Activities of fatty acid desaturases and fatty acid composition of liver microsomes in rats fed beta-carotene and 13-cis-retinoic acid

The fatty acid composition of microsomal lipids and the activities of delta 9- and delta 6-desaturases in liver microsomes of rats fed diets supplemented with beta-carotene and two levels of 13-cis-retinoic acid were studied. Four groups of male, weanling rats were fed semipurified diets containing 0 or 100 mg beta-carotene per kg diet, and 20 or 100 mg 13-cis-retinoic acid per kg diet. After 11 weeks of feeding, the rats were killed, liver microsomes were prepared and assayed for delta 9-desaturase and delta 6-desaturase activities. The activity of delta 9-desaturase was lower in liver microsomes of rats fed beta-carotene-supplemented diet or the diet supplemented with the higher level of 13-cis-retinoic acid. Microsomal delta 6-desaturase activity was, however, higher in liver of rats fed 13-cis retinoic acid; there was no effect of beta-carotene on delta 6-desaturase activity. The fatty acid compositional data on total lipids of liver microsomes were consistent with the diet-induced changes in fatty acid desaturases. Phospholipid composition of liver microsomes was also altered as a result of feeding beta-carotene or 13-cis-retinoic acid-containing diets. The proportions of phosphatidylethanolamine were generally higher, whereas those of phosphatidylcholine were lower in the experimental groups as compared with the control.     

Lipid composition of liver microsomes in rats fed a high monounsaturated fatty acid diet

The fatty acid and cholesterol contents of tissue membranes are the determinants of membrane stability and functionality. This study was designed to evaluate the influence of a high monounsaturated fatty acid diet on the fatty acid composition of rat liver microsomes and on their cholesterol and lipid phosphorus content. Weanling animals were fed for 5 weeks with high fat diets containing olive oil or corn oil. Saturated fatty acids were increased and oleic acid decreased in microsomal total phospholipids and in the three major phosphoglycerides, phosphatidylcholine (PC), phosphatidylethanolamine (PE) and phosphatidylinositol (PI), of rats fed corn oil as compared to the olive oil group. The percentage of linoleic acid was higher in the corn oil group, but only for total phospholipids and PC. Linoleic and alpha-linolenic metabolites were significantly increased in total phospholipids of olive oil-fed animals with respect to those fed corn oil. These changes were responsible for the low unsaturation index found in microsomal phospholipids of the corn oil group. The diet did not affect the microsome cholesterol or the lipid phosphorus content. These results show that, in olive oil-fed rats, the cholesterol content and the degree of unsaturation of liver microsomes was similar to that observed in weanling animals; this probably suggests an adequate maintenance of functionality of membranes in olive oil-fed animals.     

Stimulatory effect of mevinolin on rat liver phosphatidic acid phosphatase

The activity of the soluble form of phosphatidic acid phosphatase in rat liver was stimulated about 2.5-fold by inclusion of mevinolin, a competitive hydroxymethylglutaryl-CoA reductase inhibitor, in the diet (0.1%). The stimulatory effect of mevinolin was present also after dietary addition of cholestyramine (5%) or intraperitoneal administration of ethanol. Addition of cholesterol (2%) to the diet totally abolished the stimulation by mevinolin on phosphatidic acid phosphatase. The results support a correlation between the synthesis of the rate-limiting enzyme in cholesterol biosynthesis and the activity of the apparent rate-limiting enzyme in triacylglycerol biosynthesis.     

Immunocytochemical localization of hepatic fatty acid binding protein in the liver of fed and fasted rats

Summary The immunocytochemical localization of fatty acid binding protein (FABP) of liver type was studied at light and electron microscopic levels by the peroxidase-antiperoxidase (PAP) method using a specific polyclonal antibody against FABP in the liver of fed and fasted rats. In the liver of rats fed ad libitum, the intense immunoreactivity was confined to portions of the liver cell cytoplasm adjacent to the glycogen area. After 2-days' fasting, such a focal intracellular localization of the immunoreactivity was abolished, in association with the disappearance of the glycogen area, and was replaced by a diffuse distribution of the immunoreactivity throughout the cytoplasm, with higher intensity at the periphery of the cells. In liver cells exhibiting an overall hypertrophy of smooth endoplasmic reticulum (SER) induced by the treatment of fasted rats with phenobarbital, the peripheral localization of FABP immunoreactivity ramained unchanged compared with that obtained in the case of fasting alone, and the immunoreactivity did not occur in association with the proliferated SER in the central cytoplasm. These results suggest that FABP, although cytosolic in nature, changes its localization within the liver cells in response to the general metabolic alterations caused by the starvation, inferring that FABP is intimately involved in the intracellular transport and metabolism of free fatty acids.     

Immunocytochemical localization of hepatic fatty acid binding protein in the liver of fed and fasted rats

The immunocytochemical localization of fatty acid binding protein (FABP) of liver type was studied at light and electron microscopic levels by the peroxidase-antiperoxidase (PAP) method using a specific polyclonal antibody against FABP in the liver of fed and fasted rats. In the liver of rats fed ad libitum, the intense immunoreactivity was confined to portions of the liver cell cytoplasm adjacent to the glycogen area. After 2-days' fasting, such a focal intracellular localization of the immunoreactivity was abolished, in association with the disappearance of the glycogen area, and was replaced by a diffuse distribution of the immunoreactivity throughout the cytoplasm, with higher intensity at the periphery of the cells. In liver cells exhibiting an overall hypertrophy of smooth endoplasmic reticulum (SER) induced by the treatment of fasted rats with phenobarbital, the peripheral localization of FABP immunoreactivity remained unchanged compared with that obtained in the case of fasting alone, and the immunoreactivity did not occur in association with the proliferated SER in the central cytoplasm. These results suggest that FABP, although cytosolic in nature, changes its localization within the liver cells in response to the general metabolic alterations caused by the starvation, inferring that FABP is intimately involved in the intracellular transport and metabolism of free fatty acids.     

Stress modulates cholesterol-induced changes in plasma and liver fatty acid composition in rats fed n-6 fatty acid-rich oils

The effects of dietary cholesterol (CH) and isolation stress on fatty acid compositions of plasma and liver cholesteryl ester and phospholipids were compared in growing rats fed an 18:2n-6 or an 18:3n-6 enriched semisynthetic diet for 2 weeks. Stress, CH-feeding, and dietary fats had no significant effects on plasma CH level, but CH-feeding alone elevated the liver CH concentrations. CH-feeding also modulated the liver polyunsaturated fatty acid compositions, i.e., increasing 18:2n-6 levels, and reducing 20:4n-6 levels, indicating an inhibition of the enzymes, delta-6 and delta-5-desaturases. The extent of these changes was less in rats fed 18:3n-6 than in those fed 18:2n-6. Stress, which alone had no significant effects on plasma and liver fatty acid compositions, attenuated the CH-induced changes of fatty acid levels.     

The effect of phenobarbitone on protein synthesis by liver polyribosomes in fed and starved rats.

1. The effect of phenobarbitone on the rate of protein synthesis and on the sedimentation patterns of various liver subcellular fractions containing ribosomes was studied in rats. 2. Phenobarbitone treatment increased the incorporation of [114C]leucine into protein by all preparations, provided they had not been subjected to preliminary treatment with Sephadex G-25. The phenobarbitone-induced effect on incorporation was associated with a gain in liver weight and a higher degree of polyribosomal aggregation. 3. Preparations that were treated with Sephadex G-25 incorporated more radioactivity into protein, but did not show the response to phenobarbitone treatment. 4. When the influence of starvation and phenobarbitone was studied separately on membrane-bound and membrane-free polyribosomes, it was shown that whereas both classes of polyribosomes were affected by starvation, apparently only the former class was susceptible to phenobarbitone stimulation of protein synthesis. 5. The decreased capacity for protein synthesis of polyribosomes from starved rats was independent of their association with the membranes of the endoplasmic reticulum, but resulted from polyribosomal disaggregation, from an intrinsic defect of the polyribosomes themselves and from changes in composition of the cell cap. 6. The results are discussed in relation to the problem of the control of protein biosynthesis and of the functional separation of membrane-bound and membrane-free polyribosomes.     

Adrenic acid Δ4 desaturation and fatty acid composition in the liver of marine-oil fed streptozotocin diabetic rats

The aim of the present study was to assess the effect of streptozotocin diabetes and insulin treatment on adrenic acid Δ4 desaturation and fatty acid composition of liver microsomes in Wistar rats fed a fat free semi-synthetic basal diet supplemented with 10% EPA-rich marine oil. Results showed that, in liver microsomes of hyperglycemic rats, the 22:6n-3/22:5n-3 ratio in total lipids was elevated and desaturation of adrenic acid to n-6 docosapentaenoic acid was enhanced. Insulin treatment with 2.0 I.U./100 g body weight⁻¹ twice a day for 3 days resulted in hypoglycemia and suppressed both the increased Δ4 n-6 desaturation and 22:6n-3/22:5n-3 ratio. It is concluded that the Δ4 desaturation enzyme system, which is activated by experimental diabetes, is regulated by mechanisms different from those regulating Δ6 and Δ5 desaturations.     

Binding of acyl-CoA to liver fatty acid binding protein: effect on acyl-CoA synthesis

The ability of purified rat liver and heart fatty acid binding proteins to bind oleoyl-CoA and modulate acyl-CoA synthesis by microsomal membranes was investigated. Using binding assays employing either Lipidex 1000 or multilamellar liposomes to sequester unbound ligand, rat liver but not rat heart fatty acid binding protein was shown to bind radiolabeled acyl CoA. Binding studies suggest that liver fatty acid binding protein has a single binding site acyl-CoA which is separate from the two binding sites for fatty acids. Experiments were then performed to determine how binding may influence acyl-CoA metabolism by liver microsomes or heart sarcoplasmic reticulum. Using liposomes as fatty acid donors, liver fatty acid binding protein stimulated acyl-CoA production, whereas that from heart did not stimulate production over control values. 14C-labeled fatty acid-fatty acid binding protein complexes were prepared, incubated with membranes, and acyl-CoA synthetase activity was determined. Up to 70% of the fatty acid could be converted to acyl-CoA in the presence of liver fatty acid binding protein but in the presence of heart fatty acid binding protein, only 45% of the fatty acid was converted. Liver but not heart fatty acid binding protein bound the acyl-CoA formed and removed it from the membranes. The amount of product formed was not changed by additional membrane, enzyme cofactors, or incubation time. Additional liver fatty acid binding protein was the only factor found that stimulated product formation. Acyl-CoA hydrolase activity was also shown in the absence of ATP and CoA. These studies suggest that liver fatty acid binding protein can increase the amount of acyl-CoA by binding this ligand, thereby removing it from the membrane and possibly aiding transport within the cell.     

Studies on the synthesis of rat liver fatty acid synthetase.

The synthesis of the multienzyme complex rat liver fatty acid synthetase was investigated utilizing modifications of methods developed in the laboratory of Schimke (Schimke, R. T. (1964) J. Biol. Chem. 239, 3808-3817 and Arias, I. M., Doyle, D., and Schimke, R. T. (1969) J. Biol. Chem. 244, 3303-3315). The relative amounts of radioactivity from a pulse of labeled lysine appearing in polypeptides derived from purified synthetase complex can be measured compensating for the varying amounts of lysine per polypeptide chain. The results show that labeled amino acid is incorporated into polypeptides derived from the complex at heterogeneous rates. However, 10 to 15 hours after the administration of a pulse, the amount of label per lysine residue in these polypeptides is identical. The results support the previously proposed model of this multienzyme complex (Tweto, J., Dehlinger, P., and Larrabee, A. R. (1972) Biochem. Biophys. Res. Commun. 48, 1371-1377). The previous work and that reported here suggests the existence of a pool of synthetase subunits which is an obligatory intermediate in both synthesis and turnover of the complex. The results obtained in this work are consistent with this model if the exchange of subunits into the intact complex is a relatively slow process requiring several hours to reach equilibrium.     

Stimulatory effect of vanadate on hyaluronic acid synthesis in mesothelial cells from rabbit pericardium

Vanadate dose-dependently stimulated the incorporation of [3H]glucosamine into glycosaminoglycan, especially hyaluronic acid, in mesothelial cells from rabbit pericardium. The activity of hyaluronic acid synthase in the mesothelial cells treated with 50 microM vanadate for 0.5-1 h was stimulated to a level about 2 times over that of the control. Neither DNA synthesis nor protein synthesis in the mesothelial cells under the same experimental conditions was affected. The enhancement of the activity of hyaluronic acid synthase in the mesothelial cells treated with vanadate (50 microM) was not inhibited by the addition of cycloheximide (1 microgram/ml). These results suggest that vanadate stimulates the hyaluronic acid synthesis by activation of hyaluronic acid synthase in mesothelial cells from rabbit pericardium.