Normal cholesterol absorption in rats deficient in intestinal acyl coenzyme A:cholesterol acyltransferase activity

Acyl coenzyme A:cholesterol acyl transferase and/or cholesterol esterase may regulate the esterification and absorption of exogenous cholesterol. To assess this, mucosal acyl coenzyme A:cholesterol acyl transferase activity was inhibited selectively with three different drugs [Sandoz #58-035, inhibitor 1; Lederle inhibitor 2 and inhibitor 3] and the effect upon the absorption of a [4-14C]cholesterol meal was studied in the lymph fistula rat. Compared to control rats, ACAT activity measured in mucosal homogenates from the drug-treated rats was reduced 80-90%, 40%, and 30%, respectively, during the predicted time-frame for maximum mucosal esterification of cholesterol (i.e., after cholesterol is fed and before it appears in lymph). In contrast, [14C]cholesterol absorption in the drug-treated animals was unchanged from controls [5.7 +/- 1.2 (inhibitor 1) vs. 5.4 +/- 1.6 mumol/6 hr (control); 6.1 +/- 2.1 (inhibitor 2) and 5.2 +/- 1.5 (inhibitor 3) vs. 4.1 +/- 1.3 mumol/6 hr (control)]. Of the absorbed [14C]cholesterol, approximately 75% was esterified in all groups. Cholesterol esterase activity measured in the drug-treated rats was unchanged compared to controls nor did the drugs inhibit this enzyme in vitro. Under the conditions of this study, drugs causing substantial inhibition of acyl coenzyme A:cholesterol acyl transferase activity had no effect on the absorption of exogenous cholesterol.     

The effect of inhibition of cholesterol esterification on the fate of cholesterol derived from HDL in rat hepatocyte monolayers

Rat HDL2 is known to stimulate bile acid synthesis in rat hepatocyte monolayers. The intracellular fate of the cholesterol derived from the HDL2 was studied using the inhibitor of cholesterol esterification, Sandoz compound 58-035. Rat HDL2 added to rat hepatocyte monolayers caused a stimulation of cholesterol esterification of 32%. This stimulation could be inhibited by 58-035. A small significant increase in bile acid synthesis was also observed in cells in the presence of HDL2, confirming our earlier observations. 58-035 prevented this increase. These observations imply that cholesterol entering the cell from HDL2 is first esterified and can only enter the substrate pool for bile acid synthesis after subsequent intracellular hydrolysis.     

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

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

Intracellular processing of exogenously derived non-lipoprotein [3H)cholesterol in normal and mutant human skin fibroblasts deficient in acid sterol ester hydrolase

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.     

Lipogenesis and cholesterogenesis in the liver of rats after cholesterol loading

Intensity of fatty acids and separate classes of lipids synthesis was studied in vitro in the liver of white rats at loading by cholesterol in the dose of 300 mg/kg once a day during 30 days by incubation of organ homogenate with [6-(14)C] glucose, [2-(14)C] lysine, [1-(14)C] palmitic acid with following determination of radioactivity of fatty acids, phospholipids, cholesterol, acylglycerols radioactivity was investigated. The inhibition of fatty acids and separate classes of lipids synthesis in vitro in the liver of white rats at loading by cholesterol at the use of [6-(14)C] of glucose and [2-(14)C] lysine, as predecessors of fatty acids and lipids and stimulation of lipids synthesis at the use of [1-(14)C] palmitic acid as the predecessor was established. The loading of white rats by cholesterol results in its synthesis inhibition in the liver during incubation of its homogenates with [6-(14)C] glucose and does not influence the cholesterol synthesis during incubation of homogenates with [2-(14)C] lysine and [1-(14)C] palmitic acid. Thus synthesis of fatty acids and their use in the phospholipids and acylglycerols synthesis in the liver of white rats with hypercholesterolemia sharply decreases during incubation of their homogenates with [6-(14)C] glucose and [2-(14)C] lysine, and the synthesis of cholesterol, phospholipids and acylglycerols - increases during incubation with [1-(14)C] palmitic acid.     

Effect of dihydroxyacetone and pyruvate on plasma glucose concentration and turnover in noninsulin-dependent diabetes mellitus

Consumption of dihydroxyacetone and pyruvate (DHP) increases muscle extraction of glucose in normal men. To test the hypothesis that these three-carbon compounds would improve glycemic control in diabetes, we evaluated the effect of DHP on plasma glucose concentration, turnover, recycling, and tolerance in 7 women with noninsulin-dependent diabetes. The subjects consumed a 1,500-calorie diet (55% carbohydrate, 30% fat, 15% protein), randomly containing 13% of the calories as DHP (1/1) or Polycose (placebo; PL), as a drink three times daily for 7 days. On the 8th day, primed continuous infusions of [6-3H]-glucose and [U-14C]-glucose were begun at 05.00 h, and at 09.00 h a 3-hour glucose tolerance test (75 g glucola) was performed. Two weeks later the subjects repeated the study with the other diet. The fasting plasma glucose level decreased by 14% with DHP (DHP = 8.0 +/- 0.9 mmol/l; PL = 9.3 +/- 1.0 mmol/l, p less than 0.05) which accounted for lower postoral glucose glycemia (DHP = 13.1 +/- 0.8 mmol/l, PL = 14.7 +/- 0.8 mmol/l, p less than 0.05). [6-3H]-glucose turnover (DHP = 1.50 +/- 0.19 mg.kg-1.min-1, PL = 1.77 +/- 0.21 mg.kg-1.min-1, p less than 0.05) and glucose recycling, the difference in [6-3H]-glucose and [U-14C]-glucose turnover rates, decreased with DHP (DHP = 0.25 +/- 0.07 mg.kg-1.min-1, PL = 0.54 +/- 0.10 mg.kg-1.min-1, p less than 0.05). Fasting and postoral glucose, plasma insulin, glucagon, and C peptide levels were unaffected by DHP.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of the 3''-leaving group on turnover of cephem antibiotics by a class C beta-lactamase.

1. We have previously shown that the capacity for specific binding of human 125I-labelled low-density lipoprotein (LDL) to rat hepatocytes increases with time in culture [Salter, Bugaut, Saxton, Fisher & Brindley (1987) Biochem. J. 247, 79-84]. 2. In the present study we show that this up-regulation is accompanied by a rise in the cholesterol ester content of the cells. 3. Inhibition of cholesterol esterification with the drug 58-035 (Sandoz) significantly decreases the time-dependent 'up-regulation' of LDL receptors. 4. Incubation of hepatocytes with LDL itself has little effect on subsequent LDL binding. However, when cholesterol esterification is inhibited, incubation with LDL decreases binding below that attained with the drug alone. 5. Inhibition of cholesterol synthesis with Lovastatin significantly increases LDL binding and antagonizes the effect of 58-035. 6. We conclude that in hepatocytes the rate of cellular cholesterol esterification can become the major determinant of LDL-receptor activity.     

Rat adrenal uptake and metabolism of high density lipoprotein cholesteryl ester

Metabolism of high density lipoprotein (HDL) cholesteryl ester (CE) by cultured rat adrenal cells was studied. Addition of [3H]CE-HDL to cells pretreated with adrenocorticotrophin in lipoprotein poor media resulted in a time- and concentration-dependent accumulation of [3H]cholesteryl ester and production of [3H]cholesterol and [3H]corticosterone. HDL-CE metabolism could be described as the sum of a high affinity ([ HDL-cholesterol]1/2 max = 16 micrograms/ml) and low affinity ([ HDL-cholesterol]1/2 max greater than 70 micrograms/ml) process. [3H]Cholesterol was found both intracellularly and in the media. Accumulation of [3H]cholesteryl ester could not be attributed to uptake and re-esterification of unesterified cholesterol since addition of Sandoz 58-035, an inhibitor of acyl coenzyme A:cholesterol acyltransferase, did not prevent ester accumulation. Moreover, addition of chloroquine did not inhibit cholesteryl ester hydrolysis indicating that hydrolysis was not lysosomally mediated. Aminoglutethimide prevented conversion of [3H]CE-HDL to steroid hormones but did not inhibit [3H]cholesteryl ester uptake. Cellular accumulation of [3H] cholesteryl ester exceeded accumulation of 125I-apoproteins 5-fold at 1 h and 35-fold at 24 h indicating selective uptake of cholesteryl ester moiety. We conclude that rat adrenal cells possess a mechanism for selective uptake of HDL cholesteryl esters which provides substrate for steroidogenesis. These results constitute the first direct demonstration that cholesteryl esters in HDL can be used as steroidogenic substrate by the rat adrenal cortex.     

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

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

Cholestanol metabolism in patients with cerebrotendinous xanthomatosis: absorption, turnover, and tissue deposition

To study the metabolism of cholestanol in patients with cerebrotendinous xanthomatosis (CTX), we measured the cholestanol absorption, the cholesterol and cholestanol turnover, and the tissue content of sterols in two patients. Cholestanol absorption was approximately 5.0%. The rapid exchangeable pool of cholestanol was 233 mg, and the total exchangeable pool was 752 mg. The production rate of cholestanol in pool A was 39 mg/day. [4-14C]cholestanol was detected in the xanthomas, but neither [4-14C]cholestanol nor [4-14C]cholesterol was detected in peripheral nerves biopsied at 49 and 97 days after [4-14C]cholesterol given intravenously. Of the 18 tissues analyzed at biopsy and autopsy, the cholestanol content varied from 0.09 mg/g in psoas muscle to 76 mg/g in a cerebellar xanthoma. With the assumption that the cholestanol-to-cholesterol ratio is 1.0, the relative cholestanol-to-cholesterol ratio varied from 1.0 in plasma and liver to 30.0 in the cerebellar xanthoma; cholestanol was especially high in nerve tissue. Our data indicate that CTX patients absorb cholestanol from the diet. They have a higher than normal cholestanol production rate. Cholestanol was derived from cholesterol. In CTX patients, the blood-brain barrier was intact to the passage of [4-14C]cholesterol and [4-14C]cholestanol. The deposition of large amounts of cholestanol (up to 30% of total sterols in cerebellum) in nerve tissues must have an important role in the neurological symptoms in CTX patients. In view of the intact blood-brain barrier, several other explanations for the large amounts of cholestanol in the brain were postulated.     

Alterations in cholesterol and fatty acid biosynthesis in rat liver homogenates by aryloxy acids (Short Communication)

2,4-Dichlorophenoxyacetic acid and 2,4,5-trichlorophenoxyacetic acid inhibited the incorporation of [2-(14)C]mevalonate into cholesterol and non-saponifiable lipids. Both compounds inhibited the conversion of [1-(14)C]isopentenyl pyrophosphate into cholesterol and the synthesis of cholesterol and fatty acids from [2-(14)C]acetate. There was no inhibition of the conversion of [1-(14)C]mevalonate into CO(2). At low concentrations (0.5mm) of the compounds there was a stimulation of acetate incorporation into fatty acids.     

Fatty acid specificity of the lysosomal acid cholesterol esterase in intact human arterial smooth muscle cells

The fatty-acid specificity of the lysosomal cholesterol esterase was examined in cultured human arterial smooth muscle cells. The lysosomal compartment of cultured cells was enriched with cholesteryl esters by incubation of cells with 0.2 mg/ml low-density lipoprotein and 50 microM chloroquine for 24 h. The hydrolysis of cholesteryl esters was subsequently induced by incubating cells in a medium containing 5% lipoprotein-deficient serum without chloroquine. Cellular cholesteryl ester mass was markedly reduced after 23 h in the lipoprotein-deficient serum. Fatty-acid analysis of cholesteryl esters in cells before and after the 23 h incubation with lipoprotein-deficient serum revealed that polyunsaturated cholesteryl esters (linoleate and arachidonate) were preferentially hydrolyzed compared to cholesteryl oleate or saturated cholesteryl esters. An increase in the ratio of cholesteryl oleate to cholesteryl linoleate was observed even when the cellular activity of acyl-CoA:cholesterol acyltransferase was inhibited with Sandoz Compound 58-035. We conclude that, in human arterial smooth muscle cells, the lysosomal acid cholesterol esterase preferentially hydrolyzes polyunsaturated cholesteryl esters.     

Effect of furegrelate on renal plasma flow after angiotensin II infusion

We had previously shown that selective thromboxane synthetase inhibition with furegrelate increases urinary excretion of 6-ketoPGF1 alpha, the hydrolysis product of prostacyclin after stimulation of renal prostaglandin synthesis with furosemide. The present study assessed the functional significance of this "redirection" of prostaglandin formation using a more physiologic stimulus, angiotensin II. Sprague-Dawley rats (n = 27) were fitted with a transabdominal bladder cannula. Five days later they were given angiotensin II (10 mg.kg-1.min-1) by intravenous infusion. After 30 min, an infusion of furegrelate, 2 mg/kg, then 2 mg.kg-1.h-1, (n = 9); indomethacin, 2 mg/kg, then 2 mg.kg-1.h-1 (n = 9); or vehicle, 250 microL, then 0.018 mL/min (n = 9) was begun for 60 min. Clearance of [14C]para-aminohippuric acid was taken as a measure of renal plasma flow. Angiotensin II raised the mean arterial pressure in all groups. Administration of furegrelate or indomethacin did not change mean arterial pressure or heart rate. Angiotensin II reduced [14C]p-aminohippuric acid clearance by about 32% (1.42 +/- 0.18 to 0.97 +/- 0.07 mL.min-1.100 g-1, p less than 0.05). Furegrelate attenuated this renal vasoconstriction (0.97 +/- 0.07 to 1.38 +/- 0.17 mL.min-1.100 g-1, p less than 0.05), while indomethacin increased it by a further 32% (1.78 +/- 0.12 to 1.20 +/- 0.12 mL.min-1.100 g-1, p less than 0.05). Vehicle alone had no effect. Furegrelate reduced serum thromboxane B2 by 90% (6.52 +/- 0.030 to 0.7 +/- 0.21 ng/100 microL, p less than 0.05), while indomethacin reduced it by 73% (5.9 +/- 0.99 to 1.4 +/- 0.20 ng/100 microL, p less than 0.05). We conclude that furegrelate attenuates the renal vasoconstriction of angiotensin II, presumably by enhancing the formation of vasodilator prostaglandins.     

Synthesis and hydrolysis of cholesteryl esters by isolated rat-liver lysosomes and cell-free extracts of human lung fibroblasts

The objective of this study was to examine and characterize the cholesteryl ester synthesizing [S] and hydrolyzing [H] properties of the acid cholesteryl ester hydrolase (acid cholesteryl ester hydrolase), both in isolated rat liver lysosomes and in cell-free extracts from cultured fibroblasts. For both liver lysosomes and fibroblasts extracts, the major synthesizing activity was found around pH 4 and did not require exogenous ATP. The rate of hydrolysis was measured at pH 4.5. Several different inhibitors were used in order to characterize the reactions. Ammonium chloride did not markedly affect the activity of acid cholesteryl ester hydrolase at pH 4 [S] or 4.5 [H], whereas chloroquine was a potent inhibitor of acid CEase in both liver lysosomes and fibroblast extracts. The [S] activity of the acid cholesteryl ester hydrolase in either material was not affected by the acylCoA:cholesterol acyltransferase inhibitor Compound 58-035 from Sandoz. Progesterone, on the other hand, which is an often used acylCoA:cholesterol acyltransferase inhibitor, markedly blocked both activities of the acid CEase. Our results indicate that the lysosomal compartment of both studied tissues, in addition to hydrolysis activity, also have a significant esterification activity. It appears that both activities are carried out by the same enzyme.     

Differential responses of a range of photosynthetic tissues to a substituted pyridazinone,sandoz 9785. Specific effects on fatty acid desaturation

The effect of a substituted pyridazinone (4-chloro-5(dimethylamino)-2-phenyl-3(2H)pyridazinone; Sandoz 9785; BASF 13-338) on the formation of fatty acids from radiolabelled precursors has been studied in a number of angiosperms, bryophytes and algae. The labelling of [¹⁴C]linolenic acid was decreased by the herbicide in leaves of barley and rye grass and in cucumber cotyledons regardless of whether [¹⁴C]acetate,[¹⁴C]oleate or [¹⁴C]linoleate was used as precursor. A commensurate increase in the labelling of [¹⁴C]linoleic acid was also observed in these species. In contrast, the pattern of fatty acid labelling in maize, pea and spinach leaves was unaffected by 0.1 mM Sandoz 9785. More generalized inhibition of the incorporation of radioactivity from [¹⁴C]acetate into the fatty acids of bryophytes and algae was seen. Sandoz 9785 did not alter the distribution of radioactivity in different lipid classes of higher plant leaves, nor did it change the proportions of radioactive fatty ac ids in phosphatidylcholine. In contrast to phosphatidylcholine, which never contained more than trace amounts of [¹⁴C]linolenate, diacylgalactosylglycerol contained high levels of the radioactive acid. The relative labelling of linolenate was severely reduced in diacylgalactosylglycerol by Sandoz 9785 in sensitive angiosperms. Uptake studies, in which [³H]Sandoz 9785 was employed demonstrated that the uptake of Sandoz 9785 was reflection of water uptake. Following its uptake, Sandoz 9785 was rapidly converted into other compounds in pea but only gradually metabolized in cucumber and ryegrass. The results are interpreted as showing, firstly, that the different sensitivity of higher plants to Sandoz 9785 is due to variations both in uptake and in metabolism. Secondly, Sandoz 9785 specifically inhibits the desaturation of linoleate to linolenate and, thirdly, diacylgalactosylglycerol plays a role in this conversion.     

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

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

Metabolism of sialic acids from exogenously administered sialyllactose and mucin in mouse and rat

A mixture of N-acetyl-[4,5,6,7,8,9-14C]neuraminosyl-alpha (2-3(6]-galactosyl-beta (1-4-glucose[( 14C]sialyl-lactose) and N-acetylneuraminosyl-alpha (2-3(6]-galactosyl-beta(1-4)-glucit-1-[3H]ol(sialyl-[3H]lactitol) as well as porcine submandibular gland mucin labeled with N-acetyl- and N-glycoloyl-[9-(3)H]neuraminic acid were administered orally to mice. The distribution of the different isotopes was followed in blood, tissues and excretion products of the animals. One half of the [14C]sialyl-lactose/sialyl-[3H]lactitol mixture given orally was excreted unchanged in the urine. The other half was hydrolysed by sialidase and partly metabolized further, followed by the excretion of 30% of the 14C-radioactivity as free N-acetyl-[4,5,6,7,8,9-14C]neuraminic acid and 60% of this radioactivity in the form of non-anionic compounds including expired 14CO2 within 24 h. The 14C-radioactivity derived from the [14C]sialyl-lactose/sialyl-[3H]lactitol mixture which remained in the bodies of fasted mice after 24 h was less than 1%. In the case of well-fed mice, a higher amount of the sialic acid residues was metabolized. The bulk of radioactivity of the mucin was resorbed within 24 h. About 40% of the radioactivity administered was excreted by the urine within 48 h; 30% of this radioactivity represented sialic acid and 70% other anionic and non-anionic metabolic products. 60% of the radioactivity administered remained in the body, and bound 3H-labeled sialic acids were isolated from liver. Sialyl-alpha (2-3)-[3H]lactitol was injected intravenously into rats; the substance was rapidly excreted in the urine without decomposition. These studies show that part of the sialic acids bound to oligosaccharides and glycoproteins can be hydrolysed in intestine by sialidase and be resorbed. This is followed either by excretion as free sialic acid or by metabolization at variable degrees, which apparently depends on the compound fed and on the retention time in the digestive tract.     

Acyl-coenzyme A:cholesterol acyltransferase promotes oxidized LDL/oxysterol-induced apoptosis in macrophages

7-Ketocholesterol (7KC) is a cytotoxic component of oxidized low density lipoproteins (OxLDLs) and induces apoptosis in macrophages by a mechanism involving the activation of cytosolic phospholipase A2 (cPLA2). In the current study, we examined the role of ACAT in 7KC-induced and OxLDL-induced apoptosis in murine macrophages. An ACAT inhibitor, Sandoz 58-035, suppressed 7KC-induced apoptosis in P388D1 cells and both 7KC-induced and OxLDL-induced apoptosis in mouse peritoneal macrophages (MPMs). Furthermore, compared with wild-type MPMs, ACAT-1-deficient MPMs demonstrated significant resistance to both 7KC-induced and OxLDL-induced apoptosis. Macrophages treated with 7KC accumulated ACAT-derived [14C]cholesteryl and [3H]7-ketocholesteryl esters. Tandem LC-MS revealed that the 7KC esters contained primarily saturated and monounsaturated fatty acids. An inhibitor of cPLA2, arachidonyl trifluoromethyl ketone, prevented the accumulation of 7KC esters and inhibited 7KC-induced apoptosis in P388D1 cells. The decrease in 7KC ester accumulation produced by the inhibition of cPLA2 was reversed by supplementing with either oleic or arachidonic acid (AA); however, only AA supplementation restored the induction of apoptosis by 7KC. These results suggest that 7KC not only initiates the apoptosis pathway by activating cPLA2, as we have reported previously, but also participates in the downstream signaling pathway when esterified by ACAT to form 7KC-arachidonate.     

Inhibition of acyl coenzyme A:cholesterol acyl transferase in J774 macrophages enhances down-regulation of the low density lipoprotein receptor and 3-hydroxy-3-methylglutaryl-coenzyme A reductase and prevents low density lipoprotein-induced cholesterol accumulation

Cholesteryl ester accumulation in arterial wall macrophages (foam cells) is a prominent feature of atherosclerotic lesions. We have previously shown that J774 macrophages accumulate large amounts of cholesteryl ester when incubated with unmodified low density lipoprotein (LDL) and that this is related to sluggish down-regulation of the J774 LDL receptor and 3-hydroxy-3-methylglutaryl-coenzyme A reductase. To further explore intracellular cholesterol metabolism and regulatory events in J774 macrophages, we studied the effect of inhibitors of acyl-CoA:cholesterol acyl transferase (ACAT) on the cells' ability to accumulate cholesterol and to down-regulate receptor and reductase. Treatment of J774 cells with LDL in the presence of ACAT inhibitor 58-035 (Sandoz) prevented both cholesteryl ester and total cholesterol accumulation. Furthermore, 58-035 markedly enhanced down-regulation of the J774 LDL receptor and 3-hydroxy-3-methylglutaryl-CoA reductase in the presence of LDL. In dose-response studies, down-regulation of the receptor by 58-035 paralleled its inhibition of ACAT activity. Compound 58-035 also increased the down-regulation of the J774 LDL receptor in the presence of 25-hydroxycholesterol and acetyl-LDL but not in the presence of cholesteryl hemisuccinate, which is not an ACAT substrate. The ability of 58-035 to enhance LDL receptor down-regulation was negated when cells were simultaneously incubated with recombinant high density lipoprotein3 discs, which promote cellular cholesterol efflux. In contrast to the findings with J774 macrophages, down-regulation of the human fibroblast LDL receptor was not enhanced by 58-035. These data suggest that in J774 macrophages, but not in fibroblasts, ACAT competes for a regulatory pool of intracellular cholesterol, contributing to diminished receptor and reductase down-regulation, LDL-cholesterol accumulation, and foam cell formation.     

Stimulation of polyunsaturated fatty acid oxidation in myocytes by regulating its cellular uptake. On the rate limiting step of polyunsaturated fatty acid oxidation in heart.

In order to investigate the regulation of polyunsaturated fatty acid oxidation in the heart, the effect of the phosphodiesterase inhibitor enoximone on the oxidation of [1-14C] arachidonic acid, and [1-14C] arachidonyl-CoA, were studied in adult rat myocytes, and isolated rat heart mitochondria. Enoximone stimulated arachidonate oxidation by 94%, at a concentration of 0.25 mM. The apparent Vmax value of arachidonate oxidation in the presence of enoximone (6.98 nmol/mg protein/30 min), was approximately 75% higher than the value observed with the control (4.0 nmol/mg protein/30 min) in isolated myocytes. Also, enoximone stimulated arachidonate uptake by 27% at a concentration of 0.25 mM. On the other hand, enoximone had no effect on the oxidation of [1-14C] arachidonyl-CoA in isolated rat heart mitochondria. These results suggest that the oxidation of polyunsaturated fatty acids in myocytes is regulated by the rate of uptake of these acids across sarcolemmal membranes.