of cultured human skin fibroblasts

We have investigated the effects of monensin, a monovalent cationophore, on the metabolism of neutral lipids, fatty acids, ceramide and phospholipids in cultured human skin fibroblasts. Treatment with 1 microM monensin for 18 h reduced the cellular cholesterol ester content to less than one-third of untreated cells, and incorporation of [3H]acetate into cholesterol ester was also reduced, to less than one-fifth. Concomitantly, a greater conversion of [3H]acetate into free cholesterol occurred. There was a moderate increase in free fatty acids, but no change in triacylglycerol content, although the content of the latter appeared to increase in the presence of fetal calf serum in the culture medium. Phosphatidylcholine decreased in content and phosphatidylserine increased among the phosphatides, but ceramide remained unchanged after monensin treatment. These findings suggest that monensin influences the metabolic interrelationships of structural lipids in fibroblasts.     

Induction of differentiation in murine neuroblastoma cells by mevinolin, a competitive inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase

Mevinolin, a competitive inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase, stimulated outgrowth of neurites and increased acetylcholinesterase activity in C1300-N2A murine neuroblastoma cells cultured in medium containing 10% fetal calf serum. Changes in cell morphology and enzyme activity were concentration-dependent in the range of 0.25-25 microM mevinolin, and were accompanied by decreased incorporation of [3H]thymidine into DNA. The expression of differentiated characteristics induced by 25 microM mevinolin was blocked by simultaneous addition of 100 microM mevalonate to the culture medium. The data suggest that changes in intracellular levels of mevalonate or one of its isoprenoid derivatives may play a role in the regulation of cell differentiation.     

Differentiation of neuroblastoma cells induced by an inhibitor of mevalonate synthesis: relation of neurite outgrowth and acetylcholinesterase activity to changes in cell proliferation and blocked isoprenoid synthesis

Mevinolin, a competitive inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, stimulates neurite outgrowth and acetylcholinesterase (ACE) activity in C1300 (Neuro-2A) murine neuroblastoma cells. Sprouting of neurites began within 4-8 h, before changes in cell proliferation could be detected by [3H]thymidine incorporation or flow cytometry. In contrast, the increase in ACE activity was temporally correlated with suppression of DNA synthesis, which occurred after 8 h. The activity of the membrane marker enzyme phosphodiesterase I was not stimulated by mevinolin. Suppression of protein synthesis with cycloheximide blocked the induction of ACE activity but only partially inhibited neurite outgrowth in the mevinolin-treated cultures. When mevinolin was removed from the culture medium, most of the cells retracted their neurites within 2 h, but ACE activity did not decline until DNA synthesis began to return to control levels after 10 h. Similarly, retraction of neurites in differentiated cells exposed to colchicine was not accompanied by a decrease in ACE activity. DNA histograms suggested that mevinolin arrests neuroblastoma cells in both the G1 and G2/M compartments of the cell cycle. Other cytostatic drugs that arrest cells at different stages of the cell cycle did not cause Neuro-2A cells to form neurites such as those seen in the mevinolin-treated cultures. When incorporation of [3H]acetate into isoprenoid compounds was studied in cultures containing mevinolin in concentrations ranging from 0.25 microM to 25 microM, the labeling of cholesterol, dolichol, and ubiquinone was suppressed by 90% or more at all concentrations. However, significant growth arrest and cell differentiation were observed only at the highest concentrations of mevinolin. Supplementing the medium with 100 microM mevalonate prevented the cellular response to mevinolin, but additions of cholesterol, dolichol, ubiquinone, or isopentenyl adenine were generally ineffective. The cholesterol content of neuroblastoma cells incubated with 25 microM mevinolin for 24 h was not diminished, and protein glycosylation, measured by [3H]mannose incorporation, was decreased only after 24 h at high mevinolin concentration. These studies suggest that the stimulation of neurite outgrowth and the increase in ACE activity induced by mevinolin are independent phenomena. Whereas neurite outgrowth is not related directly to the effects of mevinolin on cell cycling, the induction of ACE is correlated with the inhibition of cell proliferation.(ABSTRACT TRUNCATED AT 400 WORDS)     

Down-regulation of mammalian 3-hydroxy-3-methylglutaryl coenzyme A reductase activity with highly purified liposomal cholesterol.

Chinese hamster ovary-215 cells (CHO-215) cannot synthesize C27 and C28 sterols because of a defect in the reaction that decarboxylates 4-carboxysterols [Plemenitas, A., Havel, C.M. & Watson, J.A. (1990) J. Biol. Chem. 265, 17012-17017]. Thus, CHO-215 cell growth is dependent on an exogenous metabolically functional source of cholesterol. We used CHO-215 cells to (a) determine whether highly purified (> 99.5%) cholesterol, in egg lecithin liposomes, could down-regulate derepressed 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activity and if so (b) determine whether the loss in reductase catalytic activity correlated kinetically with the synthesis and accumulation of detectable oxycholesterol derivatives. Liposomal cholesterol (26-39 microM) supported maximum CHO-215 growth and initiated suppression of HMG-CoA reductase activity at concentrations greater than 50 microM. Maximum suppression (50-60%) of reductase activity was achieved with 181.3 microM liposomal cholesterol in 6 h. Also, regulatory concentrations of highly purified liposomal [3H]cholesterol were not converted (biologically or chemically) to detectable levels of oxy[3H]cholesterol derivatives during 3-6 h incubations. Lastly, a broad-spectrum cytochrome P450 inhibitor (miconazole) had no effect on liposomal cholesterol-mediated suppression of HMG-CoA reductase activity. These observations established that (a) highly purified cholesterol, incorporated into egg lecithin liposomes, can signal the down-regulation of derepressed mammalian cell HMG-CoA reductase activity and (b) if oxycholesterol synthesis was required for liposomal cholesterol-mediated down-regulation, the products had to be more potent than 24-, 25-, or 26-/27-hydroxycholesterol.     

Effect of Cu,Zn superoxide dismutase on cholesterol metabolism in human hepatocarcinoma (HepG2) cells

The microsomal enzyme 3-hydroxy-3-methylglutaryl CoA (HMG-CoA) reductase and the low density lipoprotein (LDL) receptor pathway carry out a key role on cholesterol homeostasis in eucaryotic cells. The HMG-CoA reductase is sensitive to oxidative inactivation and to phosphorylation by many kinases that are able to inactivate the protein and increase its susceptibility to proteolysis. We previously demonstrated that a calf thymus Cu,Zn SOD affects cholesterol metabolism. This protein binds with rat hepatocyte cell membrane by a specific surface membrane receptor. The involvement of Cu,Zn SOD in cholesterol metabolism is confirmed further by the presence of this antioxidant enzyme in circulating serum lipoproteins. We studied the effect of native human Cu,Zn SOD, metal-free SOD (apo SOD), and SOD-inactivated with hydrogen peroxide on cholesterol metabolism in human hepatocarcinoma HepG2 cells. Results showed that all forms of SODs used, at the concentration of 150 ng/ml, are able to affect cholesterol metabolism decreasing both HMG-CoA reductase activity and its protein levels; this inhibitory effect is accompanied by reduced cholesterol synthesis measured as [14C]acetate incorporation into [14C]cholesterol and by an increased [125I]LDL binding to HepG2 cells. Furthermore, the inhibitory effect of Cu,Zn SOD on cholesterol synthesis was completely abolished when the cells were incubated with Cu,Zn SOD in the presence of bisindoilmaleimide (BDM), an inhibitor of protein kinase C (PKC); moreover, we demonstrated that Cu,Zn SOD as well as apo SOD was able to increase PKC activity. Overall, data demonstrate that Cu,Zn SOD affects cholesterol metabolism independently from its dismutase activity and its metal content and that the inhibitory action on cholesterol synthesis is mediated by an activation of protein kinase C.     

Additive effect of oestradiol-17 beta and serum on synthesis of deoxyribonucleic acid in guinea-pig endometrial cells in culture.

Normal guinea-pig endometrial cells, grown in primary culture, were made quiescent by serum depletion. Quiescent cells cultured in the control medium (containing 1% fetal calf serum treated with dextran-coated charcoal, DCC-FCS) showed a steady and weak rate of [3H]thymidine incorporation, but the addition of 15% fetal calf serum (FCS) or 10% DCC-FCS to the control medium induced a significant increase of DNA synthesis, demonstrating the responsiveness of the quiescent cells to stimulation. A lower but significant increase in [3H]thymidine incorporation was elicited by epidermal growth factor (EGF, 100 ng/ml) or insulin (10 micrograms/ml) added to the basal medium. Oestradiol-17 beta added to the control medium at concentrations ranging from 10(-10) to 10(-5) mol/l not only failed to increase but even inhibited [3H]thymidine incorporation at the highest concentrations tested. An additive effect was noticed when quiescent cells were incubated with oestradiol-17 beta (10(-9) mol/l) in the presence of 10% DCC-FCS, but no synergistic effect occurred when 2 x 10(-9) mol oestradiol-17 beta/l was combined with either EGF (100 ng/ml) or insulin (10 micrograms/ml). Oestradiol-17 beta appears unable alone to stimulate DNA synthesis in normal endometrial cells, but requires factor(s) present in fetal calf serum.     

Reduction in β-Adrenoceptor Density in Cultured Rat Glioma C6 Cells After Incubation with Antidepressants Is Dependent upon the Culturing Conditions Used

The hydrophilic beta-adrenoceptor ligand (-)-[3H]CGP-12177 binds to intact C6 cells with a high affinity (KD approximately 0.1 nM) and with a high degree of specificity. The binding was inhibited by DL-propranolol (Ki approximately 1 nM). Treatment of cells cultured in Dulbecco's modified Eagle medium (DMEM) without fetal calf serum for 4 days with desipramine reduced the (-)-[3H]CGP-12177 specific binding in a concentration-dependent manner, a reduction from 127 to 102 fmol/mg of protein being found at a ligand concentration of 1 nM after treatment with 10 microM desipramine. Lesser effects were seen after treatment for 1 day. A similar result was found with maprotiline, and reductions in specific binding were seen after 4 days of treatment with amitriptyline, iprindole, and citalopram. The reduction in binding-site density (measured per milligram of protein to compensate for variability in cell density per well), however, was paralleled in all cases by a reduction in the rate of cell proliferation. When C6 glioma cells were cultured in Ham's medium without fetal calf serum during the antidepressant treatment period, a higher specific binding was observed than for the DMEM-cultured cells, and 10 microM desipramine was without effect on either the (-)-[3H]CGP-12177 specific binding or cell proliferation. It is concluded that the effects of the antidepressants tested upon the density of (-)-[3H]CGP-12177 specific binding sites in intact C6 cells may be secondary to the toxicity of the compounds under the conditions used.     

The effect of 15-ketosterol analogues with a 5,6-dimethylhept-3-en-2-yl chain at C17 on cholesterol metabolism in Hep G2 hepatoma cells

The effect on cholesterol metabolism in Hep G2 hepatoma cells was studied for new analogues of 15-ketosterol [3beta-hydroxy-5alpha-cholest-8(14)-en-15-one] (I): (24S)-3beta-hydroxy-24-methyl-5alpha-cholesta-8(14),22-diene-15-one (II), (24S)-3alpha-hydroxy-24-methyl-5-alpha-cholesta-8(14),22-diene-15-one (III), and (24S)-24-methyl-5alpha-cholesta-8(14),22-diene-3,15-dione (IV). Analogues (I) and (II) were found to be equally effective inhibitors of cholesterol biosynthesis after a 3-h incubation with Hep G2 cells; however, (II) produced a stronger inhibitory effect after a 24-h incubation or after an incubation of cells preliminarily treated with the inhibitor in a medium containing no ketosterol. The ability of ketosterols to inhibit cholesterol biosynthesis decreased in the order (II) > (IV) > (III). Ketosterol (II) inhibited, whereas ketosterol (III) stimulated the biosynthesis of cholesteryl esters. (IV) stimulated the biosynthesis of cholesteryl esters at a concentration of 1-10 microM and exerted no marked effect at a concentration of 30 microM. These results indicate that delta8(14)-15-ketosterols containing a modified side chain are of interest as regulators of cholesterol metabolism in liver cells. The English version of the paper: Russian Journal of Bioorganic Chemistry, 2004, vol. 30, no. 5; see also http: // www.maik.ru.     

The effect of L-carnitine on cholesterol metabolism in rat (Rattus bubalus) hepatocyte cells.

1. This paper concerns the study of the effect of L-carnitine on cholesterol metabolism in rat hepatocyte cells BRL-3A. In this research the binding of [125I]human low density lipoprotein (LDL) to BRL-3A cells and 3-hydroxy 3-methylglutaryl CoA reductase activity (HMG-CoA reductase activity) after L-carnitine incubation were studied. 2. It was found that L-carnitine is able to increase either the [125I]LDL binding or inhibit the HMG-CoA reductase activity in BRL-3A cells. 3. These results indicate that L-carnitine affects the cholesterol metabolism through an inhibition of HMG-CoA reductase activity that could be responsible for the increased [125I]LDL binding in rat hepatocytes.     

Regulation of cholesterol synthesis in cultured mouse mammary carcinoma FM3A cells

Mouse mammary carcinoma FM3A cells, which are able to grow in a serum-free medium, have novel characteristics that could be valuable in biochemical and somatic cell genetic studies. In FM3A cells grown in the presence of serum, both sterol synthesis and the activity of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, the major rate-limiting enzyme in the cholesterol biosynthetic pathway, were strongly suppressed by human low density lipoprotein (LDL). The addition of LDL (50 micrograms protein/ml) resulted in a 50% decrease in the reductase activity within 3 h and a 95% reduction after 24 h. Similarly, over 90% suppression of the reductase activity was obtained by the addition of LDL or mevalonolactone when the cells were grown on a serum-free medium. ML-236B (compactin), a specific inhibitor of HMG-CoA reductase, inhibited sterol synthesis from [14C]acetate by 80% at 1 microM. Reductase activity in FM3A cells was increased by 2.5- to 5-fold when the cells were treated with ML-236B (at 0.26-2.6 microM for 24 h). Thus, in FM3A cells, HMG-CoA reductase activity responded well to LDL, as is observed in human skin fibroblasts. Along with other novel features of this cell line, the present observations indicate that FM3A cells should be useful in biochemical and somatic cell genetic analysis of cholesterol metabolism, especially as regards the regulation of HMG-CoA reductase activity.