Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:2.3.1.21 (CPT)
4,580 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

2[5(4-Chlorophenyl)pentyl]oxirane-2-carbonyl-CoA (POCA-CoA) was prepared 2[a5(4-chlorophenyl)pentyl]oxirane-2-carboxylate (POCA) and characterised chromatographically. POCA-CoA does not inhibit citrate cycle oxidations or effect oxidative phosphorylation by rat liver mitochondria. POCA-CoA at low (microM) concentrations, but not free POCA-, specifically inhibits palmitoyl-CoA oxidation at the stage of carnitine palmitoyltransferase I (CPT I) situated on the outer face of the inner mitochondria membrane. Palmitoyl-carnitine oxidation was not inhibited by POCA-CoA. POCA-CoA inhibits palmitoyl-CoA oxidation in liver mitochondria from fed rats more strongly than it does in mitochondria from fasted rats, similarly to the inhibition by malonyl-CoA [E.D. Saggerson and C.A. Carpenter, FEBS Lett. 129, 225 (1981)]. Palmitoyl-CoA, by contrast with palmitoylcarnitine, is not quantitatively oxidised to acetoacetate by liver mitochondrial fractions, presumably due to competing palmitoyl-CoA hydrolase activity. In the presence of POCA-CoA the amount oxidised is decreased further because the slower rate of oxidation allows more palmitoyl-CoA to be hydrolysed to palmitate. The oxidation of palmitoyl-CoA, but not that of palmitoyl-carnitine, was strongly decreased in washed liver and muscle mitochondrial fractions from POCA-fed animals. POCA- inhibited the oxidation of [U-14C]palmitate in cultured human fibroblasts, and caused small increases in 14CO2 production from [1-14C]pyruvate and [U-14C]glucose. Inhibition of beta-oxidation at the stage of CPT I by POCA-CoA can explain the powerful hypoketonaemic and hypoglycaemic effects of POCA in fasted normal and fasted diabetic animals [H.P.O. Wolf, K. Eistetter and G. Ludwig, Diabetologia 22, 456 (1982)].
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PMID:The effects of 2[5(4-chlorophenyl)pentyl]oxirane-2-carbonyl-Co-A on mitochondrial oxidations. 670 64

Linoleate monohydroperoxide (L-HPO), methyl linoleate monohydroperoxide (ML-HPO), and methyl hydroperoxy-epoxy-octadecenoate (ML-X) inhibited state 3 respiration of mitochondria when palmitate, palmitoyl CoA, or L-palmitoylcarnitine was used as a substrate. L-HPO was the most effective, and 50% inhibition of palmitate-supported respiration was observed with 2, 3.3, and 6.5 nmol/mg protein of L-HPO, ML-X, and ML-HPO, respectively. Almost the same values were obtained when palmitoyl CoA or L-palmitoylcarnitine was used in place of palmitate. L-HPO inhibited the reaction of beta-oxidation in mitochondria in a similar concentration range (4 nmol/mg protein for 50% inhibition) when L-palmitoylcarnitine was used as a substrate. L-HPO also inhibited the formation of 3-hydroxypalmitoylcarnitine from the same substrate. Carnitine palmitoyltransferase activity of mitochondria was inhibited by L-HPO, 50% inhibition occurring at 12 nmol/mg protein. These inhibitory effects of L-HPO were weaker when ATP was removed by hexokinase and glucose. ATP-dependent formation of carnitine ester of L-HPO was also suggested. It was deduced that L-HPO (and ML-X and ML-HPO after hydrolysis) was converted to carnitine ester and inhibited the palmitate metabolism at the site(s) of intramitochondrial carnitine palmitoyltransferase (and possibly acyl CoA dehydrogenase).
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PMID:Inhibition of palmitate oxidation in mitochondria by lipid hydroperoxides. 672 34

1. Activities of 3-oxo acid CoA-transferase, D-3-hydroxybutyrate dehydrogenase, hexokinase and carnitine palmitoyltransferase have been measured in the gastrointestinal tract. 2. Activity of 3-oxo acid CoA-transferase in the glandular mucosa of the stomach was as high as that in heart and kidney, and was 2--4 times greater than that in other regions of the gastrointestinal tract. It is suggested that metabolism of acetoacetate might support acid secretion on re-feeding after a period without food. 3. All regions of the gastrointestinal tract have the capacity to use ketone bodies, and it is likely that both muscle and mucosa will contribute to their utilization. 4. Activity of hexokinase was twice the rate of glucose utilization by the jejunum under anaerobic conditions. The maximal rate of glucose metabolism in the jejunum may not be substantially different from that in other regions of the gastrointestinal tract. 5. Starvation decreased the capacity for metabolism of glucose in several regions of the intestine. 6. Activities of carnitine palmitolytransferase in the stomach, jejunum and colon were similar, and about one-third of that in the liver. Activity in the jejunum was much higher than the apparent rate of oxidation of exogenous fatty acid. 7. The results do not suggest any large variation between tissues of the gastrointestinal tract in metabolism of glucose or fatty acids, whereas metabolism of ketone bodies may be more prominent in the stomach.
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PMID:Activity of 3-oxo acid CoA-transferase, D-3-hydroxybutyrate dehydrogenase, hexokinase and carnitine palmitoyltransferase in the stomach and small and large intestine of the rat. 695 79

The aim of the investigation was to assess whether endogenous triacylglycerol contributes to the maintenance of the atrial functions. To attain this information, the atria from fed and fasted rats were treated with oxfenicine which is a cardioselective inhibitor of carnitine palmitoyltransferase I. In the presence of glucose, oxfenicine suppressed lipolysis without affecting the pacemaker and contractile activities. When exposed to 2-deoxyglucose in a substrate-free medium, the atria displayed a progressive fall of the contractile strength and pacemaker rate. The dysfunctions appeared faster in the atria from fed rats coinciding with a smaller triacylglycerol mobilization. Under this condition, oxfenicine abolished the triacylglycerol breakdown, increased the fall in the peak tension, elicited a rise in the resting tension and accelerated the decline of the pacemaker rate, leading in a significant number of atria to a complete cessation of the spontaneous contractions. These effects proceeded faster in the fed rats atria. Present data suggest that glucose oxidation is sufficient to meet the atrial energy demand when the fatty acid catabolism is impeded. The noxious effects of oxfenicine, attained after the glucose metabolism was eliminated, lend direct evidence to the notion that endogenous triacylglycerol supports, at least partly, the atrial functions.
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PMID:Effects of oxfenicine on the atria from fed and fasted rats. 751 59

Isolated canine islets of Langerhans differ from isolated islets of other species (including rodents and man) in that elevated glucose concentrations are unable to stimulate insulin secretion. Here we demonstrate that addition to the perifusate of isobutylmethylxanthine (IBMX), forskolin or 8-CPT-cAMP, all of which enhance cytosolic cAMP, permits insulin secretion in response to glucose, leucine or tolbutamide. These cAMP enhancers increase secretogogue-induced electrical activity in beta-cells and restore depolarization-induced, Ca(2+)-dependent granule exocytosis measured as stepwise increases in membrane capacitance. We propose that the primary permissive action of cAMP is to tightly link Ca2+ entry to insulin granule release, while a secondary action is to tighten the link between glucose metabolism and cell depolarization.
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PMID:cAMP-enhancing agents "permit" stimulus-secretion coupling in canine pancreatic islet beta-cells. 752 22

Carnitine palmitoyltransferase-I (CPT-I) inhibitors improve postischemic myocardial function either by decreasing muscle long-chain acylcarnitines (LCAC) during ischemia or by increasing oxidation of alternate substrates such as glucose during reperfusion. These possibilities were evaluated using oxfenicine, a CPT-I inhibitor, and alternate substrates that bypass carnitine-dependent metabolism. Isolated rat hearts subjected to 20 min of ischemia followed by 40 min of reperfusion with 1.8 mM palmitate as exogenous substrate recovered little function during reperfusion. Hearts made ischemic and reperfused with palmitate and 2.4 mM hexanoate as exogenous substrates had significantly improved reperfusion function compared to palmitate-perfused hearts. Addition of 2 mM oxfenicine to palmitate-hexanoate-perfused hearts gave an additional small improvement in reperfusion function. At the end of ischemia, the LCAC content of hearts perfused with palmitate or hexanoate and palmitate was identical. Palmitate-, hexanoate, and oxfenicine-perfused hearts had significantly decreased LCAC content at the end of ischemia compared with hexanoate-palmitate-perfused hearts. Therefore, depressed reperfusion function in long-chain fatty acid-perfused hearts can be ameliorated by alternate substrates, including medium-chain fatty acids. LCAC accumulation during ischemia apparently plays only a minor role in the postischemic dysfunction of long-chain fatty acid-perfused hearts.
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PMID:Acylcarnitine accumulation does not correlate with reperfusion recovery in palmitate-perfused rat hearts. 761 1

Preflight development of the goslings was typified by rapid increases in the mitochondrial enzymes of the semimembranosus and heart ventricular muscles resulting in near-adult values by 3 wk of age. In contrast, aerobic capacity of the pectoralis muscle initially developed slowly but showed a rapid increase between 5 and 7 wk of age, in preparation for becoming airborne. Activities of glycolytic enzymes in the pectoralis muscle showed similar patterns of development as those found for the aerobic enzymes, except for hexokinase, which was low at all ages, indicating an adaptation for catabolism of both intracellular glycogen and plasma fatty acids in preference to plasma glucose. Muscle mass specific activity of citrate synthase in the pectoralis increased by only 33% from goslings during the first few days of flight, compared with premigratory geese. Activities of anaerobic glycolytic enzymes in the ventricles were low, but values for hexokinase, which is involved in the phosphorylation of plasma glucose, developed rapidly. Values for lactate dehydrogenase were also high, reflecting the capacity of the heart to catabolize plasma lactate. Substrate flux supplied by carnitine palmitoyltransferase and oxoglutarate dehydrogenase (OGD), in the pectoralis muscles of the premigratory geese, appears to have the smallest excess capacities to meet the requirements of sustained aerobic flight. The average maximum oxygen uptake for premigratory geese during flight, as indicated by values for OGD, is calculated to be 484 ml O2/min (or 208 ml O2.min-1.kg-1).
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PMID:Development of metabolic enzyme activity in locomotor and cardiac muscles of the migratory barnacle goose. 2679 34

CBL/57 strain db/db mice exhibit type II (noninsulin-dependent) diabetes. The affected mice are markedly hyperinsulinemic, hyperglycemic, and hypercholesterolemic, and their serum K+ levels are decreased. The brains of the diabetic mice are significantly smaller than those of their lean, control littermates, but the protein concentration is normal. The low brain weight is accompanied by a loss of major fatty acid components within the whole brain, nerve endings, and mitochondrial membranes. Cholesterol levels are low in whole brain but are not significantly different from normal in the synaptosomal membranes. The phospholipid concentration is significantly decreased in whole brain homogenates, crude synaptosomal membranes, and crude mitochondrial membranes of the diabetic mice. In addition, the specific activities of membrane-bound synaptosomal acetylcholinesterase, Na+,K(+)-ATPase, and Mg(2+)-ATPase are decreased in crude synaptosomal membranes of the diabetic mice. The specific activities of carnitine palmitoyltransferase I and carnitine acetyltransferase are significantly increased in the crude mitochondrial fraction isolated from the brains of the type II diabetic mice, whereas the specific activity of pyruvate dehydrogenase complex is decreased. The specific activities of two other mitochondrial enzymes--monoamine oxidase B and citrate synthase--and a cytosolic enzyme--lactate dehydrogenase--are unaltered. The ability to synthesize cyclic AMP is markedly decreased in the brains of the diabetic mice. The concentrations of carnitine and of the amino acids, glutamate, aspartate, glutamine, and serine are unaltered, whereas glycine levels are significantly elevated in the brains of the db/db mice. The data suggest that in vivo the brains of the diabetic mice exhibit a decreased capacity for glucose oxidation and increased capacity for fatty acid oxidation. This hypothesis is supported by the finding that cerebral mitochondria isolated from the db/db mice oxidize [1-14C]palmitate to 14CO2 at a rate almost twice that of control mitochondria. The present findings emphasize the potentially serious alteration of brain metabolism in uncontrolled type II diabetes.
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PMID:Lipid metabolism and membrane composition are altered in the brains of type II diabetic mice. 772 1

To investigate the relationship between insulin and reactivity to the cold pressure test four groups of mildly obese patients (12 per group: normotensive, essential hypertensive, normotensive (N-NIDD) and hypertensive non-insulin-dependent diabetics (H-NIDD)) underwent a standardised oral glucose tolerance test. During the test, BP and heart rate were monitored and venous blood samples were obtained at 0, 60 and 120 minutes to determine serum levels of glucose, insulin (microU/ml), sodium, potassium (mEq/I), renin activity (ng/ml/hour), aldosterone, noradrenaline and adrenaline. The cold pressure tests were performed before glucose ingestion (I-CPT) and again at 60 minute after ingestion (II-CPT). As expected, glucose ingestion caused a significant increase in glycaemia and serum insulin; the latter rose significantly more at 60 minutes in normotensives (85 +/- 6) and essential hypertensives (83 +/- 5) than in N-NIDD (30 +/- 4) and H-NIDD (29 +/- 3). Plasma K significantly decreased in normotensives (4.4 +/- 0.1 vs. 3.6 +/- 0.1, P < 0.05) and essential hypertensives (4.3 +/- 0.1 vs. 3.5 +/- 0.1, P < 0.05) but did not change in either N-NIDD or H-NIDD. PRA significantly increased in normotensives (0.6 +/- 0.1 vs. 1.2 +/- 0.1, P < 0.01) and essential hypertensives (0.8 +/- 0.1 vs. 1.5 +/- 0.2, P < 0.05) but did not change in N-NIDD or H-NIDD. Plasma sodium and catecholamines did not change in any group. I-CPT induced similar reactivity in all the groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Influence of glucose load on cardiovascular and humoral responses to a cold pressure test. 775 81

Long-term, serum supplemented cultures of rat adult ventriculocytes were utilized to study the tropic effects of the alpha-agonist phenylephrine and of the carnitine palmitoyltransferase I inhibitor etomoxir. Cell protein and the rate of incorporation of phenylalanine were measured, corrected for cellular DNA content and utilized as an index for hypertrophy and of anabolic activity of the cells, respectively. The mRNA level of ANF was utilized as an index for the pathological phenotypic change (i.e., switch to fetal gene program), and that of the Na-channel--a constantly expressed gene in normal and hypertrophic cardiomyocytes--served as an internal control. Both mRNAs were quantified at various stages in culture by competitive reverse transcriptase PCR. The size of control myocytes steadily increased for over 3 weeks. The cells were completely redifferentiated and reached a maximum of anabolic activity 2 weeks after plating. Secretion and mRNA levels of ANF were increased severalfold after 7-8 days. Addition of 10 microM phenylephrine considerably speeded up cell growth. Maximum anabolic activity and complete redifferentiation were reached already after 1 week. Levels of mRNA and of ANF release increased 30-40 fold. Interestingly, induction of ANF gene transcription lagged behind the redifferentiation of the cells. Ten microM etomoxir inhibited the oxidation of palmitic acid and stimulated that of exogenous glucose by adult cardiomyocytes. In spite of its clear effect on fuel utilization, etomoxir had no direct hypertrophic effect on the myocytes in culture and did not inhibit the stimulatory action of alpha-agonists. Reactivation of the fetal gene program, as visualized by ANF production, was not reversed by etomoxir.
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PMID:Effect of alpha adrenergic stimulation and carnitine palmitoyl transferase I inhibition on hypertrophying adult rat cardiomyocytes in culture. 775 39


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