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1.
Triparanol [2-(4-chlorophenyl)-1-(4-diethylaminoethoxyphenyl)-1-p-tolylethanol] at a concentration of 2 micronm has no effect on the overall conversion of [2=14C]acetate into C27 sterols by isolated liver cells. In the presence of triparanol, however, the formation of radioactive cholesterol is inhibited by 85-90% and the balance of radioactivity appears in the C27 sterol desmosterol (cholesta-5,24-dien-3beta-ol). The very small weights of desmosterol which accumulate under these conditions were, as a routine, quantitatively converted into the heptafluorobutyrate 3-enol ester of cholesta-4,24-dien-3-one. This derivative has a high electron-capturing capability, a property that enables extremely small quantities (less than 0.25pmol) of the material to be accurately measured by gas chromatography with electron-capture detection. Measurements of the mass and specific radioactivity of the newly biosynthesized desmosterol formed in the presence of triparanol provides an accurate assessment of the amount of cholesterol that would be synthesized by the liver cells in the absence of the drug.  相似文献   

2.
By studying the incorporation and esterification of non-lipoprotein, free [3H]cholesterol in normal and acid sterol ester hydrolase-deficient human fibroblasts, it was examined whether the esterification reaction of the lysosomal acid sterol ester hydrolase contributed to the formation of cellular [3H|cholesteryl esters. Both the normal and the acid sterol ester hydrolase-deficient cells incorporated exogenous, vesicle-derived free [3H]cholesterol linearly as a function of time. Also, the rate of [3H]cholesteryl ester formation was almost the same in normal and mutant fibroblasts, indicating that the apparent esterification activity of the acid sterol ester hydrolase in normal fibroblasts did not contribute to the formation of [3H]cholesteryl esters in intact cells. To examine whether the incorporated [3H]cholesterol was transported into the endoplasmic reticulum and esterified by the acyl-CoA: cholesterol acyltransferase, the rate of [3H]cholesteryl ester formation was measured in the presence or absence of the acyl-CoA: cholesterol acyltransferase-inhibitor 58-035 (Sandoz Inc.). Results showed that the formation of [3H]cholesteryl esters was reduced markedly when cells were co-incubated with the acyltransferase inhibitor. Maximal inhibition (i.e., 75%) was obtained at an inhibitor concentration of 1 μg/ml. Since the inhibitor 58-035 is very specific for acyl-CoA: cholesterol acyltransferase, this finding clearly shows that exogenous, exchangeable [3H]cholesterol can reach and mix with the intracellular substrate pool of the enzyme.  相似文献   

3.
We have examined how a specific enrichment of cultured fibroblasts with various sterols (cholesterol, lathosterol, 7-dehydrocholesterol, allocholesterol and dihydrocholesterol) regulate synthesis de novo of phosphatidylcholine, cholesterol and cholesteryl (or steryl) esters in human skin fibroblasts. When human skin fibroblasts were incubated for 1 h with 130 microM cholesterol/CyD complexes, the mass of cellular free cholesterol increased by 100 nmol.mg-1 protein (from 90 nmol.mg-1 to 190 nmol.mg-1 protein). A similar exposure of cells to different sterol/CyD complexes increased the cell sterol content between 38 and 181 nmol sterol per mg cell protein. In cholesterol-enriched cells, the rate of phosphatidylcholine synthesis was doubled compared to control cells, irrespective of the type of precursor used ([3H]choline, [3H]palmitic acid, or [14C]glycerol). Enrichment of fibroblasts with 7-dehydrocholesterol, allocholesterol, or dihydrocholesterol also upregulated phosphatidylcholine synthesis, whereas cells enriched with lathosterol failed to upregulate their phosphatidylcholine synthesis. The activity of membrane-bound CTP:phosphocholine cytidylyltransferase, the rate-limiting enzyme, was increased by 47 +/- 4% in cholesterol-enriched cells whereas its activity was unchanged in lathosterol-enriched cells. Sterol enrichment with all tested sterols (including lathosterol) down-regulated acetate-incorporation into cholesterol, and upregulated sterol esterification in the sterol-enriched fibroblasts. Using 31P-NMR to measure the lamellar-to-hexagonal (Lalpha-HII) phase transition in multilamellar lipid dispersions, lathosterol-containing membranes underwent their transition at significantly higher temperatures compared to membranes containing any of the other sterols. In a system with 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphoethanolamine and either cholesterol or lathosterol (70:30 mol/mol), differential scanning calorimetry also revealed that the Lalpha-HII-transition occurred at a higher temperature with lathosterol compared to either cholesterol, allocholesterol, or dihydrocholesterol. These findings together suggest that there may exist a correlation between the propensity of a sterol to stabilize the Lalpha-HII-transition and its capacity to upregulate the activity of CTP:phosphocholine cytidylyltransferase in cells.  相似文献   

4.
The Oomycete Saprolegnia ferax incorporates 3H from both cycloartenol-[2-3H] and lanosterol-[2-3H] into its normal sterols cholesterol, fucosterol, desmosterol, and 24-methylenecholesterol. It is concluded that sterol biosynthesis in this organism is via cycloartenol and the taxonomic implications are discussed.  相似文献   

5.
Mycoplasma gallisepticum was adapted to grow with delta 5-sterols modified in the aliphatic side chain, and stopped-flow kinetic measurements of filipin association were made to estimate the sterol distribution between the two leaflets of the membrane. Cholesterol derivatives with unsaturated side chains (desmosterol, cis- and trans-22-dehydrocholesterol, and cholesta-5,22E,24-trien-3 beta-ol) or an alkyl substituent (beta-sitosterol) were predominantly (86-94%) localized in the outer leaflet of the bilayer. However, cholesterol, 20-isocholesterol, and sterols with side chains of varying lengths (in the 20(R)-n-alkylpregn-5-en-3 beta-ol series where the alkyl group ranged from ethyl to undecyl) were distributed nearly symmetrically between the two halves of the bilayer. Kinetic measurements of beta-[14C]sitosterol and [14C]desmosterol exchange between M. gallisepticum cells and an excess of sonicated sterol/phosphatidylcholine vesicles confirmed the filipin-binding studies. More than 90% of these radiolabeled sterols underwent exchange at 37 degrees C with unlabeled sterols in vesicles over a period of 12-14 h in the presence of 2% (w/v) albumin. beta-[14C]Sitosterol exchange was characterized by biphasic exchange kinetics, indicative of two pools of sitosterol molecules in the cell membrane. Only a single kinetic pool was detected for [14C]desmosterol exchange. Stopped flow measurements of filipin binding to beta-sitosterol and stigmasterol also revealed an asymmetrical localization of these sterols in membranes of growing Mycoplasma. capricolum cells. When an early exponential culture of beta-sitosterol- or stigmasterol-adapted M. capricolum was transferred to a sterol-rich medium at 37 degrees C, approximately three-quarters of the beta-sitosterol or stigmasterol was localized in the outer leaflet after growth was continued for 6 h; in contrast, cholesterol was distributed symmetrically after about 1 h. The asymmetric localization of sterols with alkylated or unsaturated side chains suggests that growth-supporting sterols need not be translocated extensively into the inner leaflet of the bilayers of M. gallisepticum and M. capricolum.  相似文献   

6.
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.  相似文献   

7.
David Nes W  Nichols SD 《Phytochemistry》2006,67(16):1716-1721
The Zygomycetes fungus Mortierella alpina was cultured to growth arrest to assess the phytosterol biosynthesis pathway in a less-advanced fungus. The mycelium was found to produce 13 sterols, but no ergosterol. The sterol fractions were purified to homogeneity by HPLC and their identifies determined by a combination of GC-MS and 1H NMR spectroscopy. The principal sterol of the mycelium was cholesta-5, 24-dienol (desmosterol) (83%), with lesser amounts of 24beta-methyl-cholesta-5,25(27)-dienol (codisterol) (2%), 24-methyldesmosterol (6%), 24(28)-methylene cholesterol (3%) and lanosterol (3%) and several other minor compounds (3%). The total sterol accounted for approximately 0.07% of the mycelial dry wt. Mycelium fed methionine-methyl-2H3 for 6 days, generated 3 2H-24-methyl(ene) sterols, [C28-2H2]24(28)-methylenecholesterol, [C28-2H3]24-methylcholesta-5,24-dienol and [C28-2H3]24beta-methyl-cholesta-5,25(27)-dienol. The formation of the 24-methyl sterols seems to be catalyzed by the direct methylation of a common Delta24-acceptor sterol thereby bypassing the intermediacy of an isomerization step for rearrangement of the Delta24(28)-bond to Delta25(25)-position as operates in Ascomycetes fungi and all plants.  相似文献   

8.
Sterol biosynthesis by the sea urchin Echinus esculentus   总被引:2,自引:2,他引:0       下载免费PDF全文
1. The 4-demethyl sterols of Echinus esculentus consisted of cholesterol as the major component, with lower concentrations of nine other C(26), C(27), C(28) and C(29) Delta(5) sterols. 2. [2-(14)C]Mevalonic acid was readily incorporated by the urchin into squalene, lanosterol and desmosterol but only to a small extent into cholesterol. 3. [26-(14)C]Desmosterol did not appear to be reduced to give cholesterol, but conversion of 5alpha-[2-(3)H(2)]lanost-8-en-3beta-ol into cholesterol was observed. 4. No C-24 dealkylation of [4-(14)C]sitosterol or metabolism of [4-(14)C]cholesterol could be detected.  相似文献   

9.
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.  相似文献   

10.
Summary Transfer of radiolabeled lipids from dictyosome-like structures (DLS) from testis tubules of the guinea pig as donor to unlabeled plasma membrane from testis tubules immobilized on nitrocellulose as acceptor was studied in a completely cell-free system. As a general label for lipids of the donor DLS, isolated testis tubules were incubated with [14C]acetate. Time- and temperature-dependent transfer of [14C]acetate labeled constituents was observed in the cellfree system. However, despite the fact that phospholipids and other constituents were highly labeled in the donor fraction, primarily radioactive sterols were transferred to the plasma membrane acceptor vesicles. Transfer at 37°C represented 0.4 to 0.7% of the total radiolabeled cholesterol at 37°C but little or no transfer occurred at 4°C. The sterols transferred exhibited Chromatographic mobilities corresponding to those of cholesterol and lanosterol. Similar results were obtained with [14C]mevalonic acid. In subsequent experiments, cholesterol transfer from DLS to plasma membrane was demonstrated by incubation of DLS with [3H]squalene which was converted into sterol or with [14C]cholesterol. Transfer of sterols required ATP, but not cytosol, and was both time- and temperature-dependent. DLS were more effective than either endoplasmic reticulum or plasma membrane as the donor fraction. The results from the cell-free analysis suggest a possible functional role of the DLS in sterol biogenesis and transfer to the plasma membrane during spermatid development.Abbreviations DLS dictyosome-like structure(s) - PBS phosphatebuffered saline - HEPES 4-(2-hydroxyethyl)-1-piperazineethanesulfonic acid - BSA bovine serum albumin  相似文献   

11.
Hydrocortisone in physiologic concentrations resulted in a reduction in sterol synthesis by cultured normal human skin fibroblasts. These changes were observed when [14C]acetate, [14C]octanoic acid and 3H2O were used as precursors. However, the incorporation of [3H]mevalonic acid lactone into digitonin-precipitable sterols was not affected by hydrocortisone, suggesting that hydrocortisone inhibits sterol synthesis at a site prior to the formation of mevalonic acid. In contrast, the activity of hydroxymethylglutaryl-CoA reductase was stimulated several-fold by the hormone. Thus, the inhibitory effect of hydrocortisone on the cholesterol synthetic pathway may be on hydroxymethylglutaryl-CoA synthase.  相似文献   

12.
In order to determine whether hydration of the delta 24 bond of desmosterol contributes to the formation of the regulatory oxysterol, 25-hydroxycholesterol, [3H]desmosterol was incubated with two cultured cell lines and the labeled products were analyzed. Small amounts of 25-hydroxycholesterol were formed with Chinese hamster lung (Dede) cell cultures, but not with mouse fibroblast (L) cell cultures. Apparently, desmosterol was converted into cholesterol, a process that does not occur in L cells, before 25-hydroxycholesterol takes place. No reliable evidence could be obtained for hydration of the delta 24 bond or for the reverse reaction upon incubation of [3H]25-hydroxycholesterol. Oxygenation of desmosterol occurred in both Dede and L cell cultures to give a mixture of 24(R)- and 24(S)-25-epoxy-cholesterol. This reaction, along with the production of 7-oxygenated sterols, may account for low levels of HMG-CoA reductase repressor activity previously found to be associated with delta 24 sterols.  相似文献   

13.
This study was undertaken to develop techniques for measuring absolute rates of sterol synthesis in extrahepatic tissues in vitro and to estimate the magnitude of the errors inherent in the use of various 14C-labeled substrates for such measurements. Initial studies showed that significant errors were introduced when rates of synthesis were estimated using [3H]water since about 20 nmol of water were bound to each mg of tissue cholesterol isolated as the digitonide. This source of error could be eliminated by subtracting apparent incorporation rates obtained at 0 degrees C from those obtained at 37 degrees C or by regenerating and drying the free sterol. In a second set of experiments, the H/C incorporation ratio in cholesterol was determined in the liver by measuring the absolute rates of hydrogen and acetyl CoA flux into sterols. The ratio of 0.69 +/- 0.03 was found to be independent of the rate of hepatic cholesterol synthesis, the rate of hepatic acetyl CoA generation, or the source of the acetyl CoA. In a third set of studies, rates of incorporation of [3H]water or 14C-labeled acetate, octanoate, and glucose into digitonin-precipitable sterols were simultaneously measured in nine different extrahepatic tissues. Assuming that the H/C ratio measured in the liver also applied to these tissues, the [3H]water incorporation rates were multipled by the reciprocal of the H/C ratio to give the absolute rates of sterol synthesis in each tissue. When these were compared to the incorporation rates determined with the 14C-labeled substrates the magnitude of the errors in the rates of sterol synthesis obtained with these substrates in each tissue could be assessed. Only [14C]octanoate gave synthesis rates approaching 100% of those obtained with [3H]water and this occurred only in the intestine and kidney; in the other extrahepatic tissues this substrate gave rates of 6--66+ of the absolute rates. Rates of [14C]acetate incorporation in sterols varied from 4 to 62% of the [3H]water incorporation rates while those obtained with [14C]glucose were only 2--88% of the true rates. These studies document the large and highly variable errors inherent in estimating rates of sterol synthesis in extrahepatic tissues using 14C-labeled substrates under in vitro conditions.  相似文献   

14.
Sterol structure influences liquid ordered domains in membranes, and the dependence of biological functions on sterol structure can help identify processes dependent on ordered domains. In this study we compared the effect of sterol structure on ordered domain formation in symmetric vesicles composed of mixtures of sphingomyelin, 1, 2-dioleoyl-sn-glycero-3-phosphocholine (DOPC) and cholesterol, and in asymmetric vesicles in which sphingomyelin was introduced into the outer leaflet of vesicles composed of DOPC and cholesterol. In most cases, sterol behavior was similar in symmetric and asymmetric vesicles, with ordered domains most strongly stabilized by 7-dehydrocholesterol (7DHC) and cholesterol, stabilized to a moderate degree by lanosterol, epicholesterol and desmosterol, and very little if at all by 4-cholesten-3-one. However, in asymmetric vesicles desmosterol stabilized ordered domain almost as well as cholesterol, and to a much greater degree than epicholesterol, so that the ability to support ordered domains decreased in the order 7-DHC > cholesterol > desmosterol > lanosterol > epicholesterol > 4-cholesten-3-one. This contrasts with values for intermediate stabilizing sterols in symmetric vesicles in which the ranking was cholesterol > lanosterol ~ desmosterol ~ epicholesterol or prior studies in which the ranking was cholesterol ~ epicholesterol > lanosterol ~ desmosterol. The reasons for these differences are discussed. Based on these results, we re-evaluated our prior studies in cells and conclude that endocytosis levels and bacterial uptake are even more closely correlated with the ability of sterols to form ordered domains than previously thought, and do not necessarily require that a sterol have a 3β-OH group.  相似文献   

15.
16.
Inclusion of 1.1% elemental tellurium in the diet of postweanling rats produces a peripheral neuropathy due to a highly synchronous primary demyelination of sciatic nerve; this demyelination is followed closely by remyelination. Sciatic nerves from animals fed tellurium for various times were removed and incubated ex vivo for 1 h with [14C]acetate, and radioactivity incorporated into individual lipid classes was determined. In nerves from rats exposed to tellurium, there was a profound and selective block in the conversion of radioactive acetate to cholesterol. Another radioactive precursor, [3H]water, gave similar results. We suggest that tellurium feeding inhibits squalene epoxidase activity and that the consequent lack of cholesterol destabilizes myelin, thereby causing destruction of the larger internodes. Ex vivo incubation experiments were also carried out with liver slices. As with nerve, tellurium feeding caused accumulation in squalene of label from radioactive acetate, whereas labeling of cholesterol was greatly inhibited. Unexpectedly, however, incorporation of label from [3H]water into both squalene and cholesterol was increased. Relevant is the demonstration that liver was the primary site of bulk accumulation of squalene, which accounted for 10% of liver dry weight at 5 days. Thus, accumulation of squalene (and other mechanisms, possibly including up-regulation of cholesterol biosynthetic pathways) drives squalene epoxidase activity at normal levels in liver even in the presence of inhibitors of this enzyme. This is reflected by continuing incorporation of [3H]water into cholesterol; incorporation of this precursor takes place at many of the postsqualene biosynthetic steps for sterol formation. [14C]Acetate entering the sterol pathway before squalene in liver is greatly diluted in specific activity when it reaches the large squalene pool, and thus increased squalene epoxidase activity does not transfer significant 14C label to sterols. In contrast to the situation with liver, synthesis of sterols is markedly depressed in sciatic nerve, and squalene does not accumulate to high levels.  相似文献   

17.
All cells of the avascular ocular lens derive from a monolayer of epithelial cells located on only the anterior surface of this organ. The source of the cholesterol required for the growth and division of these cells was studied by using cultures of bovine lens epithelial cells. Cells were in active growth during the third to fourth day of subculture following seeding. Absolute rates of cholesterol synthesis were estimated for the cultured cells from incorporation of [3H]water. Rates were estimated on the assumption that 0.81 atoms of 3H of [3H]water were incorporated into cholesterol per carbon atom of cholesterol, a situation where all of the NADPH would be generated by oxidative enzymatic processes. We tested this assumption by measuring the changes in sterol mass per dish of cells grown in lipoprotein-deficient media over day 3 to 4 of subculture and by simultaneously measuring the rates of incorporation of [3H]water into sterols during this period. In this situation, the increases in sterol mass should be attributable solely to de novo sterol synthesis. We calculated that an average of 0.79 atoms of 3H of [3H]water were incorporated by these cells into cholesterol per carbon atom of cholesterol. Sterol synthesis was only modestly decreased (about 30%) when the cells were cultured in media prepared with whole calf serum. Growth rates of the cells were also little affected by the absence of lipoproteins. In spite of the capacity to furnish its sterol requirements by de novo synthesis, the lens epithelial cells readily degraded 125I-labeled bovine LDL, and LDL greatly decreased sterol synthesis when added to the media at low levels.(ABSTRACT TRUNCATED AT 250 WORDS)  相似文献   

18.
24(R,S),25-Iminolanosterol (IL) and triparanol added to cultures of rat hepatoma cells, H4-II-C3 (H4), interrupt the conversion of lanosterol to cholesterol and, depending on their concentrations, cause the accumulation in the cells of intermediates in the lanosterol to cholesterol conversion. At 45 microM, both substances cause the accumulation of 5 alpha-cholesta-8(9),24-dien-3 beta-ol (zymosterol), and at the low concentration of 4.5 microM, they cause the accumulation of cholesta-5.24-dien-3 beta-ol (desmosterol). The effect of intermediate concentrations of 9 or 22.5 microM of either substance is to cause the accumulation in the cells of three sterols: cholesta-5,7,24-trien-3 beta-ol, zymosterol, and desmosterol. The synthesis of these intermediary sterols, not found normally in H4 cells, is particularly pronounced in cultures kept in lipid-depleted media that contain the inhibitors and proceeds by the use of endogenous substrates at the expense of cholesterol. The synthesis of cholesterol from [14C]acetate or [2-14C]mevalonate is completely blocked by either inhibitor even at 4.5 microM. IL or triparanol inhibits the growth of H4 cells. Cells seeded into either full growth or lipid-depleted medium containing 22.5 microM IL will not grow unless the media are supplemented with low density lipoproteins (60 micrograms/ml). Supplementation of the media with 4.6 mM mevalonate does not counteract the inhibitory effect of IL on cell growth.  相似文献   

19.
The biosynthesis of C27 sterols (used as a generic term for 3 β-hydroxysterols containing 27 carbon atoms) from squalene and lanosterol, of cholesterol from desmosterol, and of lanosterol from squalene by microsomal fractions from adult rat heart, kidney, and brain was investigated. These conversions required the presence of 105,000g supernatant fraction. Heat treatment of the supernatant fractions resulted in a significant loss of their capacity to stimulate the conversion of squalene to sterols, but the capacity to stimulate conversion of lanosterol to C27 sterols and desmosterol to cholesterol was unaffected. The stimulatory activity (for the conversion of all three substrates) of both the heated and unheated supernatant fractions was lost on treatment with trypsin. Thus the soluble fraction appears to contribute at least two essential protein components for the overall conversion of squalene to cholesterol; one a heat labile protein, which functions in the squalene to lanosterol sequence, and the other a heat-stable protein, which is operative in the pathway between lanosterol and cholesterol. Hepatic supernatant factors required for cholesterol synthesis by liver microsomal enzymes function with heart, kidney, and brain microsomal enzymes in stimulating sterol synthesis from squalene and sterol precursors. Moreover, heart, kidney, and brain supernatant fractions prepared in 100 mm phosphate buffer stimulated cholesterol synthesis from squalene and other sterol precursors by liver microsomes. The supernatant fractions of the extrahepatic tissues prepared in 20 mm phosphate buffer lacked the ability to stimulate the biosynthesis of lanosterol from squalene by liver microsomes but were able to stimulate the conversion of lanosterol to C27 sterols or conversion of desmosterol to cholesterol. These findings indicate that the heat-stable protein factor present in the supernatant fractions from extrahepatic tissues is perhaps identical to that in liver, but that the heat-labile factor in extrahepatic tissues, which catalyzes the cyclization of squalene to lanosterol, differs in some respect from that in liver.  相似文献   

20.
Where examined, cholesterol is synthesized in the endoplasmic reticulum; however, its precursor, zymosterol, is found mostly in the plasma membrane. The novel implication of these disparate findings is that zymosterol circulates within the cell. In tracing its movements, we have now established the following: (a) in human fibroblasts, zymosterol is converted to cholesterol solely in the rough ER. (b) Little or no zymosterol or cholesterol accumulates in the rough ER in vivo. (c) Newly synthesized zymosterol moves to the plasma membrane without a detectable lag and with a half-time of 9 min, about twice as fast as cholesterol. (d) The pool of radiolabeled zymosterol in the plasma membrane turns over rapidly, faster than does intracellular cholesterol. Thus, plasma membrane zymosterol is not stagnant. (e) [3H]Zymosterol pulsed into intact cells is initially found in the plasma membrane. It is rapidly internalized and is then converted to [3H] cholesterol. Half of the [3H]cholesterol produced returns to the plasma membrane within 30 min of the initial [3H]zymosterol pulse. (f) Nascent zymosterol accumulates in a buoyant sterol-rich intracellular membrane before it reaches the plasma membrane. This membrane also acquires nascent cholesterol, exogenous [3H]zymosterol pulsed into intact cells, and [3H]cholesterol synthesized from the exogenous [3H] zymosterol. These results suggest that at least one sterol moves rapidly and in both directions among the rough endoplasmic reticulum, a sterol-rich intracellular membrane bearing nascent cholesterol, and the plasma membrane.  相似文献   

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