Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0004153 (atherosclerosis)
 77,401 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pharmacological profile of F 12511 (S)-2',3', 5'-trimethyl-4'-hydroxy-alpha-dodecylthio-phenylacetanilide, a new inhibitor of acyl-CoA: cholesterol acyltransferase (EC 2.3.1.26; ACAT), was evaluated by using different in vitro and in vivo models. In vitro, F 12511 was shown to be a highly potent inhibitor of ACAT activity in microsomal preparations from various animal species as well as of cholesterol esterification in relevant human cell lines in culture. The concentrations of F 12511 required to produce 50% inhibition of ACAT activity (IC(50) values) in microsomal preparations ranged from 41nM for hypercholesterolemic rabbit intestine to 223 nM for normocholesterolemic hamster liver. In whole cell assays using hepatic (Hep G2), intestinal (CaCo-2) and macrophagic (THP-1) cell lines, F 12511 inhibited ACAT activity with IC(50) values of 3, 7, and 71 nM, respectively. In vivo, orally administered F 12511 displayed high potency and efficacy as an antihypercholesterolemic compound in different cholesterol-fed animals (rat, guinea-pig, rabbit). For instance, in guinea-pigs the dose required to reduce plasma cholesterol levels by 30% (ED(30) value) was 0.008 mg.kg(-1.) In rabbits, an animal species prone to atherosclerosis, the hypocholesterolemic effect was accompanied by a dose-related reduction in the incidence of aortic fatty streaks that reached asymptote at 2.5 mg.kg(-1) and by an improvement of the impaired endothelial function. When given orally to chow-fed hamsters, F 12511 elicited a dose-related decrease in plasma cholesterol from 9% at 0.63 mg.kg(-1) up to 31% at 40 mg.kg(-1) associated with a preferential reduction in atherogenic lipoproteins, very low density lipoproteins (VLDL) and low density lipoproteins (LDL). Moreover, in the same dose range, F 12511 decreased hepatic cholesteryl ester concentrations and reduced liver ex vivo ACAT activity. By using a bioassay, ACAT inhibitory activity was present in plasma of treated hamsters 1 hr after oral administration of F 12511. Hence, the results in chow-fed hamsters are consistent with systemic and direct hepatic effects of F 12511. In guinea-pigs, an adreno-sensitive species, F 12511 did not impair the adrenal function (adrenocorticotrophic hormone challenge) at doses up to 2.5 mg.kg(-1,) far higher than those eliciting hypocholesterolemic effects in the same species. In conclusion, the results suggest that F 12511, a powerful and systemic ACAT inhibitor, constitutes an appropriate tool to determine whether the inhibition of ACAT constitutes an effective therapy for the treatment of hypercholesterolemia and of atherosclerosis in man.
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PMID:Pharmacological profile of F 12511, (S)-2',3', 5'-trimethyl-4'-hydroxy-alpha-dodecylthioacetanilide a powerful and systemic acylcoenzyme A: cholesterol acyltransferase inhibitor. 1113 14

The short- and long-term in vitro effects of the hydroxymethylglutaryl-CoA reductase inhibitor atorvastatin, compared with lovastatin and simvastatin on VLDL secretion, and on the formation and the neutral and acid lysosomal hydrolysis of cholesteryl esters was investigated in rat liver hepatocytes maintained in suspension (2 or 4 h) or cultured in monolayers (24 h). All statins time-dependently reduced [14C]oleate incorporation into cholesteryl esters, but when exogenous cholesterol was added only atorvastatin caused an immediate transient decrease in hepatocyte ACAT activity. Activity of the lysosomal, microsomal and cytosolic CEH isoforms was unaffected by the hepatocyte treatments. Statins reduced free and esterified cholesterol mass in hepatocyte microsomes after 2 h, and this was followed by a modest decline in VLDL cholesteryl esters, whilst secretion of VLDL apoB and triglycerides was unaltered. However, after 24 h of treatment, statins caused generalized 20-40% decreases in the secretion of VLDL apoB, cholesterol and triglycerides, with the reduction in apoB48 secretion being significantly superior to that caused in apoB100. The mean diameter of secreted VLDL was not modified by either duration or drug treatment. Additional studies with subcellular fractions demonstrated that statins have a direct selective effect on the enzymes governing the cholesterol-cholesteryl ester cycle, with the exception of the microsomal CEH. Atorvastatin, lovastatin and simvastatin inhibited ACAT activity in microsomes by 50% at doses of 250, 100 and 50 microM, respectively. The cytosolic CEH elicited a biphasic profile of activity with activations up to 100 microM statin and inhibitions above 250 microM, and the lysosomal CEH was only inhibited by atorvastatin at a dose of 100 microM or more. We conclude that a prolonged, but not a short, limited availability of hepatocyte cholesterol derived from the endogenous synthesis reduces VLDL secretion, and that reactivity of statins at the cellular level are more similar than reactivity at the subcellular level as regards the cholesterol-cholesteryl ester cycle.
Atherosclerosis 2000 Dec
PMID:Short- and long-term effects of atorvastatin, lovastatin and simvastatin on the cellular metabolism of cholesteryl esters and VLDL secretion in rat hepatocytes. 1116 17

F 12511, a novel ACAT inhibitor, lowers plasma cholesterol levels in New Zealand rabbits fed a cholesterol-free casein-rich diet. In rabbits endogenous hypercholesterolemia pre-established for 8 weeks was used to compare treatments with F 12511 and atorvastatin for a further 8-week period, and to determine whether both agents act synergistically. F 12511 appears to be 3-4-fold more potent than atorvastatin in reducing total plasma cholesterol (active doses ranging from 0.16 to 2.5 and from 1.25 to 10 mg/kg per day, respectively) while the hypocholesterolemic efficacy of both compounds at 2.5 mg/kg per day amounted to 70 and 45%, respectively. A reduction by as much as 75% of esterified cholesterol in liver mediated by F 12511 could account for the decrease of plasma VLDL, LDL and apo B-100, whereas a reduction of the LDL production rate has been described as the main mechanism underlying the atorvastatin effect. F 12511 modified adrenal cholesterol balance only at the largest dose studied. In a further experiment the co-administration of threshold doses of F 12511 and atorvastatin (0.63 and 1.25 mg/kg per day, respectively) lowered plasma total cholesterol and apo B-100 containing lipoproteins to a greater extent and more rapidly than either agent alone. In the liver a decrease by atorvastatin in free cholesterol substrate for ACAT may amplify the effect of F 12511 on cholesteryl ester content leading to a diminution, in at least an additive manner, of the assembly and secretion of atherogenic lipoproteins in New Zealand rabbits which have developed an endogenous hypercholesterolemia. Thus, the combination of the ACAT inhibitor F 12511 with atorvastatin can represent a better approach than either agent alone to regulate lipoprotein metabolism in certain pathophysiological situations.
Atherosclerosis 2001 Mar
PMID:F 12511, a novel ACAT inhibitor, and atorvastatin regulate endogenous hypercholesterolemia in a synergistic manner in New Zealand rabbits fed a casein-enriched diet. 1122 34

Two enzymes are responsible for cholesterol ester formation in tissues, acyl coenzyme A:cholesterol acyltransferase types 1 and 2 (ACAT1 and ACAT2). The available evidence suggests different cell locations, membrane orientations, and metabolic functions for each enzyme. ACAT1 and ACAT2 gene disruption experiments in mice have shown complementary results, with ACAT1 being responsible for cholesterol homeostasis in the brain, skin, adrenal, and macrophages. ACAT1 -/- mice have less atherosclerosis than their ACAT1 +/+ counterparts, presumably because of the decreased ACAT activity in the macrophages. By contrast, ACAT2 -/- mice have limited cholesterol absorption in the intestine, and decreased cholesterol ester content in the liver and plasma lipoproteins. Almost no cholesterol esterification was found when liver and intestinal microsomes from ACAT2 -/- mice were assayed. Studies in non-human primates have shown the presence of ACAT1 primarily in the Kupffer cells of the liver, in non-mucosal cell types in the intestine, and in kidney and adrenal cortical cells, whereas ACAT2 is present only in hepatocytes and in intestinal mucosal cells. The membrane topology for ACAT1 and ACAT2 is also apparently different, with ACAT1 having a serine essential for activity on the cytoplasmic side of the endoplasmic reticulum membrane, whereas the analogous serine is present on the lumenal side of the endoplasmic reticulum for ACAT2. Taken together, the data suggest that cholesterol ester formation by ACAT1 supports separate functions compared with cholesterol esterification by ACAT2. The latter enzyme appears to be responsible for cholesterol ester formation and secretion in lipoproteins, whereas ACAT1 appears to function to maintain appropriate cholesterol availability in cell membranes.
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PMID:Acyl coenzyme A: cholesterol acyltransferase types 1 and 2: structure and function in atherosclerosis. 1126 83

We hypothesized that coadministration of avasimibe and simvastatin would limit size, composition and extent of atherosclerotic lesions and potentially promote lesion regression, since bioavailable ACAT inhibitors decrease monocyte-macrophage enrichment and HMG-CoA reductase inhibitors limit smooth muscle cell migration and proliferation. Male New Zealand white rabbits were sequentially fed a 0.5% cholesterol, 3% peanut oil, 3% coconut oil diet for 9 weeks and a chow-fat diet for 6 weeks prior to drug administration. A time zero control group was necropsied prior to drug administration and the progression control was fed various diets but untreated. Avasimibe (10 mg/kg), simvastatin (2.5 mg/kg) or combination of avasimibe (10 mg/kg) with simvastatin (2.5 mg/kg) were administered in the chow-fat diet for 8 weeks. Plasma total cholesterol exposure was unchanged by avasimibe but was reduced 21% by both simvastatin alone and in combination with avasimibe. Combination of avasimibe and simvastatin decreased VLDL-cholesterol exposure by 56%. VLDL+IDL lipid composition was similar in the progression control and simvastatin-treated animals. Administration of avasimibe alone or in combination with simvastatin reduced the cholesteryl ester fraction and increased the triglyceride fraction to comparable extents. Relative to the progression control, avasimibe plus simvastatin markedly decreased thoracic aortic cholesteryl ester content and lesion coverage by 50% and aortic arch lesion size and macrophage area by 75 and 73%, respectively. With respect to lesion regression, avasimibe+simvastatin decreased aortic arch lesion size by 64% and monocyte-macrophage area by 73% when compared to time zero. Based on these data, we conclude that despite changes in plasma total and lipoprotein cholesterol exposure and lipoprotein composition comparable to monotherapy, inhibition of both ACAT and HMG-CoA reductase may not only directly blunt lesion progression but also promote regression of pre-established atherosclerotic lesions.
Atherosclerosis 2001 Jul
PMID:The combined effect of inhibiting both ACAT and HMG-CoA reductase may directly induce atherosclerotic lesion regression. 1142 8

In this study, we investigated the effect of atorvastatin, an HMG-CoA reductase inhibitor and CL277082, an ACAT inhibitor, on apolipoprotein B48 synthesis, degradation and secretion in transformed human intestinal enterocytes (CaCo2 cells). Cells were incubated with atorvastatin or CL277082 in the absence or presence of sterol containing media and pulsed with [S35]-methionine and chased with unlabelled methionine. Concomitantly, the effect of atorvastatin and CL277082 on the relative amount of apoB48 protein in cells and media was also quantified by western blotting using an apoB antibody and enhanced chemiluminescence. Suppression of cholesterol synthesis with atorvastatin did not attenuate the production or secretion of apoB48 from CaCo2 cells under basal conditions. On the other hand, suppression of cholesterol biosynthesis with atorvastatin under stimulatory conditions accelerated the degradation of apoB48 in cells without affecting its synthesis or secretion. There was no effect of exogenous sterols on apoB48 secretion. Taken together, neither endogenous nor exogenous cholesterol appears to acutely modulate apoB48 secretion from intestinal cells. In contrast, inhibition of cholesterol esterification with ACAT inhibitor significantly attenuated apoB48 secretion under basal and stimulatory conditions by a mechanism which enhanced apoB48 degradation. Collectively, our results suggest that in CaCo2 cells, newly synthesized cholesterol ester may be an immediate regulator apoB48 secretion.
Atherosclerosis 2002 Mar
PMID:Cholesterol esters regulate apoB48 secretion in CaCo2 cells. 1188 17

Inhibition of ACAT, the enzyme which catalyses the intracellular formation of cholesteryl esters, is a very attractive target for the treatment of hypercholesterolaemia and atherosclerosis. However, in the past years many ACAT inhibitors gave disappointing results in clinical trials showing very low efficacy. In addition, their development was affected by the adrenotoxicity observed in many compounds. The discovery of two isoforms of the enzyme, namely ACAT1 and ACAT2, with different substrate specificity and different potential function, offers a precious information for planning selective inhibitors with reduced secondary effects. Today some potent, bioavailable and non adrenotoxic ACAT inhibitors are under clinical evaluation. Amongst others, a very promising compound is Avasimibe, presently in phase III clinical trials as anti-hyperlipidemic and anti-atherosclerotic agent. Finally, ACAT inhibitors have recently been proposed for the treatment of Alzheimer's disease.
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PMID:Selective ACAT inhibitors as promising antihyperlipidemic, antiathero-sclerotic and anti-Alzheimer drugs. 1287 Nov 60

Acyl-coenzyme A:cholesterol acyltransferase (ACAT; Sterol O-acyltransferase/SOAT) is an intracellular enzyme that catalyzes the formation of cholesteryl esters from cholesterol and fatty acyl-coenzyme A. ACAT inhibitors reduce plasma cholesterol levels by suppressing absorption of dietary cholesterol and by suppressing the assembly and secretion of apolipoprotein B-containing lipoproteins such as very low density lipoprotein in liver and chylomicron in intestine. Moreover, ACAT inhibitors prevent the conversion of macrophages into foam cells in the arterial walls. Thus, ACAT inhibitors are under investigation for controlling hypercholesterolemia and the development of atherosclerosis. Some potent ACAT inhibitors have been tested for their efficacy and safety in humans.
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PMID:Acyl-coenzyme A:cholesterol acyltransferase inhibitors for controlling hypercholesterolemia and atherosclerosis. 1458 54

Atherosclerosis is well recognized as an inflammatory disease and circulating markers of inflammation such as C-reactive protein and soluble adhesion molecules are strong predictors of atherosclerotic lesion development and future cardiovascular events. Several cells (endothelial, smooth muscle and macrophages) and proteins (inflammatory cytokines and adhesion molecules) contribute to this inflammatory process and lesion development. Although lipid management with statins does reduce levels of circulating inflammatory markers, this appears to be unrelated LDL-lowering. Thus, the recent focus has been shifted to develop molecules that directly affect the atherosclerotic process without effects on plasma lipids. Much of this research was initially focused on cytokine antagonists and adhesion molecule expression inhibitors, which are now at different stages pre-clinical and clinical development. Additional targets have begun gaining prominence in the past few years -- modulation of proteins involved in reverse cholesterol transport and lipid metabolism in the vessel wall such as ApoA1/apoE/ABCA1, ACAT, and LpPLA2 and regulation of molecules involved in matrix remodeling and cell proliferation such as matrix metalloproteinases and heparan sulfate proteoglycans. The current approaches for the treatment of atherosclerosis are 1) reduction of risk factors for the disease -- e.g., lipids, hypertension and diabetes and 2) direct disease modifiers. The purpose of this review is to examine key scientific advances and the prospect of these approaches in the prevention of cardiovascular disease.
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PMID:Atherosclerosis -- new targets and therapeutics. 1532 Jul 83

In macrophages, the accumulation of cholesteryl esters synthesized by the activated acyl-coenzyme A:cholesterol acyltransferase-1 (ACAT1) results in the foam cell formation, a hallmark of early atherosclerotic lesions. In this study, with the treatment of a glucocorticoid hormone dexamethasone (Dex), lipid staining results clearly showed the large accumulation of lipid droplets containing cholesteryl esters in THP-1-derived macrophages exposed to lower concentration of the oxidized low-density lipoprotein (ox-LDL). More notably, when treated together with specific anti-ACAT inhibitors, the abundant cholesteryl ester accumulation was markedly diminished in THP-1-derived macrophages, confirming that ACAT is the key enzyme responsible for intracellular cholesteryl ester synthesis. RT-PCR and Western blot results indicated that Dex caused up-regulation of human ACAT1 expression at both the mRNA and protein levels in THP-1 and THP-1-derived macrophages. The luciferase activity assay demonstrated that Dex could enhance the activity of human ACAT1 gene P1 promoter, a major factor leading to the ACAT1 activation, in a cell-specific manner. Further experimental evidences showed that a glucocorticoid response element (GRE) located within human ACAT1 gene P1 promoter to response to the elevation of human ACAT1 gene expression by Dex could be functionally bound with glucocorticoid receptor (GR) proteins. These data supported the hypothesis that the clinical treatment with Dex, which increased the incidence of atherosclerosis, may in part due to enhancing the ACAT1 expression to promote the accumulation of cholesteryl esters during the macrophage-derived foam cell formation, an early stage of atherosclerosis.
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PMID:Enhancement of human ACAT1 gene expression to promote the macrophage-derived foam cell formation by dexamethasone. 1535 28


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