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Query: UMLS:C0432222 (SEM)
 47,337 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The aim of the present investigation was to study the influence of cholesterol feeding on cholesterol synthesis and fecal excretion of bile acids in germfree rats. Four germfree rats were fed a basal diet containing 0.004% cholesterol and four germfree rats received the same diet supplemented with 0.4% cholesterol for 2 weeks. Cholesterol synthesis was studied by assaying the HMG CoA reductase activity in the liver microsomal fraction. Cholesterol feeding decreased the HMG CoA reductase activity from 28.5 +/- 6.6 (mean +/- SEM) to 9.1 +/- 0.7 pmol/mg protein per min. In another experiment four germfree rats received the basal diet and four germfree rats the cholesterol-enriched diet. After 6 weeks feces were collected in two 4-day pools for analysis of bile acids. The main fecal bile acids were cholic acid and beta-muricholic acid (a metabolite of chenodeoxycholic acid), comprising more than 95% of total bile acids. Cholic acid was increased from 3.9 +/- 0.2 to 9.9 +/- 1.2 mg/kg body weight per day and beta-muricholic acid from 6.6 +/- 0.5 to 21.8 +/- 3.1 mg/kg body weight per day. The percentage of cholic acid decreased from 37.1 +/- 1.1 to 31.2 +/- 1.0%. In conclusion, germfree rats like conventional rats have the ability to compensate for an increased input of dietary cholesterol by inhibition of cholesterol synthesis and stimulation of bile acid synthesis. The synthesis of chenodeoxycholic acid (implied from the fecal excretion of beta-muricholic acid) is stimulated to a greater extent than that of cholic acid.
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PMID:Effects of cholesterol feeding on synthesis and metabolism of cholesterol and bile acids in germfree rats. 92 16

The adrenal gland requires a continuous supply of cholesterol for the biosynthesis of adrenal corticosteroids, which can be supplied by low density lipoprotein receptor-mediated uptake or local synthesis. The present study examined whether hypolipidemic therapy with a potent HMG CoA reductase inhibitor, simvastatin, compromises the adrenal response to ACTH stimulation in adult patients with heterozygous familial hypercholesterolemia. The adrenal response to a 36-h continuous ACTH infusion was determined at baseline and after 2 months of simvastatin treatment (40 mg, twice daily) in eight patients. Simvastatin reduced total and low density lipoprotein cholesterol levels by 36% and 45%, respectively. The time course of the increase in serum cortisol concentrations with continuous ACTH infusion was the same before and during simvastatin therapy, as were the rates of urinary excretion of free cortisol, 17-hydroxycorticosteroids, and 17-ketosteroids. Urinary excretion of mevalonate, which correlates with rates of whole body cholesterol synthesis, decreased from 3.8 +/- 0.42 (+/- SEM) mu,ol/24 h at baseline to 2.75 +/- 0.56 on simvastatin; no significant changes were seen in the urinary mevalonate levels before and after simvastatin therapy during ACTH stimulation. We conclude that the hypolipidemic effects of simvastatin in patients with heterozygous familial hypercholesterolemia are paralleled by a decrease in urinary mevalonate, but that the drug does not adversely affect ACTH-stimulated adrenal corticosteroid production.
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PMID:The influence of simvastatin on adrenal corticosteroid production and urinary mevalonate during adrenocorticotropin stimulation in patients with heterozygous familial hypercholesterolemia. 184 5

The effects of aging on the hepatic metabolism of cholesterol were studied in 1-, 6- and 24-month-old male Sprague-Dawley rats. Microsomal 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activity, which regulates cholesterol biosynthesis, decreased from 835 +/- 144 (SEM) pmol/min/mg protein in the youngest group to 219 +/- 34 and 205 +/- 53 pmol/min/mg protein (p less than 0.001) in the 6- and 24-month-old groups, respectively. Cholesterol 7 alpha-hydroxylase activity, which governs bile acid synthesis, was gradually reduced from 70 +/- 14 pmol/min/mg protein in the 1-month-old group to 32 +/- 7 and 16 +/- 3 pmol/min/mg protein (p less than 0.05) in the 6- and 24-month-old groups, respectively. Acyl coenzyme A:cholesterol acyltransferase activity, which catalyzes the esterification of cholesterol, averaged 431 +/- 47 and 452 +/- 48 pmol/min/mg protein in the 1- and 6-month-old groups, respectively, and was increased to 585 +/- 55 pmol/min/mg protein (p less than 0.05) in the 24-month-old group. The level of total cholesterol showed an age-related increase from 1.56 +/- 0.16 mg/g liver in the 1-month-old group to 1.70 +/- 0.15 and 2.20 +/- 0.19 mg/g liver (p less than 0.05) in the 6- and 24-month-old groups, respectively. The increase was mainly caused by an accumulation of esterified cholesterol. We conclude that a marked decrease in HMG-CoA reductase occurs between 1 and 6 months of age; thereafter the enzyme activity stays unchanged. The activity of cholesterol 7 alpha-hydroxylase decreases progressively and drastically with age, whereas the capacity for esterifying cholesterol increases slightly.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Age-related changes in the metabolism of cholesterol in rat liver microsomes. 189 80

Patients with heterozygous familial hypercholesterolemia (n = 12) were treated either with pravastatin, a specific inhibitor of HMG-CoA reductase, or cholestyramine, followed by a period of combined treatment with both drugs. Initially, these patients had increased serum levels of low density lipoprotein (LDL) cholesterol (8.77 +/- 0.48 mmol/l; SEM), lathosterol (5.32 +/- 0.60 mg/l), and ubiquinone (0.76 +/- 0.09 mg/l), while the serum dolichol concentration was in the normal range. Cholestyramine treatment (n = 6) decreased the levels of LDL cholesterol (-32%) and increased lathosterol (+125%), but did not change dolichol or ubiquinone levels in a significant manner. Pravastatin treatment (n = 6) decreased LDL cholesterol (-27%), lathosterol (-46%), and ubiquinone (-29%). In this case, the amount of dolichol in serum also showed a small but statistically insignificant decrease (-16%) after 12 weeks of treatment. Combined treatment with cholestyramine and pravastatin (n = 6) resulted in changes that were similar to, but less pronounced than, those observed during pravastatin treatment alone. In no case was the ratio between ubiquinone and LDL cholesterol reduced. Possible effects on hepatic cholesterol, ubiquinone, and dolichol concentrations were studied in untreated (n = 2), cholestyramine-treated (n = 2), and pravastatin-treated (n = 4) gallstone patients and no consistent changes could be observed. The results indicate that treatment with pravastatin in familial hypercholesterolemia decreases serum ubiquinone levels in proportion to the reduction in LDL cholesterol.
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PMID:Effects of pravastatin and cholestyramine on products of the mevalonate pathway in familial hypercholesterolemia. 194 Jun 25

The oral bioavailability of two HMG-CoA reductase inhibitors, pravastatin and lovastatin, was investigated in this randomized, two-way crossover study. Twenty healthy men were randomly assigned to treatment with a 40-mg dose of pravastatin or lovastatin once daily for 1 week; steady state kinetics were assessed after the last dose. After 1 week of washout, each subject received the alternate treatment. Serum specimens were assayed by gas chromatography/mass spectrometry (GC/MS) for intact pravastatin or lovastatin acid and by bioassay for active inhibitor concentration and, after hydrolysis of lactones, for total inhibitor concentration. The systemic bioavailabilities of total (active plus potentially active) inhibitors for the two drugs were different, with the mean AUC value for lovastatin being 50% higher than that of pravastatin (mean +/- SEM AUC0-24 values of 285 +/- 25 and 189 +/- 13 ng-equiv x hr/mL, respectively, P less than .0001). Pravastatin, which is administered as the monosodium salt, is present in the systemic circulation as the open acid; lovastatin, which is administered as the lactone, is present as both open-acid active metabolites (62%) and closed-ring lactone metabolites (38%), which are potentially active. Based on mean AUC values, pravastatin accounted for 75% of the active inhibitors from a pravastatin dose. Lovastatin acid accounted for just 25% of the active inhibitors from a lovastatin dose, with the remainder due to other active metabolites. Significant decreases from baseline in total and low-density lipoprotein (LDL) cholesterol were observed during the first treatment leg for both pravastatin and lovastatin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparative pharmacokinetics and pharmacodynamics of pravastatin and lovastatin. 212 5

The mechanism by which competitive inhibitors of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase decrease serum cholesterol is incompletely understood. The few available data in humans suggest that chronic administration of the competitive inhibitor, lovastatin, decreases serum cholesterol with little or no change in total body sterol synthesis. To further define the effect of lovastatin on cholesterol synthesis in normal subjects, we investigated the effect of a single oral dose of lovastatin and a 4-week treatment period of lovastatin on mononuclear leukocyte (ML) sterol synthesis as a reflection of total body sterol synthesis. In parallel, we measured serum lipid profiles and HMG-CoA reductase activity in ML microsomes that had been washed free of lovastatin. ML sterol synthesis did not significantly decrease (23 +/- 5%, mean +/- SEM) at 3 h after a single 40-mg dose of lovastatin. With a single oral 80-mg dose, ML sterol synthesis decreased by 57 +/- 10% (P less than 0.05) and remained low for the subsequent 6 h. With both doses, total HMG-CoA reductase enzyme activity in microsomes prepared from harvested mononuclear leukocytes was induced 4.8-fold (P less than 0.01) over baseline values. Both the 20-mg bid dose and the 40-mg bid dose of lovastatin administered for a 4-week period decreased serum cholesterol by 25-34%. Lovastatin at 20 mg bid decreased ML sterol synthesis by 23 +/- 6% (P less than 0.02) and increased ML HMG-CoA reductase 3.8 times (P less than 0.001) the baseline values. Twenty four hours after stopping lovastatin, ML sterol synthesis and HMG-CoA reductase enzyme activity had returned to the baseline values. The higher dose of lovastatin (40 mg bid) decreased ML sterol synthesis by 16 +/- 3% (P less than 0.05) and induced HMG-CoA reductase to 53.7 times (P less than 0.01) the baseline value at 4 weeks. Stopping this higher dose effected a rebound in ML sterol synthesis to 140 +/- 11% of baseline (P less than 0.01), while HMG-CoA reductase remained 12.5 times baseline (P less than 0.01) over the next 3 days. No rebound in serum cholesterol was observed. From these data we conclude that in normal subjects lovastatin lowers serum cholesterol with only a modest effect on sterol synthesis. The effect of lovastatin on sterol synthesis in mononuclear leukocytes is tempered by an induction of HMG-CoA reductase enzyme quantity, balancing the enzyme inhibition by lovastatin.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Lovastatin treatment inhibits sterol synthesis and induces HMG-CoA reductase activity in mononuclear leukocytes of normal subjects. 262 21

We evaluated the effects of different doses of lovastatin, a competitive inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A reductase (HMG CoA reductase) and the rate-limiting enzyme in cholesterol biosynthesis, on parameters of cholesterol homeostasis in freshly isolated mononuclear leukocytes from 19 patients with heterozygous familial hypercholesterolemia. Patients were treated with sequentially increasing doses of lovastatin (10 to 80 mg/day in a twice-daily regimen). The in vitro activity of HMG CoA reductase and cholesterol synthesis from 2-14C-acetate was determined in mononuclear cells obtained under steady-state conditions after patients had spent 6 weeks on doses of 20, 40, or 80 mg/day. The total and high affinity degradation of 125I-low density lipoprotein (LDL) was determined at baseline and on lovastatin at a dose of 80 mg/day. LDL cholesterol levels fell progressively on lovastatin (38% reduction on 80 mg daily, p less than 0.005). These changes were paralleled by a 121% increase in the activity of HMG CoA reductase (p less than 0.05) and a 39% increase in cholesterol synthesis from 2-14C-acetate (p less than 0.005). Total and high affinity degradation of 125I-LDL increased from 27 +/- 3.3 and 12.1 +/- 1.6 ng/4 x 10(6) cells/4 hours on the diet only to 69.7 +/- 7.2 and 32.9 +/- 3.6 ng/4 x 10(6) cells/4 hours, respectively, (mean +/- SEM) in mononuclear cells isolated from patients on 80 mg of lovastatin daily (p less than 0.005).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cholesterol homeostasis in mononuclear leukocytes from patients with familial hypercholesterolemia treated with lovastatin. 271 96

The effects of lovastatin, an inhibitor of 3-hydroxy-3-methyl glutaryl coenzyme A reductase (HMG CoA reductase), on 24-hour urinary excretion rates of mevalonic acid (an intermediate in cholesterol biosynthesis) and plasma low-density lipoprotein (LDL) cholesterol concentrations were evaluated in patients with heterozygous familial hypercholesterolemia (FH). The mean rates of urinary mevalonate excretion of 28 FH patients were initially higher (2.95 +/- 0.29 (+/- SEM) mumols/d) than in 17 control subjects (1.82 +/- 0.12 mumols/d). Patients with FH were treated with sequentially increasing doses of lovastatin (10, 20, 40, and 80 mg daily, taken as a twice daily dosage) for a period of 6 weeks on each dose. When compared to baseline, LDL cholesterol levels fell by 22%, 26%, 30%, and 35% respectively, on these different doses. The mean daily urinary mevalonate excretion decreased from baseline by 19% after 4 weeks on 10 mg daily of lovastatin, 35% on 20 mg, and 31% on 40 mg and 80 mg daily. Similar decreases in urinary mevalonate excretions were observed when patients with FH were treated directly with 40 mg (20 mg twice daily) or 80 mg (40 mg twice daily) mg of lovastatin daily. The magnitude of decrease in LDL cholesterol did not show any significant correlation with the changes in urinary excretion of mevalonic acid. Lovastatin therapy decreases rates of urinary mevalonate excretion (which has previously been shown to reflect rates of cholesterol synthesis) by up to 35% at doses of 20 to 80 mg/d; such a decrease seems unlikely to compromise other important cellular requirements for mevalonate.
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PMID:Reduction in plasma low-density lipoprotein cholesterol and urinary mevalonic acid by lovastatin in patients with heterozygous familial hypercholesterolemia. 272 93

The aim of the present study was to characterize the acyl-coenzyme A: cholesterol acyltransferase (ACAT) activity in human liver microsomes. Liver biopsies were obtained from patients undergoing elective cholecystectomy under highly standardized conditions. In 34 patients the enzyme activity of the microsomal fraction averaged 6.6 +/- 0.7 (mean +/- SEM) pmol.min-1.mg protein-1 in the absence of exogenous cholesterol. Freezing of the liver biopsy in liquid nitrogen increased the enzyme activity five- to sixfold. Similarly, freezing of the microsomal fraction prepared from unfrozen liver tissue increased the enzyme activity about twofold. These results may help to explain previous disparate results reported in the literature. The enhanced ACAT activity obtained by freezing was at least partly explained by a transfer of unesterified cholesterol to the microsomal fraction and possibly also by making the substrate(s) more available to the enzyme. Preincubation of the microsomal fraction, prepared from unfrozen liver tissue, with unlabeled cholesterol increased the enzyme activity about fivefold. This finding indicates that hepatic ACAT in humans can also utilize exogenous cholesterol as substrate. Addition of cholesterol to frozen microsomes prepared from unfrozen liver tissue increased the ACAT activity two- to threefold, whereas addition of cholesterol to microsomes prepared from frozen liver tissue did not further increase the enzyme activity. No evidence supporting the concept that ACAT is activated-inactivated by phosphorylation-dephosphorylation could be obtained by assaying the enzyme under conditions similar to those during which the human HMG-CoA reductase is inactivated-activated.
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PMID:Studies on acyl-coenzyme A: cholesterol acyltransferase activity in human liver microsomes. 276 May 47

Nine heterozygous patients with familial hypercholesterolemia (FH) were treated by low density lipoprotein (LDL)-apheresis using dextran sulfate cellulose columns. After more than 3 procedures of LDL-apheresis without drug therapy, combination therapy with LDL-apheresis and CS-514 (eptastatin), an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme (HMG-CoA) reductase, at a dose of 10 mg twice daily was started. Pre- and post-apheresis serum cholesterol levels were decreased significantly by CS-514, from 289 +/- 24 mg/dl (mean +/- SEM) to 247 +/- 25 mg/dl and from 118 +/- 7 mg/dl to 106 +/- 9 mg/dl, respectively. Pre- and post-apheresis apolipoprotein B levels decreased significantly on CS-514 from 160 +/- 9 mg/dl to 138 +/- 8 mg/dl and from 58 +/- 6 mg/dl to 45 +/- 6 mg/dl, respectively. No adverse effects were observed during the combination therapy. Thus, the addition of an inhibitor of HMG-CoA reductase to LDL-apheresis is a useful method for further reducing serum cholesterol and apolipoprotein B levels in FH heterozygotes.
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PMID:Effects of CS-514 (eptastatin), an inhibitor of 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase, on serum lipid and apolipoprotein levels in heterozygous familial hypercholesterolemic patients treated by low density lipoprotein (LDL)-apheresis. 314 45


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