Regulation of very-low-density-lipoprotein lipid secretion in hepatocyte cultures derived from diabetic animals.

Hepatocytes were derived from 2-3-day streptozotocin-diabetic rats and maintained in culture for up to 3 days. Compared with similar cultures from normal animals, these hepatocytes secreted less very-low-density-lipoprotein (VLDL) triacylglycerol, but the decrease in the secretion of VLDL non-esterified and esterified cholesterol was not so pronounced. This resulted in the secretion of relatively cholesterol-rich VLDL particles by the diabetic hepatocytes. Addition of insulin for a relatively short period (24 h) further decreased the low rates of VLDL triacylglycerol secretion from the diabetic hepatocytes. The secretion of VLDL esterified and non-esterified cholesterol also declined. These changes occurred irrespective of whether or not exogenous fatty acids were present in the culture medium. Little or no inhibitory effect of insulin was observed after longer-term (24-48 h) exposure to the hormone. Both dexamethasone and a mixture of lipogenic precursors (lactate plus pyruvate) stimulated VLDL triacylglycerol and cholesterol secretion, but not to the levels observed in hepatocytes from normal animals. The low rate of hepatic VLDL secretion in diabetes contrasts with the increase in whole-body VLDL production rate. This suggests that the intestine is a major source of plasma VLDL in insulin-deficient diabetes.     

Diurnal variations in the effects of an unsaturated-fat-containing diet on fatty acid and cholesterol synthesis in rat hepatocytes.

Rats were fed ad libitum on either a standard high-carbohydrate diet, or a standard diet supplemented with 15% corn oil. Hepatocytes were prepared either during the light phase (L2-hepatocytes) or during the dark phase (D6-hepatocytes) of the diurnal cycle. In hepatocytes from rats fed on the fat-containing diet, fatty acid synthesis (lipogenesis) was suppressed to a much greater extent at D6 than at L2. The magnitude of the increase in plasma-free fatty acid concentration was similar at the two times of day. The rate of cholesterol synthesis was also significantly suppressed in the D6- but not in the L2-hepatocytes. This differential inhibition resulted in the abolition of the normal diurnal rhythm of cholesterogenesis. The initial activity of 3-hydroxy-3-methylglutaryl-CoA reductase in hepatocytes was also suppressed by corn-oil feeding at D6 but not at L2. In D6-hepatocytes, the inhibitory effect of the high-fat diet on the conversion of lactate into cholesterol and fatty acids was greater than that on total carbon flux into these substances for all endogenous sources. Despite this, under these conditions a high concentration of lactate and pyruvate resulted in a several-fold stimulation of total carbon flux into fatty acids. In hepatocytes prepared at L2, fat-feeding had little effect on the degree of stimulation of lipogenesis by insulin or inhibition by glucagon. However, at D6, fat-feeding blunted the response of lipogenesis to both these hormones.     

Cholesterol is required for secretion of very-low-density lipoprotein by rat liver.

To study potential effects of hepatic cholesterol concentration on secretion of very-low-density lipoprotein (VLDL) by the liver, male rats were fed on unsupplemented chow, chow with lovastatin (0.1%), or chow with lovastatin (0.1%) and cholesterol (0.1%) for 1 week. Livers were isolated from these animals and perfused in vitro, with a medium containing [2-14C]acetate, bovine serum albumin and glucose in Krebs-Henseleit buffer, and with an oleate-albumin complex. With lovastatin feeding, the hepatic concentrations of cholesteryl esters and triacylglycerols before perfusion were decreased, although free cholesterol was unchanged. However, hepatic secretion of all the VLDL lipids was decreased dramatically by treatment with lovastatin. Although total secretion of VLDL triacylglycerol, phospholipid, cholesterol and cholesteryl esters was decreased, the decrease in triacylglycerol was greater than that in free cholesterol or cholesteryl esters, resulting in secretion of a VLDL particle enriched in sterols relative to triacylglycerol. In separate studies, the uptake of VLDL by livers from control animals or animals treated with lovastatin was measured. Uptake of VLDL was estimated by disappearance of VLDL labelled with [1-14C]oleate in the triacylglycerol moiety, and was observed to be similar in both groups. During perfusion, triacylglycerol accumulated to a greater extent in livers from lovastatin-fed rats than in control animals. The depressed output of VLDL triacylglycerols and the increase in triacylglycerol in the livers from lovastatin-treated animals was indicative of a limitation in the rate of VLDL secretion. Addition of cholesterol (either free cholesterol or human low-density lipoprotein) to the medium perfusing livers from lovastatin-fed rats, or addition of cholesterol to the diet of lovastatin-fed rats, increased the hepatic concentration of cholesteryl esters and the output of VLDL lipids. The concentration of cholesteryl esters in the liver was correlated with the secretion of VLDL by the liver. These data suggest that cholesterol is an obligate component of the VLDL required for its secretion. It is additionally suggested that cholesteryl esters are in rapid equilibrium with a small pool of free cholesterol which comprises a putative metabolic pool available and necessary for the formation and secretion of the VLDL. Furthermore, the specific radioactivity (d.p.m./mumol) of the secreted VLDL free cholesterol was much greater than that of hepatic free cholesterol, suggesting that the putative hepatic metabolic pool is only a minor fraction of total hepatic free cholesterol.     

Effects of hormones and pyruvate on the rates of secretion of very-low-density lipoprotein triacylglycerol and cholesterol by rat hepatocytes

The secretion of very-low-density lipoprotein (VLDL) triacylglycerol and cholesterol was determined under various conditions in hepatocytes prepared from rats maintained on a controlled lighting and feeding schedule. The rate of lipogenesis in hepatocytes prepared from rats during the feeding period was 2-3-fold higher than that in cells prepared immediately before the animals had access to food. However, there were no corresponding changes in the rates of secretion of triacylglycerol and cholesterol. Pyruvate alone stimulated triacylglycerol secretion but had no effect on the secretion of cholesterol. Despite its stimulation of lipogenesis, insulin suppressed the secretion of both triacylglycerol and cholesterol. This effect on triacylglycerol secretion was more pronounced when lipogenesis was enhanced in the presence of pyruvate. Thus, insulin may act to alleviate hypertriglyceridaemia, which may arise during periods of increased hepatic lipogenesis. The inhibitory effect of glucagon on cholesterol secretion was much less pronounced than that on the secretion of triacylglycerol. The inhibitory effects of glucagon were reversed by pyruvate on cholesterol secretion differed according to whether glucagon was present or absent. These results suggest that the rate of hepatic VLDL triacylglycerol secretion is not necessarily coupled to the rate of lipogenesis in the liver; nor is there any obligatory coupling between the output of triacylglycerol and cholesterol associated with VLDL.     

Cholesterol homeostasis in guinea pigs fed saturated and polyunsaturated fat diets

Whole body sterol balance, hepatic 3-hydroxy-3-methylglutaryl coenzyme A (HMG-CoA) reductase activity, hepatic low-density lipoprotein (LDL) receptor levels and net tissue cholesterol concentrations were determined in guinea pigs fed either a corn oil- or lard-based purified diet for 6-7 weeks. In comparison to the saturated lard diet, the polyunsaturated corn oil diet resulted in a 34% reduction in plasma total cholesterol levels (P less than 0.02) and a 40% lower triacylglycerol level (P less than 0.02). Feeding the corn oil diet altered very-low-density lipoprotein (VLDL) and LDL composition; the percent cholesterol ester in both particles was decreased and the relative percentages of VLDL triacylglycerol and LDL phospholipid increased. The ratio of surface to core components of LDL from corn oil-fed guinea pigs was significantly higher compared to LDL from animals fed lard. Dietary fat quality had no effect on fecal neutral or acidic steroid excretion, net tissue accumulation of cholesterol, whole body cholesterol synthesis or gallbladder bile composition. Consistent with these results was the finding that fat quality did not alter either expressed (non-phosphorylated) or total hepatic HMG-CoA reductase activities. The hepatic concentrations of free and esterified cholesterol were significantly increased in corn oil-fed animals, as were cholesterol concentrations in intestine, adipose tissue, muscle and total carcass. Analysis of receptor-mediated LDL binding to isolated hepatic membranes demonstrated that the polyunsaturated corn-oil based diet caused a 1.9-fold increase in receptor levels (P less than 0.02). The data indicate that the hypocholesterolemic effects of dietary polyunsaturated fat in the guinea pig are not attributable to changes in endogenous cholesterol synthesis or catabolism but rather may result from a redistribution of plasma cholesterol to body tissue due to an increase in tissue LDL receptors.     

Effects of dietary cholesterol and fatty acids on plasma cholesterol level and hepatic lipoprotein metabolism

The effects of dietary cholesterol and fatty acids on the plasma cholesterol level and rates of very low density lipoprotein (VLDL) cholesterol secretion and low density lipoprotein (LDL) transport through LDL receptors in the liver of the hamster were investigated. Increases of plasma VLDL- and LDL-cholesterol levels and VLDL-cholesterol secretion from hepatocytes were observed in animals fed a diet enriched with 0.1% cholesterol for 2 weeks in comparison with animals fed a control diet. The addition of dietary palmitic acid accelerated the effect of dietary cholesterol on plasma VLDL- and LDL-cholesterol levels and VLDL-cholesterol secretion from hepatocytes. Dietary linoleic acid accelerated the effect of dietary cholesterol on VLDL-cholesterol secretion from hepatocytes and diminished the effect on the plasma LDL-cholesterol level. Hepatic LDL receptor activity was considerably suppressed by a control diet containing 0.05% cholesterol and a further small suppression was induced by a diet enriched with 0.1% cholesterol with or without 5% palmitic acid. However, dietary linoleic acid diminished the effect of dietary cholesterol on the suppression of hepatic LDL receptor activity. These results suggest that dietary palmitic acid augments the effect of dietary cholesterol in elevating the plasma LDL-cholesterol level through acceleration of VLDL-cholesterol secretion from the liver, and that dietary linoleic acid diminishes the effect of dietary cholesterol in elevating the plasma LDL-cholesterol level by preventing the suppression of hepatic LDL receptor activity induced by cholesterol.     

Synthesis,processing, and secretion of hepatic very low density lipoprotein

Very low density lipoprotein (VLDL) is the major vehicle in the plasma which carries triacylglycerol synthesized in the liver to peripheral tissues for utilization. Estrogen-induced chick parenchymal liver cells (hepatocytes) synthesize and secrete large amounts of VLDL. These cells, in a primary monolayer culture system developed in this laboratory, have been employed to study the operative and regulatory aspects of VLDL synthesis, assembly, and secretion. Some 10 min are required for the translation of the principle VLDL protein constituent, apolipoprotein B, and 30–35 min are required for the two newly translated chick VLDL apolipoproteins, apolipoprotein B and apolipoprotein II, to be secreted. Apolipoprotein B is synthesized on membrane-bound polysomes as a contiguous polypeptide chain of 350K molecular weight (MW) and is not assembled posttranslationally from smaller-peptide precursors. Translocation of puromycin-discharged apolipoprotein B nascent chains into the endoplasmic reticulum lumen and their subsequent secretion are independent of both ongoing protein synthesis and the attachment of the nascent peptides to ribosomes. Apolipoprotein B nascent chains discharged by puromycin assemble with glycerolipid (mainly triacylglycerol) and are secreted as immunoprecipitable VLDL. Core oligosaccharides are added to the apolipoprotein B nascent chain co-translationally in at least two stages, at molecular weights of ～ 120K and ～ 280K. Inhibition of N-linked glycosylation of apolipoprotein B with tunicamycin affects neither the assembly of glycerolipids into VLDL nor the secretion of the VLDL particle, indicating that aglyco-apolipoprotein B can serve as a functional component for VLDL assembly and secretion. Active synthesis of the VLDL apolipoproteins is required, however, for glycerolipid assembly into VLDL and secretion from the hepatocyte. The differential kinetics with which newly synthesized apolipoproteins and glycerolipids are secreted as VLDL and the timing of the effects of protein-synthesis inhibitors on their secretion indicate that VLDL constituents are assembled sequentially in the intact liver cell. The bulk of the VLDL triacylglycerol and some VLDL phosphoglyceride is introduced early in the secretory pathway proximal, yet subsequent to apopeptide synthesis, while a significant fraction of VLDL phosphoglyceride associates with the resulting triacylglycerol-rich lipid-protein complexes just prior to their secretion as mature VLDL. Within the context of current models for VLDL structure, the late assembly of phosphoglyceride into VLDL is taken to represent a surface maturation of the nascent VLDL particle.     

Short- and longer-term regulation of very-low-density lipoprotein secretion by insulin, dexamethasone and lipogenic substrates in cultured hepatocytes. A biphasic effect of insulin.

1. The precise effects of insulin, dexamethasone and lipogenic precursors on the secretion of very-low-density lipoprotein (VLDL) cholesterol and triacylglycerol were dependent on the age of the culture and the duration of treatment. 2. The rates of secretion of triacylglycerol and cholesterol gradually declined with the age of the culture, although there was no detectable decrease within a given 24 h period. 3. Between 4 h and 24 h after cell preparation, insulin inhibited VLDL secretion. Inhibition was maximal between 6 and 12 h after addition of insulin. Longer-term treatment (24-48 h) with insulin resulted in a stimulation of VLDL secretion. This effect was less apparent when dexamethasone was simultaneously present. The secretion of triacylglycerol and cholesteryl ester was more sensitive to insulin than was that of non-esterified cholesterol. 4. Dexamethasone alone stimulated the secretion of VLDL to an extent which increased with the age of the culture. In young cultures (up to 24 h old) dexamethasone protected against inhibition by insulin, but was ineffective in older cultures. 5. In young cultures the stimulatory effect of lipogenic precursors (lactate and pyruvate) on the secretion of triacylglycerol and cholesterol was more pronounced in the presence of dexamethasone. In cultures older than 24 h, the secretion of these components was less sensitive to short-term stimulation by lactate and pyruvate.     

Effect of dietary fat composition on the metabolism of triacylglycerol-rich plasma lipoproteins in the postprandial phase in meal-fed rats

Rats conditioned to eating fixed-size meals (meals at 7 AM and 7 PM), consuming diets rich in palm oil or sunflower seed oil, were used to study the metabolism of chylomicrons and hepatic very low density lipoproteins (VLDL) as a function of time after meal consumption. Rats fed a palm oil diet had higher serum triacylglycerol levels at 7 AM, before the meal (1.96 +/- 0.25 mM vs. 1.09 +/- 0.09 mM) and reached higher levels postprandially (4.32 +/- 0.48 mM vs. 2.87 +/- 0.18 mM) than sunflower seed oil-fed animals, due to higher levels of hepatic VLDL (at 7 AM) and higher levels of chylomicrons and hepatic VLDL (in the postprandial phase). These differences in serum triacylglycerol concentrations between the diets tested were found not to be due to differences in hepatic VLDL triacylglycerol secretion (similar rate for both dietary groups and not very much affected by meal consumption) or chylomicron triacylglycerol secretion (similar response profiles on both diets), pointing towards differences in plasma triacylglycerol catabolism. Subsequent double-label studies on triacylglycerol catabolism of chylomicrons from palm oil- and sunflower seed oil-fed animals in chow-fed recipients showed that palm oil triacyglycerol is catabolized slower than sunflower seed oil triacylglycerol. Furthermore, activities of postheparin plasma lipoprotein lipase tended to be higher in sunflower seed oil-fed animals. From these data we conclude that the relative hypertriglyceridemia found in palm oil-fed animals is due to less efficient catabolism and not to increased synthesis of plasma triacylglycerol.     

Manipulation of cholesterol and cholesteryl ester synthesis has multiple effects on the metabolism of apolipoprotein B and the secretion of very-low-density lipoprotein by primary hepatocyte cultures.

Inhibition of esterified and non-esterified cholesterol synthesis by lovastatin in primary rat hepatocytes suppressed the net synthesis and very-low-density lipoprotein (VLDL) secretion of apolipoprotein B (apoB)-48 and apoB-100. Lovastatin did not alter the rates of apoB-48 and apoB-100 post-translational degradation. 25-Hydroxycholesterol, which inhibited non-esterified cholesterol synthesis but increased the synthesis of cholesteryl ester, showed differential effects on the metabolism of apoB-48 and apoB-100. Whereas the secretion of apoB-48 VLDL was suppressed there was no effect on the secretion of apoB-100 VLDL. The post-translational degradation of apoB-48, but not of apoB-100, was enhanced by 25-hydroxycholesterol. The net synthesis rates of apoB-48 and apoB-100 were unaffected by 25-hydroxycholesterol. The inhibitory effect of lovastatin alone on the net synthesis of apoB-48 and apoB-100 was reversed by the simultaneous presence of 25-hydroxycholesterol, suggesting a role for newly synthesised cholesteryl ester. Prevention of the reversal effect by the acyl-CoA: cholesterol acyltransferase (ACAT) inhibitor YM 17E supported this interpretation. In the presence of lovastatin, restoration of the net synthesis of apoB by 25-hydroxycholesterol was not accompanied by an increased VLDL output of apoB-48 and apoB-100. However, under these conditions there was an increased post-translational degradation of apoB-48 and apoB-100. These results suggest that interference with intracellular cholesterol and cholesteryl ester metabolism interrupts VLDL assembly at sites of both apoB net synthesis and post-translational degradation.     

Secretion of very low density lipoproteins by cultured rabbit hepatocytes with hypercholesteremia, induced by purified cholesterol and containing autooxidation products

To evaluate the impact of oxidized derivatives of cholesterol on the development of hypercholesterolemia in rabbits, the secretion of very low density lipoprotein (VLDL) apoproteins and lipids was studied in cultures of hepatocytes obtained from: i) control rabbits, ii) rabbits fed on purified cholesterol (PCH), and, iii) rabbits fed on old commercial cholesterol (OCH) containing 5% of oxidized cholesterol derivatives. The rabbits fed on OCH for 6 weeks revealed a 5-fold increase in the serum cholesterol level compared with that in PCH-fed rabbits. The secretion of VLDL apoproteins and lipids by hepatocytes of two cholesterol-fed groups was similar, but was 2-3 times as high as that of cells from control rabbits. The cholesterol ester content in hepatocytes and the secretion of VLDL cholesterol esters by hepatocytes from OCH-fed rabbits was dramatically increased in comparison with hepatocytes from control and PCH-fed rabbits. These effects appear to be caused by the activation of cholesterol esterification by oxidized cholesterol derivatives. The rapid development of hypercholesterolemia in OCH-fed rabbits is at least partly associated with the stimulation of hepatic VLDL production.     

Octanoate inhibits very low-density lipoprotein secretion in primary cultures of chicken hepatocytes

The effects of octanoate, a medium-chain fatty acid, on very low-density lipoprotein (VLDL) secretion in primary cultures of chicken hepatocytes were compared with those of palmitate. Palmitate added to the incubation media at concentrations up to 0.36 mM increased intracellular triacylglycerol (TG) accumulation and VLDL-TG secretion in a concentration-dependent manner, whereas the addition of octanoate alone (0.21-0.6 mM) did not change these parameters. VLDL-TG secretion from hepatocytes cultured in media to which 0.6 or 1.0 mM octanoate had been added in the presence of 0.21 mM palmitate was significantly lower than that obtained under control incubation conditions (0.21 mM palmitate only). The addition of 1.0 mM octanoate to the incubation media with or without 0.21 mM palmitate decreased VLDL apolipoprotein B (apoB) secretion. These results demonstrate that the addition of octanoate to primary cultures of chicken hepatocytes reduces VLDL secretion in respect of both TG and apoB secretion. It is suggested that medium-chain fatty acids are a factor modulating VLDL secretion, which plays a key role in fat deposition in chickens.     

Prostaglandins suppress VLDL secretion in primary rat hepatocyte cultures: relationships to hepatic calcium metabolism.

In primary cultures of rat hepatocytes, prostaglandin E2 and prostaglandin D2 (PGE2 and PGD2) inhibited the secretion of very low density lipoprotein (VLDL)-associated apoB, triacylglycerol, and cholesterol. These effects were concentration-dependent and remained apparent for at least 3 days of culture without an effect on the apoB/triacylglycerol ratio of the secreted VLDL. Prostaglandins had no effect on the overall synthesis of triacylglycerol but triacylglycerol accumulated within the cells, without intracellular accumulation of apoB. PGE2, when added to the medium together with glucagon, increased the inhibition of VLDL secretion, compared to that observed with glucagon alone. However, PGE2 did not increase the stimulatory effect of glucagon on ketogenesis. Unlike glucagon, the prostaglandins did not inhibit fatty acid synthesis nor did they stimulate ketogenesis or production of cAMP. Thus, of all the parameters of hepatic lipid metabolism studied, PGE2 and PGD2 selectively affected VLDL. Selective inhibition of VLDL secretion was also observed with the calcium antagonist verapamil. The divalent cation ionophore A23187 also inhibited VLDL release but, in contrast, also inhibited fatty acid and cholesterol synthesis. The results suggest that VLDL secretion is modulated at some optimal cell calcium concentration that may be mediated selectively by agents such as prostaglandins.     

Head group specificity in the requirement of phosphatidylcholine biosynthesis for very low density lipoprotein secretion from cultured hepatocytes

We have demonstrated that hepatic very low density lipoprotein (VLDL) secretion requires active phosphatidylcholine (PC) synthesis via either the CDP-choline pathway or phosphatidylethanolamine (PE) methylation pathway (Yao, Z., and Vance, D.E. (1988) J. Biol. Chem. 263, 2998-3004). In the present work, the head group specificity of phospholipid synthesis required for lipoprotein secretion was investigated in cultured hepatocytes isolated from choline-deficient rats. When N-monomethylethanolamine (0.1 mM) or N,N-dimethylethanolamine (0.1 mM) was added to the culture medium, the cells synthesized correspondingly phosphatidylmonomethylethanolamine (PMME) or phosphatidyldimethylethanolamine (PDME). However, the synthesis of PDME could correct the impaired VLDL secretion only to a limited extent, whereas the synthesis of PMME inhibited VLDL secretion. Although dimethylethanolamine did not promote VLDL secretion as well as choline, dimethylethanolamine altered the increased triacylglycerol synthesis in the choline-deficient cells as effectively as choline. Supplementation of the culture medium with ethanolamine (0.1 mM) had little effect on cellular PE or PC levels, nor was normal VLDL secretion resumed. However, the amounts of cellular PC and PE were both decreased when the medium was supplemented with N-monomethylethanolamine or N,N-dimethylethanolamine. These results suggest that the choline head group moiety of PC is specifically required for normal VLDL secretion and cannot be replaced with ethanolamine, monomethylethanolamine, or dimethylethanolamine. In addition, the impaired VLDL secretion from the choline-deficient hepatocytes could also be corrected by supplementation of betaine (0.2 mM) and homocysteine (0.2 mM), indicating the utilization of a methyl group from betaine for PC formation via methylation of PE.     

Liver Injury and Fibrosis Induced by Dietary Challenge in the Ossabaw Miniature Swine

BackgroundOssabaw miniature swine when fed a diet high in fructose, saturated fat and cholesterol (NASH diet) develop metabolic syndrome and nonalcoholic steatohepatitis (NASH) characterized by liver injury and fibrosis. This study was conducted to further characterize the development of NASH in this large animal model.MethodsOssabaw swine were fed standard chow (control group; n = 6) or NASH diet (n = 6) for 24 weeks. Blood and liver tissue were collected and liver histology were characterized at 0, 8, 16 and 24 weeks of dietary intervention. Hepatic apoptosis and lipid levels were assessed at week 24.ResultsThe NASH diet group developed metabolic syndrome and progressive histologic features of NASH including: (a) hepatocyte ballooning at 8 weeks which progressed to extensive ballooning (>90% hepatocytes), (b) hepatic fibrosis at week 16, which progressed to moderate fibrosis, and (c) Kupffer cell accumulation with vacuolization at 8 weeks which progressed through week 24. The NASH diet group showed increased hepatocyte apoptosis that correlated with hepatic total and free cholesterol and free fatty acids, but not esterified cholesterol or triglycerides.ConclusionsThis report further characterizes the progression of diet-induced NASH in the Ossabaw swine model. In Ossabaw swine fed the NASH diet: (a) hepatocyte injury and fibrosis can occur without macrovesicular steatosis or excess triglyceride accumulation; (b) hepatocyte ballooning generally precedes the development of fibrosis; (c) there is increased hepatocyte apoptosis, and it is correlated more significantly with hepatic free cholesterol than hepatic free fatty acids and had no correlation with hepatic triglycerides.     

Dissociation between rate of hepatic lipoprotein secretion and hepatocyte microtubule content

The fact that colchicines inhibits hepatic secretion of very low density lipoprotein (VLDL) particles has been interpreted to mean that microtubules are involved in hepatic VLDL secretion. To further define this relationship, we have attempted to see if changes in hepatic VLDL secretion are associated with changes in hepatocyte microtubule or tubulin content. Accordingly, hepatic secretion of VLDL was increased in rats, and the hepatocyte content of both microtubules (using quantitative morphometric methods) and tubulin (using a time-decay colchicine binding assay) was determined. In acute experiments, VLDL secretion was increased by perfusion of isolated rat livers for 2 h with varying concentrations of free fatty acids (FFA). Results indicate that hepatic VLDL triglyceride (TG) secretion at perfusate FFA levels of 0.7 μEq/ml is threefold greater (P < 0.01) than when livers are perfused without added FFA. However, no differences are observed in the content of microtubules in these livers: specifically, microtubules occupy 0.029 percent of hepatocyte cytoplasm in livers perfused without FFA and 0.030 percent of cytoplasm in livers perfused with FFA. In chronic experiments, rats were fed for 1 wk with either standard rat chow or a hyperlipidemic (sucrose/lard) diet. With the experimental diet, plasma triglyceride levels increase threefold over controls, and liver VLDL-TG production, as determined by [(3)H]glycerol turnover studies, is 55 percent greater (P < 0.01) than controls. However, microtubules occupy 0.027 percent of the cytoplasm of hepatocyte cytoplasm whether rats are on standard or hyperlipidemic diets. Furthermore, the tubulin content of isolated hepatocytes does change, and represents 1 percent of hepatocyte soluble protein, irrespective of diet. These results suggest that increases in hepatic VLDL secretion can occur without any demonstrable change in hepatocyte assembled microtubule or tubulin content, and raise questions as to the role played by microtubules in hepatic VLDL secretion.     

Influence of the acyl-CoA: cholesterol O-acyltransferase inhibitor, CL 277082, on cholesteryl ester accumulation in rabbit macrophage-rich granulomas and hepatic tissue

The influence of the acyl-CoA: cholesterol O-acyltransferase (ACAT) inhibitor, CL 277082, on macrophage cholesteryl ester accumulation in a rabbit carrageenan granuloma macrophage-foam cell model was studied. Diets were supplemented with 0.3% cholesterol and 6% peanut oil with or without the inhibitor (0.25%) for 4 weeks prior to granuloma induction, and macrophage-rich granuloma tissue was harvested 14 days after carrageenan injection. Serum cholesterol was monitored biweekly, and plasma lipoproteins were isolated terminally. Total, free and esterified cholesterol contents were measured in hepatic and granuloma tissue. In hepatic tissue, administration of CL 277082 resulted in an 80% reduction in the content of total cholesterol, a 37% decrease in free cholesterol, and a 90% decrease in esterified cholesterol. Similarly, in macrophage-rich granuloma tissue, total cholesterol content was decreased by 44%, and esterified cholesterol content by 61%, with no change in free cholesterol. Additionally, CL 277082 was shown to inhibit granuloma tissue ACAT activity by 45%, VLDL mass was decreased slightly, LDL mass increased 3.4-fold and HDL mass was similar in both the inhibitor-treated and control animals. CL 277082 resulted in a 57% decrease in VLDL cholesteryl ester content and a 4.5-fold increase in triacylglycerol. Cholesteryl ester content in LDL was decreased by 31% and LDL triacylglycerol was increased 5.2-fold, while the only change in HDL composition was a 3.5-fold increase in triacylglycerol. The reductions in both hepatic tissue and macrophage-rich granuloma tissue esterified cholesterol accumulation are considered to be due largely to cellular ACAT inhibition, and the altered distribution and composition of the plasma lipoproteins.     

A choline-deficient diet in mice inhibits neither the CDP-choline pathway for phosphatidylcholine synthesis in hepatocytes nor apolipoprotein B secretion

Phosphatidylcholine is a major component of very low density lipoproteins (VLDLs) secreted by the liver. Hepatic phosphatidylcholine is synthesized from choline via the CDP-choline pathway and from the phosphatidylethanolamine N-methyltransferase pathway. Elimination of the methyltransferase in male mice reduces hepatic VLDL secretion. Our objective was to determine whether inhibition of the CDP-choline pathway for phosphatidylcholine synthesis (by restricting the supply of choline) also impaired VLDL secretion. In mice fed a choline-deficient (CD), compared with a choline-supplemented, diet for 21 days, the amounts of plasma apolipoproteins (apo) B100 and B48 were reduced and the liver triacylglycerol content was increased. Hepatocytes were isolated from male mice that had been fed the CD diet for 3 or 21 days, and the cells were incubated with or without choline. The secretion of apoB100 and B48 from CD hepatocytes was not reduced, and triacylglycerol secretion was only modestly decreased, compared with that from cells supplemented with choline. Remarkably, in light of widely held assumptions, the rate of phosphatidylcholine synthesis from the CDP-choline pathway was not decreased in CD hepatocytes. Rather, there was a trend toward increased phosphatidylcholine synthesis that might be explained by enhanced CTP:phosphocholine cytidylyltransferase activity. Although the concentration of phosphocholine in CD hepatocytes was reduced, the size of the phosphocholine pool remained well above the K for the cytidylyltransferase. Moreover, the amount and m activity of the cytidylyltransferase and methyltransferase were increased. The reduction in plasma apoB in mice deprived of dietary choline cannot, therefore, be attributed to decreased apoB secretion.     

The effects of dietary n-3 polyunsaturated fatty acids delivered in chylomicron remnants on the transcription of genes regulating synthesis and secretion of very-low-density lipoprotein by the liver: modulation by cellular oxidative state

The influence of chylomicron remnants enriched in n-3 or n-6 polyunsaturated fatty acids (PUFA) (derived from fish or corn oil, respectively) on the expression of mRNA for four genes involved in the regulation of the synthesis, assembly, and secretion of very-low-density lipoprotein (VLDL) in the liver was investigated in normal rat hepatocytes and after manipulation of the cellular oxidative state by incubation with N-acetyl cysteine (NAC) or CuSO(4). The four genes investigated were those encoding apolipoprotein B (apoB), the microsomal triacylglycerol transfer protein (MTP), and the enzymes acyl coenzyme A:diacylglycerol acyltransferase (DGAT) and acyl coenzyme A:cholesterol acyltransferase 2 (ACAT2), which play a role in the regulation of triacylglycerol and cholesteryl ester synthesis, respectively. mRNA levels for apoB, MTP, and DGAT were unaffected by either fish or corn oil chylomicron remnants, but the amount of ACAT2 mRNA was significantly reduced after incubation of the hepatocytes with fish oil remnants as compared with corn oil remnants or without remnants. These findings indicate that the delivery of dietary n-3 PUFA to hepatocytes in chylomicron remnants downregulates the expression of mRNA for ACAT2, and this may play a role in their inhibition of VLDL secretion. However, when the cells were shifted into a pro-oxidizing or pro-reducing state by pretreatment with CuSO(4) (1 mM) or NAC (5 mM) for 24 hr, levels of mRNA for MTP were increased by about 2- or 4-fold, respectively, by fish oil remnants, whereas corn oil remnants had no significant effect. Fish oil remnants also caused a smaller increase in apoB mRNA in comparison with corn oil remnants in NAC-treated cells (+38%). These changes would be expected to lead to increased VLDL secretion rather than the decrease associated with dietary n-3 PUFA in normal conditions. These findings suggest that relatively minor changes in cellular redox levels can have a major influence on important liver functions such as VLDL synthesis and secretion.     

The 2-series prostaglandins suppress VLDL secretion in an inflammatory condition-dependent manner in primary rat hepatocytes

In the liver, prostaglandins (PG) generated mainly by activated non-parenchymal cells can modulate the parenchymal cell function during homeostasis and inflammation. Whether prostaglandins regulate the hepatocyte VLDL assembling/secretor phenotype in both conditions remains unresolved. We sought to determine whether and how PGE2, PGD2, and PGF2alpha (5 and 50 microM) have a role in VLDL secretion regulation in resting and interleukin-6 (IL-6) stimulated rat hepatocytes. Prostaglandins led to comparable, concentration-dependent reductions in the secretion of VLDL apoB and lipids by resting, 24 h-cultured cells. Moreover, each apoB copy recruited less of each lipid class, correlating with reduced particle size, lipogenesis and cholesterogenesis, and impaired cellular triacylglycerol recycling. Triacylglycerol output reduction occurred early, as the transient PGD2- and PGF2alpha -promoted apoB mRNA decreases. IL-6 markedly increased the apoB mRNA expression and the secretion of its protein in triacylglycerol-poor VLDL. The latter was uniquely blunted by PGE2, which unaffected basal or IL-6-activated apoB gene expression. Collectively, our findings show inflammation condition-based roles for 2-series-prostaglandins in VLDL secretion modulation. Whereas in non-stimulated hepatocytes, they all inhibited VLDL-apoB output, interfered with lipid provision for lipoprotein assembly and may be regarded as pro-steatotic, the anti-inflammatory PGE2 antagonized the IL-6-promoted VLDL secretion contributing in restoring liver homeostasis.