EC:2.3.1.21 - FACTA Search

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)

The T7gene-4 protein has been purified to near homogeneity using a complementation assay in vitro, and it is designated T7 DNA-priming protein (DNA primase). The purified enzyme enables T7 DNA polymerase to initate DNA synthesis on various circular single-stranded DNA templates by a mechanism which involes the synthesis of a very short RNA primer. The oligoribonucleotide, which is linked to the product DNA via a 3':5'-phosphodiester bond, starts with pppA-C and terminates predominantly with AMP. When only ATP and CPT are precursors, the RNA primer is found to be primarily a tetranucleotide of the sequence pppA-C-C-A. Using oligoribonucleotides in place of ribonucleoside triphosphates as chain initators, T7 DNA-priming protein drastically increases the efficiency with which T7 DNA polymerase can utilize particular tetranucleotide primers containing A and C residues. T7 DNA-priming protein also enables T7 DNA polymerase to make use of native or nicked duplex T7 DNA as template-primer. This reaction does not require ribonucleoside triphosphates, although their addition enhances DNA synthesis 2--4 fold. The product formed in their absence is covalently attached to the template DNA and is found to contain a few long branches when examined by electron microscopy. In the presence of ribonucleoside triphosphates most of the newly made product arises from imitation of DNA chains de novo. Incubation of three proteins: T7 DNA-priming protein, T7 DNA polymerase, and T7 DNA-binding protein, with ribonucleoside and deoxyribonucleoside triphosphates, and with phiX174DNA as template leads to the generation of 'rolling circle-like' structures as visualized in the electron microscope. Single-stranded regions at the tail-circle junction indicate that initations can occur de novo on the displaced complementary strand. This is consistent with a discontinuous mode of 'lagging' strand synthesis and suggests that the same proteins may also be responsible for fork propagation in vivo.
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PMID:Bacteriophage-T7-induced DNA-priming protein. A novel enzyme involved in DNA replication. 32 3

1. Long-chain acid: CoA ligase (AMP-forming) (trivial name acyl-CoA synthetase; EC 6.2.1.3) is located at the membranes of the endoplasmic reticulum and the outer membrane of the mitochondria. The latter membrane has by far the highest specific activity. 2. GTP-dependent synthesis of acyl-CoA has a very low activity in liver mitochondria (about 5% of the activity measured with ATP). CTP, ITP, UTP and GTP may all provide energy for fatty acid activation in sonicated mitochondria by formation of ATP from endogenous ADP and AMP. 3. In rat liver palmitoyl-CoA: L-carnitine O-palmitoyltransferase (trivial name carnitine palmitoyltransferase; EC 2.3.1.21) is located at the microsomal membranes and in the inner membrane of the mitochondria. Its activity is increased, in both membranes, during fasting and in thyroxine-treated rats. The extramitochondrial carnitine palmitoyltransferase may capture part of the acyl CoA formed at the endoplasmic reticulum as acyl-carnitine, especially during fasting and other metabolic conditions of high fatty acid turnover. This transport form of activated fatty acid can penetrate the inner mitochondrial membrane (the acyl-CoA barrier) where it can be reconverted to acyl-CoA, providing the substrate for beta-oxidation in the inner membrane-matrix compartment. The small part of the mitochondrial carnitine palmitoyltransferase, described to be present at the external surface of the mitochondrial inner membrane, may have the same function in the transport of acyl-CoA formed at the mitochondrial outer membrane. 4. Isolated rat liver mitochondria can oxidize high concentrations of palmitate or oleate in the absence of carnitine. In this case the fatty acids are activated in the inner membrane-matrix compartment of the mitochondria, probably by a medium-chain acyl-CoA synthetase with wide substrate specificity. Because this enzyme is less active in heart and absent in skeletal muscle, these tissues oxidize long-chain fatty acids in an obligatory carnitine-dependent fashion. Also the liver oxidizes long-chain fatty acids in a carnitine-dependent way if lower fatty acid concentrations are used. In this tissue carnitine stimulates specifically the partial oxidation of fatty acids to beta-hydroxybutyrate and acetoacetate. 5. The activities of acyl-CoA: sn-glycerol-3-phosphate O-acyltransferase (trivial name glycerophosphate acyltransferase; EC 2.3.1.15) and carnitine palmitoyltransferase change in opposite directions during fasting. These activity changes, together with the measured kinetic properties of the enzymes in mitochondria and microsomes, allow a switch (relatively) from lipid synthesis to ketogenesis during fasting. This switch may occur at the level of long-chain acyl-CoA both in the endoplasmic reticulum and in the mitochondria.
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PMID:Aspects of long-chain acyl-COA metabolism. 113 97

The enzymes cAMP-dependent protein kinase (PKA) and protein kinase C (PKC) regulate the activity of cardiac ion channel proteins. In this study the whole-cell arrangement of the patch clamp technique was used to examine the effect of NaI on PKA-stimulated Cl- and Ca2+ channels in isolated guinea pig ventricular myocytes. Cl- currents (ICl) activated either by the beta-adrenergic agonist isoproterenol or the membrane-soluble cAMP analogue, 8-chlorphenylthio (8-CPT) cAMP, were greatly reduced in amplitude after substitution of an external solution containing 140 mM NaCl with a solution containing 140 mM NaI. This reduction was accompanied by a shift of -7 mV in the reversal potential (Erev) for ICl and could be reversed upon return to the NaCl external solution. Inhibition of ICl by NaI occurred in a concentration-dependent manner and was more pronounced for inward ICl (IC50 = 19 mM at -60 mV) than for outward ICl (IC50 = 60 mM at +60 mV). In contrast to ICl activated by PKA, ICl activated by PKC was slightly augmented in the presence of NaI and the Erev was found to shift by -15 mV. Based on these data, the relative permeability of I- to Cl- (PI/PCl) for this channel was calculated to be 1.79. NaI produced no change in the amplitude of inward calcium currents (ICa) recorded under basal conditions, but strongly inhibited ICa augmented by isoproterenol and 8-CPT cAMP, and during dialysis of cells with the catalytic subunit of PKA (CS). The in vitro incorporation of [gamma-32P]ATP into histone IIA and Kemptide, measured in the presence of PKA and cAMP, was not significantly different in assay mixtures containing salts of Cl- and I-. However, the ability of isoproterenol to augment basal ICa in whole-cell experiments was attenuated when experiments were carried out entirely in NaI external solution. Thus, the reduction in ICl and ICa observed in this study may result from a direct effect of I- on the phosphorylation/dephosphorylation of cardiac ion channel proteins or associated regulatory proteins.
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PMID:Inhibition of heart calcium and chloride currents by sodium iodide. Specific attenuation in cAMP-dependent protein kinase-mediated regulation. 128 46

Whether infection with influenza B virus alters hepatic function was examined in the ferret. Also, the possibility that viral-specific antibodies (Ab) could be produced well before their detection in serum was explored. During the febrile period of influenza, reductions in the serum potassium, anion gap, ammonia, albumin and CPK and elevations of the BUN, creatinine and the GGTP levels occurred. With convalescence, the electrolytes, BUN and creatinine normalized, FFA, SGPT and CPK levels rose and the serum GGTP rose even further. Hepatic fatty acid (FA) oxidation, ornithine transcarbamylase (OTC) and carnitine palmitoyltransferase (CPT) activities were minimally altered and liver ATP and total lipid content remained normal. Following experimental secondary viremia, serum FFA continued to rise, TG decreased and CPK remained elevated while SGPT and GGTP levels normalized. In the liver, FA oxidation and OTC rates remained unchanged but CPT activity was inhibited and the liver content of ATP was significantly reduced. Immune complex (IC) protein recovered from postmicrosomal supernatant fractions by polyethylene glycol precipitation was progressively increased in livers from convalescent and viremic animals. While the amount of IC protein recovered in the spleen also increases during convalescence, this is not the case after viremia when the IC formed seem to be processed largely by the liver. By SDS/PAGE, the major proteins identified in the IC were IgM and other viral proteins. However, the viral proteins could not be validated by immunoblot with Ab produced against purified influenza B hemagglutinin (HA) and neuraminidase (NA) most probably due to phagocytic alterations of glycoprotein immunodeterminants. These findings indicate that during influenza, convalescence and post viremia changes in the concentrations of several serum and liver components occur that reflect hepatic involvement. Also, antiviral Ab, largely IgM, appears to be produced early, complexes with Ag and can be found sequestered in both the liver and spleen at a time when Ab is not detectable in the serum.
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PMID:Potential for hepatic and renal dysfunction during influenza B infection, convalescence, and after induction of secondary viremia. 135 41

We investigated the role of energy supplied by long-chain fatty acid oxidation in rat platelet function. Inhibition of the mitochondrial uptake of long-chain fatty acids was achieved by treating rats with 2-tetradecylglycidic acid (TDGA), a potent inhibitor of the overt form of carnitine palmitoyltransferase (CPT-I). The maximum aggregation rate (MAR), CPT-I activity, lactate production, oxygen consumption and adenine nucleotide content of isolated rat platelets were then studied in vitro. 4 h after the in vivo administration of TDGA, the CPT-I activity in saponin-permeabilized platelets was nearly completely inhibited along with a significant reduction in the MAR induced by ADP, thrombin and ionophore A23187. The ATP level, adenylate energy charge (ATP + 1/2 ADP)/(ATP + ADP + AMP) and ATP/ADP ratio in the platelet cytoplasmic pool were also reduced. Platelets from TDGA-treated rats showed lower oxygen consumption rates in both the basal respiratory and oxygen burst states. These results indicate that mitochondrial long-chain fatty acid oxidation coupled to oxidative phosphorylation is an important energy source in rat platelets and is probably involved in the maintenance of platelet function. Enhanced in vitro lactate production in platelets from TDGA-treated rats may have resulted from a compensatory increase in glycolysis which only partly compensated for impaired long-chain fatty acid oxidation.
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PMID:Effects of 2-tetradecylglycidic acid on rat platelet energy metabolism and aggregation. 142 Feb 90

The deacylation and reacylation process of phospholipids is the major pathway of turnover and repair in erythrocyte membranes. In this paper, we have investigated the role of carnitine palmitoyltransferase in erythrocyte membrane phospholipid fatty acid turnover. The role of acyl-L-carnitine as a reservoir of activated acyl groups, the buffer function of carnitine, and the importance of the acyl-CoA/free CoA ratio in the reacylation process of erythrocyte membrane phospholipids have also been addressed. In intact erythrocytes, the incorporation of [1-14C]palmitic acid into acyl-L-carnitine, phosphatidylcholine, and phosphatidylethanolamine was linear with time for at least 3 h. The greatest proportion of the radioactivity was found in acyl-L-carnitine. Competition experiments using [1-14C]palmitic and [9,10-3H]oleic acid demonstrated that [9,10-3H]oleic acid was incorporated preferentially into the phospholipids and less into acyl-L-carnitine. When an erythrocyte suspension was incubated with [1-14C]palmitoyl-L-carnitine, radiolabeled palmitate was recovered in the phospholipid fraction, and the carnitine palmitoyltransferase inhibitor, 2-tetradecylglycidic acid, completely abolished the incorporation. ATP depletion decreased incorporation of [1-14C]palmitic and/or [9,10-3H]oleic acid into acyl-L-carnitine, but the incorporation into phosphatidylcholine and phosphatidylethanolamine was unaffected. In contrast, ATP depletion enhanced the incorporation into phosphatidylcholine and phosphatidylethanolamine of the radiolabeled fatty acid from [1-14C]palmitoyl-L-carnitine. These data are suggestive of the existence of an acyl-L-carnitine pool, in equilibrium with the acyl-CoA pool, which serves as a reservoir of activated acyl groups. The carnitine palmitoyltransferase inhibition by 2-tetradecylglycidic acid or palmitoyl-D-carnitine caused a significant reduction of radiolabeled fatty acid incorporation into membrane phospholipids, only when intact erythrocytes were incubated with [9,10-3H]oleic acid. These latter data may be explained by the differences in rates and substrates specificities between acyl-CoA synthetase and the reacylating enzymes for palmitate and oleate, which support the importance of carnitine palmitoyltransferase in modulating the optimal acyl-CoA/free CoA ratio for the physiological expression of the membrane phospholipids fatty acid turnover.
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PMID:Role of carnitine and carnitine palmitoyltransferase as integral components of the pathway for membrane phospholipid fatty acid turnover in intact human erythrocytes. 161 73

The regulation of the plasma membrane Ca2+ pump by hormones via phosphorylation in intact cells has not been clearly established. We now present evidence that the Ca2+ pump is phosphorylated on both serine and threonine residues in unstimulated and stimulated cultured rat aortic endothelial cells. Among the stimuli tested, the protein kinase C activator phorbol 12-myristate 13-acetate (PMA) was most potent and increased the level of phosphorylation threefold, while the cAMP-dependent protein kinase activator 8-(4-chlorophenylthio)-cAMP (CPT-cAMP) stimulated the phosphorylation 1.6-fold. Two-dimensional tryptic phosphopeptide maps of the Ca2+ pump from unstimulated and CPT-cAMP-stimulated cells have identical patterns (five phosphopeptides) while PMA-stimulated cells have three additional phosphopeptides. Isoproterenol-, ATP-, angiotensin II-, and bradykinin-stimulated cells also have increased levels of Ca2+ pump phosphorylation. Stimuli-induced phosphorylation of the Ca2+ pump was rapid (5-10 min) and was concomitant with stimulated calcium efflux from the same cells. This is the first direct evidence that the plasma membrane Ca2+ pump in intact cells is regulated by various hormones or agonists via cAMP-dependent protein kinase or protein kinase C phosphorylation.
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PMID:Hormone-induced phosphorylation of the plasma membrane calcium pump in cultured aortic endothelial cells. 165 40

The effects of permeant cAMP analogs were studied on the function of the gamma-aminobutyric acidA (GABAA) receptor and on the activation of protein kinase A in brain synaptoneurosomes. Incubation of cerebral cortical synaptoneurosomes with permeant cAMP analogs decreased muscimol-induced 36Cl- uptake in a concentration-dependent manner. The order of potency was chlorophenylthio-cAMP (CPT-cAMP) greater than dibutyryl-cAMP greater than 8-bromo-cAMP. This order of potency was reflected by the ability of the analogs to gain access to the intravesicular compartment. cAMP, which failed to penetrate the membrane, had no effect. The half-maximal and maximal effects of the cAMP analogs were similar in the cerebral cortex, hippocampus, striatum, and cerebellum. To determine whether the cAMP analogs were acting through the activation of protein kinase A, protein kinase A activity was measured in lysed synaptoneurosomes, using kemptide as the substrate. In the lysed preparation, where the cAMP analogs have direct access to intracellular enzymes, the order of potencies of the cAMP analogs to activate protein kinase A (8-bromo-cAMP greater than CPT-cAMP greater than dibutyryl-cAMP) differed from the order of potencies to inhibit muscimol-induced 36Cl- uptake. In regional studies, the greatest effect of CPT-cAMP was observed in the cortex, whereas the smallest effect was observed in the hippocampus and cerebellum. To determine whether cAMP inhibition of GABA-gated ion flux was due to activation of protein kinase A, the time course for each response was measured. Inhibition of muscimol-induced 36Cl- uptake by cAMP analogs was nearly complete by 5 sec. Significant activation of protein kinase A by CPT-cAMP was also observed as early as 5 sec, but protein kinase A activation continued up to 10 min. The protein kinase inhibitor peptide inhibited protein kinase A activity in lysed synaptoneurosomes but had no effect on ion flux in intact synaptoneurosomes, as expected. However, a permeant kinase inhibitor, H-8, also failed to inhibit the effect of cAMP analogs on the muscimol response, yet it inhibited protein kinase A activity. The failure of H-8 to inhibit cAMP analog effects on GABAA receptor function was most likely due to the presence of ATP inside the synaptoneurosomes, because H-8 inhibition of protein kinase A was reduced in the presence of ATP. These results indicate that cAMP and cAMP analogs must penetrate the intravesicular compartment to inhibit GABAA receptor function. Although cAMP analogs decrease GABA-gated ion flux under conditions in which they activate protein kinase A, a causal relationship remains to be established.
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PMID:cAMP analogs inhibit gamma-aminobutyric acid-gated chloride flux and activate protein kinase A in brain synaptoneurosomes. 184 58

Alterations in energy substrate utilization during reperfusion of ischemic hearts can influence the functional recovery of the myocardium. Energy substrate preference by the reperfused myocardium, however, has received limited attention. Therefore, we measured oxidation rates of glucose and palmitate during reperfusion of ischemic hearts. Isolated working rat hearts were perfused with 1.2 mM palmitate and 11 mM [14C]glucose, 1.2 mM [14C]palmitate and 11 mM glucose, or 11 mM [14C]glucose alone, at an 11.5 mm Hg preload and 80 mm Hg afterload. Hearts were subjected to 60-minute aerobic perfusion or 25-minute global ischemia followed by 60-minute aerobic reperfusion. Steady-state oxidative rates of glucose or palmitate were determined by measuring 14CO2 production. In hearts perfused with glucose alone, oxidative rates during reperfusion were not significantly different than nonischemic hearts (1,008 +/- 335 vs. 1,372 +/- 117 nmol [14C]glucose oxidized/min/g dry wt, respectively). In the presence of palmitate, glucose oxidation was markedly reduced in reperfused and nonischemic hearts (81 +/- 11 and 101 +/- 15 nmol [14C]glucose oxidized/min/g dry wt, respectively). Palmitate oxidation rates were not significantly different in reperfused compared with nonischemic hearts (369 +/- 55 and 455 +/- 50 nmol [14C]palmitate oxidized/min/g dry wt, respectively). [14C]Palmitate was incorporated into myocardial triglycerides to a greater extent in reperfused ischemic hearts than in nonischemic hearts (26.0 and 13.8 mumol/g dry wt, respectively). Under the perfusion conditions used, palmitate provided over 90% of the ATP produced from exogenous substrates. Addition of the carnitine palmitoyltransferase I inhibitor, ethyl 2-[6-(4-chlorophenoxy)hexyl]oxirane-2-carboxylate (Etomoxir, 10(-6) M), during reperfusion stimulated glucose oxidation and improved mechanical recovery of ischemic hearts.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Glucose and palmitate oxidation in isolated working rat hearts reperfused after a period of transient global ischemia. 229 17

In heart and red muscle of dogfish (Squalus acanthias), the maximal activities of the fatty acid catabolizing enzyme carnitine palmitoyltransferase (CPT) are less than 5% the rate in the same tissues of teleosts (carp, Cyprinus carpio; trout, Salmo gairdneri). CPT activities in these tissues of hagfish (Eptatretus stouti) are approximately 10% the rate in teleosts. However, the maximal activities of the beta-oxidation enzyme beta-hydroxyacyl-CoA dehydrogenase (HOAD) in dogfish red muscle and heart are similar to these tissues in the other species. This paradox prompted a more detailed study on the capacity of mitochondria from dogfish cardiac and red skeletal muscles to utilize fatty acids, possibly by a CPT-independent pathway. Free fatty acids were not oxidized by mitochondria from red muscle (hexanoate, octanoate, decanoate, and palmitate) or from heart (octanoate, palmitate). Neither hyposmotic incubation nor addition of 5 mM ATP could stimulate oxidation of octanoate or palmitate in either preparation, suggesting that these tissues have little capacity to oxidize fatty acids by a carnitine-independent pathway. Palmitoyl carnitine oxidation was detectable at very low rates in these mitochondria only with hyposmotic incubation. Octanoyl carnitine was oxidized at greater rates than palmitoyl carnitine, 10% the rate of pyruvate in both tissues, suggesting that medium-chain fatty acids could be physiologically relevant fuels in elasmobranchs if available to heart and red muscle. One potential source of medium-chain fatty acids is hepatic peroxisomal beta-oxidation, which occurs in dogfish liver at maximal activities similar to carp and trout liver. However, based on relative rates of oxidation, it is likely that dogfish heart and red muscle metabolism are fueled primarily by carbohydrate and ketone bodies.
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PMID:Mitochondrial and peroxisomal fatty acid oxidation in elasmobranchs. 231 20

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