Calcitonin action on ATP citrate lyase activity in the hepatic cytosol of fed rats and its calcium-calmodulin dependency

The effect of calcitonin (CT) on ATP citrate lyase activity in the hepatic cytosol was investigated after a single subcutaneous administration of the hormone to fed rats. Administration of CT (synthetic [Asu107] eel CT; 80 MRC mU/100 g body weight) produced significant increases in ATP citrate lyase activity and calcium content in the hepatic cytosol of intact and thyroparathyroidectomized rats. Those alterations were also observed with the dose of CT at physiological level. The increased cytosolic ATP citrate lyase activity resulting from CT administration was prevented by treatment with 10 microM EGTA. This enzyme activity was restored by addition of calcium ion (2.5-10 microM). The rise in enzyme activity of CT-treated rats was markedly reduced by the presence of W-7 (10 and 100 microM), a calmodulin inhibitor, in the enzyme assay system, while that of control rats was not significantly altered by the drug. These results suggest that CT increases ATP citrate lyase activity in the hepatic cytosol of fed rats, and that this hormonal regulation may depend on calmodulin, and be mediated through raised calcium in the cytosol.     

Calcitonin and hepatic fatty acid synthesis: effect of thyroparathyroidectomy on the elevation of ATP citrate lyase activity by refeeding of starved rats

The effect of thyroparathyroidectomy (TPTX) on ATP citrate lyase regulation, a rate-limiting enzyme of fatty acid synthesis in hepatic cytosol, was investigated in rats refed after a 24 h fast. ATP citrate lyase activity in the hepatic cytosol was increased 2-fold by refeeding. This increase was suppressed about 50% by TPTX. The suppression of the enzyme activity by TPTX was completely restored by administration of calcitonin (CT; 80 MRC mU/100 g body weight). This hormonal effect was also observed at 20 MRC mU/100 g dose of CT. CT administration to refeeding-TPTX rats produced a significant increase in the calcium content of the liver tissue and the cytosol. The cytosolic ATP citrate lyase activity increase with CT administration was completely blocked by treatment of cytosol with EGTA (10 microM). This inhibition was clearly reversed by addition of calcium ion (1.25-5.0 microM). In addition, CT-induced rise in enzyme activity was markedly reduced by the presence of W-7 (5 and 50 microM), a calmodulin inhibitor, in the enzyme assay system. The present results suggest that CT plays a role in the elevation of hepatic ATP citrate lyase activity brought about by refeeding of fasted rats, and that this hormonal regulation might depend on Ca2+-calmodulin.     

Effect of calcitonin on fructose 1,6-diphosphatase activity in rat liver: role of cytosolic calcium concentration

The effect of calcitonin (CT) on fructose 1,6-diphosphatase activity in the hepatic cytosol was investigated after a single subcutaneous administration of the hormone to rats. Administration of CT (synthetic [Asu1,7] eel CT; 80 MRC mU/100 g body weight) produced significant increase in fructose 1,6-diphosphatase activity and calcium content in the hepatic cytosol of intact and thyroparathyroidectomized rats. Those alterations were also observed with the dose of CT at physiological level. The binding of calcium by 10 microM EGTA in the hepatic cytosol caused a clear reduction of the increase in fructose 1,6-diphosphatase activity produced by CT administration. The enzyme activity of CT-treated rats was markedly reduced by W-7 (100 microM), calmodulin inhibitor, while that of control rats was not significantly altered by the drug. Meanwhile, fructose 1,6-diphosphatase activity in the hepatic cytosol obtained from normal rats was significantly enhanced by addition of calcium ion (0.1-5.0 microM). This increase was also clearly inhibited by W-7. These results suggest that CT increases fructose 1,6-diphosphatase activity in the hepatic cytosol of rats, and that this hormonal regulation may depend on calmodulin, mediated through calcium increased in the cytosol.     

Stimulatory effect of calcitonin on fatty acid synthesis in the liver of fed rats

The effect of calcitonin (CT) on free fatty acid concentration in the serum and liver of fed rats was investigated. A single subcutaneous administration of CT (synthetic [Asu1,7] eel CT;80 MRC mu/100 g body weight) produced a significant increase in serum free fatty acid concentration. An appreciable effect of CT was observed at a dose of 5 MRC mU/100 g body weight. The hormonal effect was also observed in thyroparathyroidectomized rats. The effect of CT on serum free fatty acid was diminished by fasting. Free fatty acid content in the hepatic cytosol of fed rats was markedly increased by CT administration. The hormonal effect was observed at a dose of 5 MRC mU/100 g body weight. Furthermore, stimulation of fatty acid synthesis caused by intraperitoneal injection of alanine (1.122 mmoles/100 g body weight) was markedly enhanced by administration of CT (5, 20 and 80 MRC mU/100 g body weight). This effect of CT on the liver may be the cause of increased level of fatty acid in the serum. The present results suggest that CT may stimulate synthesis of free fatty acid in the liver of fed rats.     

Suppressive role of endogenous regucalcin in the enhancement of nitric oxide synthase activity in liver cytosol of normal and regucalcin transgenic rats

The suppressive role of endogenous regucalcin, which is a regulatory protein of calcium signaling, in the enhancement of nitric oxide (NO) synthase activity in the liver cytosol of rats was investigated. The enzyme activity was measured in a reaction mixture containing either vehicle or calcium chloride (1-20 microM) in the absence or presence of regucalcin (0.1, 0.25, or 0.5 microM). NO synthase activity was significantly increased by the addition of calcium (5-20 microM). This increase was completely abolished in the presence of trifluoperazine (TFP; 10-50 microM), an antagonist of Ca(2+)/calmodulin. The addition of regucalcin (0.1-0.5 microM) caused a significant fall in the calcium-increased enzyme activity. The effect of regucalcin (0.25 microM) in decreasing NO synthase activity was seen in the presence of ethylene glycol bis-(2-aminoethylether) N,N,N',N'-tetraacetic acid (EGTA, 1 mM) or TFP (20 microM), indicating that regucalcin acts independent on Ca(2+)/calmodulin. NO synthase activity was significantly raised in the presence of anti-regucalcin monoclonal antibody (10-50 ng/ml) in the reaction mixture. The effect of the antibody (50 ng/ml) or calcium (10 microM) in elevating NO synthase activity in the liver cytosol of normal rats was not seen in the liver cytosol obtained from regucalcin transgenic rats. Moreover, the increase in NO synthase activity in the liver cytosol of normal rats induced by a single intraperitoneal administration of calcium (5.0 mg/100 g body weight) was significantly enhanced in the presence of anti-regucalcin monoclonal antibody (50 ng/ml) in the reaction mixture. The administration of calcium caused a significant increase in regucalcin level in the liver cytosol of normal rats. The present study demonstrated that endogenous regucalcin plays a suppressive role in the enhancement of NO synthase activity in the liver cytosol of rats.     

Mercury inhibition of avian fatty acid synthetase complex.

(1) Subcutaneous or intra-abdominal injections of 8 mg of HgCl2/100 g body weight markedly depressed hepatic fatty acid synthetase activity of chicks at 1 h post-injection. The depression occurred despite the fact that the chicks continued to eat up until the time they were killed. Under these same conditions, the hepatic activity of acetyl-CoA carboxylase (EC 6.4.1.2) was not affected by HgCl2, while the activity of the mitochondrial system of fatty acid elongation was stimulated. (2) When 2-mercaptoethanol was included in the incubation medium for a highly purified preparation of fatty acid synthetase, 500 muM HgCl2 was required to show definite inhibition of the enzyme. When 2-mercaptoethanol was omitted, 50 muM HgCl2 was inhibitory and 100 muM HgCl2 abolished enzyme activity. (3) 2 mM dithiothreitol completely protected the purified fatty acid synthetase preparation from inhibition by 100 muM HgCl2. When dithiothreitol was added after the addition of enzyme to the mercury-containing medium, protection of the enzyme was not complete. (4) Dialysis of cytosol fractions from chicks injected with HgCl2 against 500 vol. of 0.2 M potassium phosphate buffer (pH 7.0) containing 1 mM EDTA and 10 mM dithiothreitol for 4 h at 4 degrees stimulated the fatty acid synthetase activity of the fractions. Dialysis of cytosol fractions from noninjected chicks under the same conditions was without effect on fatty acid synthetase activity. (5) These data support the hypothesis that the inhibitory effect of HgCl2 administered in vivo on hepatic fatty acid synthetase activity in chicks is mediated through the interaction of mercury with the sulfhydryl groups of the enzyme.     

Binding of specific ATP citrate lyase and fatty acid synthetase antibodies to heavy populations of rat liver polysomes.

The polysome fractions involved in the synthesis of the rat-liver inducible lipogenic enzymes, ATP citrate lyase and fatty acid synthetase, were identified by their binding of radioiodinated specific antibodies to enzyme. Both of these populations of specific polysomes were shown to be markedly heavier than specific polysomes involved in albumin synthesis. The quanity of antibody bound to the lipogenic enzyme-related polysomes was markedly affected by the dietary status of the animal. A dietary regimen which induced ipogenesis resulted in a tenfold increase in the hepatic activities of these enzymes found in normally fed animals. The radioactivity bound to hepatic polysomes of induced rats was likewise greater than tenfole higher, presumably reflecting an increase in the number of polysomes active in enzyme synthesis. The fasting state resulted in lower hepatic enzyme activity than normal and correspondingly less binding of ATP citrate lyase and fatty acid synthetase antibodies to the heavy polysomes of the sucrose gradient.     

FATTY ACID SYNTHETASE OF BRAIN: DEVELOPMENT, INFLUENCE OF NUTRITIONAL AND HORMONAL FACTORS AND COMPARISON WITH LIVER ENZYME

Abstract— The activity of fatty acid synthetase was studied in the brain and liver of the developing rat. Synthetase activity in brain was considerably higher in foetal and suckling rats than in older animals However, except for a small transient rise in the perinatal period, activity in liver was low until weaning when a dramatic rise occurred. Activity in brain varied according to the quantity of dietary fat only in long-term experiments, whereas in liver nutritional influences clearly predominated in determining the rapid developmental changes of synthetase activity. Administration of hydrocortisone diminished hepatic activity but did not change brain synthetase. In the hypothyroid state activity in brain and liver was consistently decreased. However, in the hyperthyroid state hepatic activity increased but activity in brain did not change. The relatively high activity of fatty acid synthetase during brain development has been discussed in relation to the critical role of this enzyme system in brain metabolism. The effect of the hypothyroid state on the activity of brain synthetase suggests the possibility of hormonal control of this enzyme activity. The responses of hepatic synthetase to the hormonal influences delineate a specific step by which these compounds may exert their effect on fatty acid biosynthesis.     

Coordinate control of rat liver lipogenic enzymes by insulin

Recent evidence has established that insulin is required for the dietary induction of rat liver fatty acid synthetase [Proc. Nat. Acad. Sci. USA69, 3516 (1972)]. Since other hepatic lipogenic enzymes as well as fatty acid synthetase exhibit coordinate adaptation to nutritional changes [Advan. Enzyme Regul.10, 187(1972)], the role of insulin in the dietary induction of these enzymes has been investigated. When a high-carbohydrate, fat-free diet was fed to diabetic rats previously fasted for 48 hr, insulin was shown to be required for the dietary induction of acetyl-CoA carboxylase, citrate cleavage enzyme, malic enzyme, glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, fatty acid synthetase, and glucokinase. Activity of serine dehydrase, selected as a model gluconeogenic enzyme, was increased in diabetic rats, whereas insulin treatment reduced the activity of this enzyme during the course of refeeding. The behavior of serine dehydrase was consistent with its gluconeogenic role. The activity of the cytosol isocitrate dehydrogenase did not change during refeeding in the diabetic or insulin-treated diabetic rat. Glucagon, the physiological antagonist of insulin, inhibited the increase in activity of each of the lipogenic enzymes requiring insulin for induction. Our results indicate that insulin is required for the coordinate regulation of the lipogenic enzymes of mammalian liver.     

Suppressive role of endogenous regucalcin in the regulation of protein phosphatase activity in rat renal cortex cytosol

The role of endogenous regucalcin, which is a regulatory protein of calcium signaling, in the regulation of protein phosphatase activity in the cytosol of rat renal cortex was investigated. Protein phosphatase activity toward phosphotyrosine, phosphoserine, and phosphothreonine was found in the cytosol of kidney cortex. The addition of regucalcin (50-250 nM) in the enzyme reaction mixture caused a significant decrease in protein phosphatase activity toward three phosphoamino acids. The effect of calcium (25 microM) and calmodulin (2.5 microg/ml) in increasing protein phosphatase activity toward three phosphoamino acids was significantly decreased by the addition of regucalcin (100 nM). Protein phosphatase activity toward three phosphoamino acids was significantly increased in the presence of anti-regucalcin monoclonal antibody (10-50 ng/ml) in the enzyme reaction mixture. The effect of antibody (25 ng/ml) in increasing the enzyme activity was significantly inhibited by cyclosporin A (10(-5) M) or vanadate (10(-5) M). Regucalcin in the kidney cortex cytosol was clearly decreased by the administration of saline (0.9% NaCl) for seven days in rats. Protein phosphatase activity toward three phosphoamino acids was significantly decreased by saline administration. The effect of anti-regucalcin antibody (25 ng/ml) in increasing protein phosphatase activity toward three phosphoamino acids was not seen in the renal cortex cytocol of saline-administered rats. The present study demonstrates that endogenous regucalcin plays a suppressive role in the regulation of protein phosphatase activity in the cytoplasm of rat kidney cortex.     

Calcitonin increases pyruvate carboxylase activity in hepatic mitochondria of rats

The effect of calcitonin (CT) on calcium content and enzyme activity in the hepatic mitochondria of intact rats was investigated. A single subcutaneous administration of CT (80 MRC mU/100 g BW) produced a significant increase in the content of calcium, the activity of pyruvate carboxylase, succinate dehydrogenase and ATPase 15 min after the hormone treatment. The significant increases in calcium content and pyruvate carboxylase activity were also observed 30 min after CT administration, while succinate dehydrogenase and ATPase activity began to decrease. A physiological dose of CT (20 MRC mU/100 g BW) caused a marked increase in calcium content and pyruvate carboxylase activity but not succinate dehydrogenase of ATPase-activity. The removal of calcium by 10 mM EGTA washing of the mitochondria produced a remarkable reduction in pyruvate carboxylase activity increased by CT administration. The addition of calcium ion of 2.5 x 10(-2) - 2.5 x 10(1) nmoles Ca2+ per mg mitochondrial protein produced a marked increase in pyruvate carboxylase activity. The present results suggest that calcium taken up by the hepatic mitochondria after CT administration activates pyruvate carboxylase.     

Fatty acid synthetase activity in the liver and adipose tissue of rats fed with various carbohydrates

1. The inclusion of sucrose in the diet of rats led to an increase in hepatic fatty acid synthetase activity compared with that of rats fed with starch as the sole carbohydrate. The higher activity occurred within 18h of the introduction of sucrose and persisted with fluctuations for the 30 days of the experiment. Reversal of the diets in some rats after 21 days led to changes in the enzyme activity to values appropriate to the second diet. The plasma triglyceride concentration followed a similar pattern. 2. A comparison of the effects of diets with starch, glucose, maltose, sucrose or fructose showed that fructose gave the highest values of triglyceride content and of fatty acid synthetase activity in liver, but the lowest values of the synthetase activity in adipose tissue and the lowest values of plasma insulin concentration. These effects may perhaps be attributed to the low insulin response to fructose and to the high affinity of the liver for this sugar. 3. When the diet contained fructose or sucrose there was a correlation between hepatic synthetase activity and plasma triglyceride concentration. Neither of these, however, was related to plasma insulin concentration. On the other hand, there was a correlation between plasma insulin concentration and fatty acid synthetase activity in adipose tissue. 4. When rats were starved and then re-fed the differences in enzyme activities induced by fructose or glucose were minimized. This, together with the varying degree of difference during the course of the experiments, may explain why other workers, using the starvation-re-feeding technique and making measurements on one day only, have failed to observe differences in the activities of lipogenic enzymes in animals fed with either fructose or glucose.     

Induction of 3-hydroxy-3-methylglutaryl coenzyme A reductase activity in foetal rats by maternal cholestyramine feeding

Late gestation foetus from rats fed a non-absorbable bile acid binding resin (cholestyramine) have increased hepatic 3-hydroxy-3-methylglutaryl coenzyme A reductase activity. This was due to increased unphosphorylated (active) as well as total reductase and was accompanied by higher fatty acid synthetase activity. No increase in foetal hepatic cystathionase or tyrosine aminotransferase activity, or changes in plasma insulin, corticosterone or thyroxine were found. The studies demonstrate that foetal hepatic cholesterol metabolism is sensitive to drug-induced perturbation of maternal lipoprotein metabolism. The data suggest induction of foetal cholesterol and fatty acid synthesis by a specific mechanism not involving generalized hormone-induction of hepatic enzyme systems. Cholestyramine appears to have application for in vivo study of the regulation of foetal cholesterologenesis and its coordination to maternal and foetal steroid requirements.     

Studies on the mechanism of the effects of experimental inflammation on adaptive synthesis of rat liver fatty acid synthetase

The mechanism of suppression, by experimental inflammation of the usual increase in hepatic fatty acid synthetase activity resulting from fat-free feeding following starvation (adaptive synthesis), was investigated immunochemically. That suppression results from changes in amount of hepatic fatty acid synthetase was shown by the observation that fatty acid synthetase preparations from inflamed and uninflamed animals, exhibiting a wide variety of specific enzyme activities, had identical immunochemical equivalence points. In confirmation of this, the amounts of fatty acid synthetase, determined by radial immunodiffusion in gels containing anti-fatty acid synthetase serum, varied concomitantly with changes in enzyme activity regardless of the relative times of inflammation and onset of adaptive synthesis. Serum insulin levels were not dramatically elevated during the first 48 h of fat-free feeding, but rose markedly thereafter. Inflammation, either alone or combined with fat-free feeding, resulted in increased serum glucose levels, followed by a similar pattern of increased serum insulin levels some 12 h later. Fat-free feeding did not affect serum cortisol levels, but depressed liver cyclic AMP. Inflammation invariably resulted in a marked increase in serum cortisol within 12 h and a concomitant elevation of hepatic cyclic AMP, indicating possible roles for cortisol and cyclic AMP in suppression of hepatic fatty acid synthetase synthesis.     

Studies on the mechanism of action of ACTH on triglyceride synthesis in fat cells.

It was found that ACTH greatly reduced lipogenesis in fat cells in the presence of calcium ion, but not in the absence of calcium ion. Of the enzymes involved in triglyceride synthesis from fatty acid in lipid micelle membranes, only acyl-CoA synthetase was inhibited by calcium ion, the apparent Ki value of calcium ion being 4.2 X 10(-4) M. The Km values of the enzyme for palmitate and ATP were 2.0 X 10(-4) M and 2.5 X 10(-4) M, respectively and calcium ion caused non-competitive inhibition with both palmitate and ATP. The acyl-CoA synthetase activity of lipid micelle membranes was inhibited by treatment with phospholipase A or C, but not by treatment with phospholipase D. The mechanism of inhibition of triglyceride synthesis by ACTH is discussed on the basis of these results.     

The Effect of Lipid Peroxide on the Lipid and Carbohydrate Metabolism in Rat Liver

Feeding tests were carried out on rats to clarify the mechanisms of fatty liver formation induced by autoxidized methyl linoleate. Lipid peroxides prepared by autoxidation of highly purified methyl linoleate were given orally to rats. Triglyceride and glycogen contents in liver were determined and enzyme activities including triglyceride synthetase and α-glycerophosphate dehydrogenase were also examined. The following results were obtained. 1. Triglyceride accumulation in rat liver fed autoxidized methyl linoleate was observed. 2. Increase in triglyceride content in rat liver was soon followed by the decrease of hepatic glycogen. 3. When rats were starved prior to introduction of autoxidized methyl linoleate, hepatic triglyceride accumulation did not occur. 4. The activities of α-glycerophosphate dehydrogenase and triglyceride synthetase in liver, and those of glutamic oxalacetic transaminase and leucine aminopeptidase in plasma were practically similar among the rats of test groups fed fresh or autoxidized methyl linoleate and the control fed diet without methyl linoleate. 5. The addition of l-carnitine which is a stimulator of fatty acid oxidation retarded the accumulation of the hepatic triglyceride mentioned above.     

Effect of methotrexate on long-chain fatty acid metabolism in liver of rats fed a standard or a defined, choline-deficient diet

The effect of methotrexate on lipids in serum and liver and key enzymes involved in esterification and oxidation of long-chain fatty acids were investigated in rats fed a standard diet and a defined choline-deficient diet. Hepatic metabolism of long-chain fatty acids were also studied in rats fed the defined diet with or without choline. When methotrexate was administered to the rats fed the standard diet there was a slight increase in hepatic lipids and a moderate reduction in the serum level. The palmitoyl-CoA synthetase activity and the microsomal glycerophosphate acyltransferase activity in the liver of rats were increased by methotrexate. The data are consistent with those where the liver may fail to transfer the newly formed triacylglycerols into the plasma with a resultant increase in liver triacylglycerol content and a decrease in serum lipid levels. Fatty liver of methotrexate-exposed rats can not be attributed simply to a reduction of fatty acid oxidation as the carnitine palmitoyltransferase activity was increased. The methotrexate response in the rats fed the defined choline-deficient diet was different. There was a reduction in both serum and hepatic triacylglycerol and the glycerophosphate acyltransferase and palmitoyl-CoA synthetase activities. The carnitine palmitoyltransferase activity was unchanged. Hepatomegaly and increased hepatic fat content, but decreased serum triacylglycerol, total cholesterol and HDL cholesterol were found to be related to the development of choline deficiency as the pleiotropic responses were almost fully prevented by addition of choline to the choline-deficient diet. Addition of choline to the choline-deficient diet normalized the total palmitoyl-CoA synthetase and carnitine palmitoyltransferase activities. In contrast to methotrexate exposure, choline deficiency increased the mitochondrial glycerophosphate acyltransferase activity. The data are consistent with those of where fatty liver induction of choline deficiency may be related to an enhanced esterification of long-chain fatty acids concomitant with a reduction of their oxidation.     

Decreased hepatic fatty acid oxidation at weaning in the rat is not linked to a variation of malonyl-CoA concentration

In rats weaned on a high-carbohydrate diet, hepatic fatty acid oxidation capacity is decreased when compared to suckling rats. Previous studies (Benito et al., 1979) suggested that a malonyl-CoA-dependent mechanism could be at the origin of this decrease. Studies on isolated hepatocytes show that despite, respectively, a low and a high lipogenic rate in suckling and weaned rats, malonyl-CoA concentrations are similar in the two groups. This might be due to the lower ratio fatty acid synthetase/acetyl-CoA carboxylase (EC 6.4.1.2) activities during suckling than after weaning. Different rates of hepatic fatty acid oxidation despite similar malonyl-CoA concentrations can be explained by the 2.5-fold higher carnitine palmitoyltransferase I (EC 2.3.1.21) activity in suckling rats together with a 7-fold higher Ki for malonyl-CoA. This precludes a tight control of fatty acid oxidation by [malonyl-CoA] in suckling rats. Weaning on a high-fat carbohydrate-free diet abolishes the changes previously described for the kinetic characteristics of carnitine palmitoyltransferase I suggesting that nutritional modifications rather than a developmental stage are involved. Thus, during the suckling-weaning transition, a variation of [malonyl-CoA] is not responsible for the decrease in hepatic fatty acid oxidation. It involves, in addition, a decrease in carnitine palmitoyltransferase I activity and an increase of the sensitivity of this enzyme to malonyl-CoA.     

Avian fatty acid synthetase: Evidence for short-term regulation of activity

Liver biopsies were performed on starved chicks at 0 and 4 h after refeeding a fat-free diet. Fatty acid synthetase activity increased after refeeding, and administration of cycloheximide did not prevent the rise of enzyme activity. Incorporation of [carboxyl-¹⁴C]leucine into fatty acid synthetase was measured in enzyme purified from the livers of starved chicks, starved-refed (4 h) chicks, and starved-refed chicks injected with cycloheximide. The data suggest that the synthesis of enzyme protein was inhibited in starved and cycloheximide-treated refed chicks in comparison with refed chicks. Liver cytosol from fed or starved chicks was filtered through centrifuge ultrafiltration membranes and the residues were suspended in the same or opposite filtrates. Fatty acid synthetase activity in residues from starved chicks was stimulated when suspended in filtrates from fed chicks. The evidence is consistent with the hypothesis that a portion of the fatty acid synthetase in the liver of starved chicks is present as an inactive form which can be activated upon refeeding.     

Stimulation of hepatic cholesterol biosynthesis by fatty acids. Effects of oleate on cytoplasmic acetoacetyl-CoA thiolase, acetoacetyl-CoA synthetase and hydroxymethylglutaryl-CoA synthase.

The effects of oleic acid on the activities of cytosolic HMG-CoA (3-hydroxy-3-methylglutaryl-CoA) synthase, AcAc-CoA (acetoacetyl-CoA) thiolase and AcAc-CoA synthetase, as well as microsomal HMG-CoA reductase, all enzymes in the pathway of cholesterol biosynthesis, were studied in the isolated perfused rat liver. Oleic acid bound to bovine serum albumin, or albumin alone, was infused for 4 h at a rate sufficient to sustain an average concentration of 0.61 +/- 0.05 mM fatty acid during the perfusion. Hepatic cytosol and microsomal fractions were isolated at the termination of the perfusion. Oleic acid simultaneously increased the activities of the cytosolic cholesterol-biosynthetic enzymes 1.4-2.7-fold in livers from normal fed rats and from animals fasted for 24 h. These effects were accompanied by increased net secretion by the liver of cholesterol and triacylglycerol in the very-low-density lipoprotein (VLDL). We confirmed the observations reported previously from this laboratory of the stimulation by oleic acid of microsomal HMG-CoA reductase. In cytosols from perfused livers, the increase in AcAc-CoA thiolase activity was characterized by an increase in Vmax. without any change in the apparent Km of the enzyme for AcAc-CoA. In contrast, oleic acid decreased the Km of HMG-CoA synthase for Ac-CoA, without alteration of the Vmax. of the enzyme. The Vmax. of AcAc-CoA synthetase was increased by oleic acid, and there was a trend towards a small increase in the Km of the enzyme for acetoacetate. These data allow us to conclude that the enzymes that supply the HMG-CoA required for hepatic cholesterogenesis are stimulated, as is HMG-CoA reductase, by a physiological substrate, fatty acid, that increases rates of hepatic cholesterol synthesis and cholesterol secretion. Furthermore, we suggest that these effects of fatty acid on hepatic cholesterol metabolism result from stimulation of secretion of triacylglycerol in the VLDL by fatty acids, and the absolute requirement of cholesterol as an important structural surface component of the VLDL necessary for transport of triacylglycerol from the liver.