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1.
Fatty acid synthetase activity was measured in the high-speed supernatant fraction of liver homogenates from rats fed a semisynthetic diet low in lipotropic factors. If choline was omitted from the diet, a significant increase of fatty acid synthetase activity was observed after two feedings of the deficient diet. Compared with controls, the increase of fatty acid synthetase activity was of a magnitude that could account for the amount of triglyceride accumulating in the hepatic floating lipid fraction. Gas-liquid chromatographic analysis of the floating lipid triglycerides showed an increased content of palmitic acid due to choline deficiency; this increase could be predicted from the increased fatty acid synthetase activity and its known characteristic yield of palmitic acid.  相似文献   

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Phosphatidyl choline species in Euglena gracilis   总被引:1,自引:0,他引:1  
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Phospholipid fatty acid remodeling in mammalian cells.   总被引:13,自引:0,他引:13  
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Male SEC/1ReJ mice aged 6 or 17 months were fed diets containing 0, 2, 4 and 8% added phosphatidyl choline. After 4 days on the test diets they were given 5 daily sessions of 100 trials each in the shuttle-box. The younger mice rapidly acquired an avoidance response and reached high, stable levels of performance. The older mice learned more slowly and reached significantly lower performance levels (p < 0.01). Phosphatidyl choline had no effect on performance of young mice, while in the older mice the highest dose level of phosphatidyl choline increased avoidance performance by nearly 30% (p < 0.05).  相似文献   

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We crystallized human liver fatty acid-binding protein (LFABP) in apo, holo, and intermediate states of palmitic acid engagement. Structural snapshots of fatty acid recognition, entry, and docking within LFABP support a heads-in mechanism for ligand entry. Apo-LFABP undergoes structural remodeling, where the first palmitate ingress creates the atomic environment for placement of the second palmitate. These new mechanistic insights will facilitate development of pharmacological agents against LFABP.  相似文献   

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The terminal acetylenic analogue of lauric acid, 11-dodecynoic acid (11-DDYA), specifically inactivates hepatic cytochrome P-450 enzymes that catalyze omega- and omega-1-hydroxylation of lauric acid. The inactivation, as required for a suicidal process, is NADPH- and time-dependent and follows pseudo-first order kinetics. In contrast, 11-DDYA causes no measurable change in the spectroscopically-measured concentration of cytochrome P-450 or in the N-demethylation of benzphetamine or N-methyl p-chloroaniline. 10-Undecynoic acid is as effective a suicide substrate for fatty acid hydroxylases as 11-DDYA but 11-dodecenoic acid is much less effective. 11-DDYA is able to completely inhibit omega-hydroxylation but suppresses no more than 50% of omega-1-hydroxylation despite the fact that both activities are completely inactivated by 1-aminobenzotriazole. At least three hepatic cytochrome P-450 fatty acid hydroxylases, one omega-hydroxylase and two omega-1-hydroxylases, are required by these results. The construction of suicide substrates that specifically inactivate cytochrome P-450 fatty acid hydroxylases provides a new experimental probe of the physiological role of this process.  相似文献   

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The metabolic syndrome and the hepatic fatty acid drainage hypothesis   总被引:4,自引:0,他引:4  
Much data indicates that lowering of plasma triglyceride levels by hypolipidemic agents is caused by a shift in the liver metabolism towards activation of peroxisome proliferator activated receptor (PPAR)alpha-regulated fatty acid catabolism in mitochondria. Feeding rats with lipid lowering agents leads to hypolipidemia, possibly by increased channeling of fatty acids to mitochondrial fatty acid oxidation at the expense of triglyceride synthesis. Our hypothesis is that increased hepatic fatty acid oxidation and ketogenesis drain fatty acids from blood and extrahepatic tissues and that this contributes significantly to the beneficial effects on fat mass accumulation and improved peripheral insulin sensitivity. To investigate this theory we employ modified fatty acids that change the plasma profile from atherogenic to cardioprotective. One of these novel agents, tetradecylthioacetic acid (TTA), is of particular interest due to its beneficial effects on lipid transport and utilization. These hypolipidemic effects are associated with increased fatty acid oxidation and altered energy state parameters of the liver. Experiments in PPAR alpha-null mice have demonstrated that the effects hypolipidemic of TTA cannot be explained by altered PPAR alpha regulation alone. TTA also activates the other PPARs (e.g., PPAR delta) and this might compensate for deficiency of PPAR alpha. Altogether, TTA-mediated clearance of blood triglycerides may result from a lowered level of apo C-III, with a subsequently induction of hepatic lipoprotein lipase activity and (re)uptake of fatty acids from very low density lipoprotein (VLDL). This is associated with an increased hepatic capacity for fatty acid oxidation, causing drainage of fatty acids from the blood stream. This can ultimately be linked to hypolipidemia, anti-adiposity, and improved insulin sensitivity.  相似文献   

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Fatty acid oxidation was studied in isolated liver mitochondria of rats during the suckling-weaning transition. The oxidation rate of oleyl-CoA and palmitoylcarnitine was reduced 2.5-fold in rats weaned on a high-carbohydrate diet compared to suckling rats, when acetyl-CoA produced by beta-oxidation was directed towards ketone-body synthesis. Weaning on a high-fat diet minimized this change. Channeling of acetyl-CoA towards citrate synthesis doubled the oxidation rate of both substrates in HC-weaned rats. Thus, in addition to changes in carnitine palmitoyltransferase I activity, the beta-hydroxymethylglutaryl-CoA synthase pathway is also involved in the decreased fatty acid oxidation at weaning. This was confirmed by measurement of beta-hydroxymethylglutaryl-CoA synthase pathway activity.  相似文献   

14.
Regulation of fatty acid synthetase has been studied in the obese-hyperglycemic mouse and compared with regulation in non obese, littermate control animals. The mechanisms underlying the regulatory changes were defined by immunochemical techniques. Several major conclusions are justified from the data obtained: (1) Although the hepatic specific activity of fatty acid synthetase is higher in obese than in non obese animals pair-fed chow, no difference in hepatic activities is apparent in animals pair-fed the fat-free diet; (2) The higher enzymatic activity in obese animals fed chow is related to a higher content of enzyme, and this higher content is associated with a higher rate of enzyme synthesis; (3) The decrease in hepatic synthetase activity with starvation is distinctly more striking in non obese than in obese animals, and the changes in activity reflect changes in content of enzyme; (4) With starvation there is a decrease in synthesis of enzyme in obese and non obese animals, but only in non obese animals is there also a marked increase in the rate of synthetase degradation (t1/2 = 24 h during starvation, t1/2 = 76 h during normalfeeding); (5) Refeeding starved mice a fat-free diet results in a more striking increase in hepatic synthetase activity in non obese than in obese animals; (6) Administration of triiodothyronine causes a more marked increase in hepatic synthetase activity in non obese than in obese animals. The data thus define a variety of differences in regulation of hepatic fatty acid synthetase in mutant and normal animals. The roles of enzyme synthesis and degradation in the etiology of these differences are defined, and possible mechanisms underlying regulation of synthetase synthesis and degradation in normal mammalian liver are suggested by the observations.  相似文献   

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When retinol was incubated in the presence of ATP, UDP-galactose, magnesium ions and Triton X-100, with a whole homogenate of rat thyroid as an enzyme source the formation of a retinol containing phosphate compound was observed besides retinol galactoside described before. This phosphate compound is soluble in chloroform-methanol (3:2, vv) and can be separated by chromatography on a column prepared with butanol-washed cellulose powder. The isolated compound was retinol pyrophosphate since it contained retinol and phosphate in a molar ratio of 1:2 shown by double isotopic labelling techniques and was found to be free of galactose.  相似文献   

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《Cell reports》2023,42(5):112435
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