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 regulation of acetyl-CoA carboxylase (ACC) by glucose and other fuel molecules has been examined in Fao Reuber hepatoma cells and Syrian hamster insulin tumor (HIT) cells in order to determine whether lipogenic substrates acutely alter ACC activity and to examine the mechanism of such regulation. In Fao cells, preincubated in simple medium without substrates, glucose addition results in a rapid activation of ACC. This effect, mimicked by other fuels such as lactate, is characterized by an increase in enzyme Vmax and a decrease in the activation constant for citrate. Several lines of evidence indicate that this activation of ACC is due to enzyme dephosphorylation, including the kinetic changes observed, the persistence of enzyme activation through ACC isolation, the necessity of inclusion of sodium fluoride/EDTA in the cell lysis buffer for preservation of the glucose-induced change, and the direct demonstration of diminished 32P-labeling of ACC after glucose exposure. Identical effects of glucose are also observed in HIT cells, although the ACC activation is smaller in magnitude and less sensitive than that observed in Fao cells. Other insulin secretagogues such as glutamine, lactate, and isobutylmethylxanthine are also found to activate HIT ACC. Others have suggested that glucose-induced changes in malonyl-CoA in beta-cells may be linked to glucose-induced insulin secretion. However, studies conducted in late passage HIT cells, which fail to secrete insulin in response to glucose stimulation, reveal the same glucose-induced activation seen in early passages, secretion-competent HIT cells, suggesting that glucose-induced ACC activation is not by itself sufficient to provoke insulin secretion. Taken together, these findings indicate that glucose and other fuel molecules can play a major role in the rapid regulation of the fatty acid synthesis pathway. The activation of fatty acid synthesis by substrate-induced ACC dephosphorylation insures ultimate fuel storage of glucose-derived carbon as fatty acid, while substrate-induced increases in the ACC product, malonyl CoA, would serve to simultaneously limit the rate of fatty acid oxidation through its allosteric regulation of carnitine palmitoyltransferase I.
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PMID:Glucose regulation of acetyl-CoA carboxylase in hepatoma and islet cells. 134 95

We have reported defective coupling of the renal tubular DA1 dopamine receptor to adenylyl cyclase in both the spontaneously hypertensive rat (SHR) and the Dahl salt-sensitive rat. Since Na+, 5'-guanyl imidodiphosphate [Gpp(NH)p], and N-ethylmaleimide (NEM) reduce agonist affinity for brain D1 dopamine receptors, we compared the effects of these agents on agonist affinity in proximal tubules from SHR and its normotensive control, the Wistar-Kyoto rat (WKY), to delineate further the site of the DA1-adenylyl cyclase coupling defect. In WKY, the D1/DA1 agonist, fenoldopam, competed for 125I-Sch 23982 at a high-affinity site (KiH = 1.8 +/- 0.8 x 10(-8) M) and a low-affinity site (KiL = 7.6 +/- 1.1 x 10(-5) M, n = 6). Na+ (150 mM) or Gpp(NH)p (10(-4) M) converted KiH to KiL. NEM, which alkylates sulfhydryl groups, also converted all the binding to KiL; this effect could be prevented by prior treatment with 10(-4) M fenoldopam. In contrast, in SHR, fenoldopam detected only a KiL (7.8 +/- 1.4 x 10(-5) M, n = 6). Neither Na+, Gpp(NH)p, nor NEM had any effect on KiL. To study a functional expression of these binding sites, the effect of 5 x 10(-5) M fenoldopam or 8-(chlorophenylthio)-adenosine 3',5'-cyclic monophosphate (8-CPT-cAMP) on Na+/H+ exchange activity in proximal tubular brush-border membrane vesicles was tested. In WKY, the inhibitory effects of these agents on the exchanger increased with the age of the rat.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Renal dopamine receptors and pre- and post-cAMP-mediated Na+ transport defect in spontaneously hypertensive rats. 136 27

A procedure for the purification of the rat liver microsomal carnitine octanoyltransferase (COT) that catalyzes the reversible formation of medium-chain and long-chain acylcarnitines from acyl-coenzyme A is described. The K0.5 for L-carnitine is 0.6 mM and the K0.5 for both decanoyl-CoA and palmitoyl-CoA is 0.6 microM. The Vmax with decanoyl-CoA is approximately fourfold greater than the Vmax with palmitoyl-CoA. The enzyme is monomeric, sodium dodecyl sulfate-polyacrylamide gel electrophoresis gives a molecular weight of 50,100, and molecular sieving gives a molecular weight of 54,300. Purified COT does not cross-react with either antimitochondrial carnitine palmitoyltransferase or antiperoxisomal COT antibodies. It also does not form a covalent adduct when incubated with etomoxiryl-CoA. Microsomal COT is a different protein than either mitochondrial carnitine palmitoyltransferase or peroxisomal COT.
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PMID:Purification of the medium-chain/long-chain (COT/CPT) carnitine acyltransferase of rat liver microsomes. 142 10

Solubilization of rat liver mitochondria in 5% Triton X-100 followed by chromatography on a hydroxylapatite column resulted in the identification of malonyl-CoA binding protein(s) distinct from a major carnitine palmitoyltransferase activity peak. Further purification of the malonyl-CoA binding protein(s) on an acyl-CoA affinity column followed by sodium dodecyl sulfate gel electrophoresis indicated proteins with Mr mass of 90 and 45-33 kDa. A purified liver malonyl-CoA binding fraction, which was devoid of carnitine palmitoyltransferase, and a soluble malonyl-CoA-insensitive carnitine palmitoyltransferase were reconstituted by dialysis in a liposome system. The enzyme activity in the reconstituted system was decreased by 50% in the presence of 100 microM malonyl-CoA. Rat liver mitochondria carnitine palmitoyltransferase may be composed of an easily dissociable catalytic unit and a malonyl-CoA sensitivity conferring regulatory component.
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PMID:Restoration of malonyl-CoA sensitivity of soluble rat liver mitochondria carnitine palmitoyltransferase by reconstitution with a partially purified malonyl-CoA binding protein. 158 64

Proton transport pathways in isolated superfused rabbit cortical connecting (CNT) and collecting tubules (CCD) were determined using the fluorescent pH-sensitive dye BCECF following acid or base load by exposure to NH4Cl. Following removal of NH4Cl which results in a rapid decline in pHi two mechanisms appear to be responsible for pHi recovery, a Na-independent NEM-sensitive H efflux with a slow activity, which was virtually absent in 30% of the segments tested and a second rapid Na-dependent H efflux. In CCD this latter pathway was shown to have an apparent Km for (Na+)e of 38.2 +/- 0.4 mM (S.D., n = 7) and was sensitive to EIPA. Similar results were obtained with the CNT. With regard to the H pump in six out of ten CCD isoproterenol (200 nM) resulted in a 2-fold stimulation of H pump activity. These effects of isoprenaline were inhibited both by the non-specific beta-adrenoceptor antagonist propranolol as well as by the specific b1 antagonist metoprolol. Interestingly, these stimulatory effects of this beta agonist, which is known to stimulate cAMP formation in rabbit CCD, were not reproduced by the addition of exogenous cAMP analogues db cAMP (0.1 mM), CPT cAMP (0.1 mM), 8 Br-cAMP (0.1 mM) or the addition of forskolin (0.3 mM). In conclusion, these data obtained in isolated rabbit CNT and CCT demonstrate the presence of an active Na-H exchange which is for the most part responsible for the recovery of pHi. It should be noted also that the contribution of the H pump to pHi regulation appears to be negligible in these segments.
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PMID:Regulation of intracellular pH in rabbit cortical connecting tubule and cortical collecting duct. 166 Nov 63

We studied the effect of sodium 2-[5-(4-chlorophenyl)pentyl]oxirane-2-carboxylate (POCA), a potent inhibitor of mitochondrial carnitine palmitoyltransferase I, on fatty acid oxidation by rat brain cells. In cultured glial cells as well as in dissociated brain cells from adult rats palmitic acid (16:0) oxidation was inhibited by about 85% of control values when 25 microM POCA was added to the medium, whereas no inhibition of cerotic acid (26:0) oxidation was observed. Furthermore, omission of carnitine from the culture medium resulted in a 57.7% decrease in palmitic acid oxidation in cultured glial cells, whereas cerotic acid oxidation was not influenced. These results indicate that rat brain peroxisomes contribute only little (about 15%) to palmitic acid oxidation and provide conclusive evidence that cerotic acid is oxidized exclusively in rat brain peroxisomes.
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PMID:Oxidation of very-long-chain fatty acids in rat brain: cerotic acid is beta-oxidized exclusively in rat brain peroxisomes. 191 73

Rat hepatocyte cultures have higher rates of beta-oxidation of palmitate and lower rates of esterification to glycerolipid than human or guinea pig hepatocytes. The R-enantiomer of etomoxir (sodium 2-[6-(4-chlorophenoxy)hexyl]oxirane-2-carboxylate), a hypoglycaemic compound and inhibitor of carnitine palmitoyltransferase I, inhibited palmitate beta-oxidation in all three species, but the sensitivity to inhibition was highest in human hepatocytes and lowest in rat hepatocytes. The concentration causing half-maximal inhibition was approximately: 0.1 microM in human; 1 microM in guinea pig and 10 microM in rat hepatocytes. In human and in guinea pig hepatocytes the inhibition of beta-oxidation by R-etomoxir was associated with an increase in the esterification of palmitate but in rat hepatocytes R-etomoxir lowered the total rate of palmitate metabolism. The S-enantiomer of etomoxir had no significant effect on beta-oxidation or esterification of palmitate in any of the three species. It is concluded that there are significant differences between human, rat and guinea pig hepatocytes, not only in the relative partitioning of palmitate between beta-oxidation and esterification, but also in the sensitivity to an inhibitor of carnitine palmitoyltransferase I.
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PMID:Differences between human, rat and guinea pig hepatocyte cultures. A comparative study of their rates of beta-oxidation and esterification of palmitate and their sensitivity to R-etomoxir. 193 Feb 97

The effects of antiarrhythmic doses of lidocaine on efferent sympathetic outflow or sympathetic responses to autonomic stimuli in humans are unknown. In the present study, direct recordings of postganglionic muscle sympathetic nerve activity (MSNA), which modulates vascular tone, were obtained from the peroneal nerve of 22 healthy volunteers (aged 20 to 27 years). Baseline cardiac intervals (ECG), arterial pressure (radial artery), central venous pressure (CVP, jugular vein), forearm vascular resistance (FVR, Hg-in-Silastic plethysmography), and MSNA were identical in two randomized study groups (lidocaine [L], 1.5 mg/kg bolus, followed by 2 mg/min infusion, n = 12; and placebo [P] saline bolus and infusion, n = 10). Each underwent a cold pressor test (CPT, ice packs to foot for 90 seconds) and baroreceptor test (sequential boluses of 100 micrograms of sodium nitroprusside and 100 micrograms of phenylephrine). Five minutes after the bolus administration of L, plasma L levels were 3 micrograms/mL, which was associated with significant (P less than 0.05) increases in systolic and diastolic pressures (6.6 +/- 2.4 and 5.5 +/- 1.1 mm Hg). This elicited significant reflex decreases in MSNA (-3 +/- 1.1 bursts/100 cardiac cycles) and RR interval (-63 +/- 14 ms). The hypertension, tachycardia, forearm vasoconstriction, and MSNA increase in response to the CPT were significantly attenuated and the sympathoexcitatory response to baroreceptor unloading was blunted by L. These responses were not altered during the administration of P. In the steady-state L infusion period, plasma levels were subtherapeutic (1 microgram/mL) and were insufficient to consistently alter autonomic stress responses.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Lidocaine attenuates efferent sympathetic responses to stress in humans. 193 48

The effects of sodium 2-[5-(4-chlorophenyl)pentyl]oxirane-2-carboxylate (POCA), a potent inhibitor of carnitine palmitoyltransferase I, on fatty acid oxidation were investigated using fibroblasts from control subjects and from patients with peroxisomal disorders. [1-14C]Palmitate oxidation was inhibited by 8% of the control value when 15 microM POCA was added to the medium. The inhibition by POCA was significantly (P less than 0.05) stronger in fibroblasts from patients with Zellweger syndrome or with neonatal adrenoleukodystrophy, in which peroxisomes and peroxisomal beta-oxidation enzymes were absent. However, the inhibition in fibroblasts from patients with X-linked adrenoleukodystrophy, in which a specific defect of peroxisomal lignoceroyl-CoA synthetase was speculated, was similar to that in the controls. [1-14C]Lignocerate oxidation was not influenced by the addition of POCA, in samples from the controls and from the patients. These results indicate that peroxisomes account for a small but demonstrable proportion of palmitate oxidation, and add new evidence to the concept that lignocerate is oxidized exclusively in the peroxisomes. Our findings also support the hypotheses that the activity of palmitoyl-CoA synthetase and the enzymes of beta-oxidation cycle in peroxisomes are normal in patients with X-linked adrenoleukodystrophy and that a specific defect of lignoceroyl-CoA synthetase is responsible for the accumulation of very long chain fatty acids in these patients.
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PMID:Effects of sodium 2-[5-(4-chlorophenyl)pentyl]-oxirane-2-carboxylate (POCA) on fatty acid oxidation in fibroblasts from patients with peroxisomal diseases. 199 2

Sodium cholate was used as an anionic detergent to discriminate the two components of liver overt carnitine palmitoyltransferase (CPT1); namely a catalytic entity and a regulatory component that bound malonyl-CoA. Cholate solubilized approx. 40% of the malonyl-CoA binding entity from mitochondrial outer membranes without appreciable solubilization of CPT1 activity. Cholate did not interfere with binding of [14C]malonyl-CoA to outer membranes or to crude total mitochondrial membrane fractions. By contrast, the non-ionic detergent Tween-20 was ineffective in solubilizing the malonyl-CoA binding entity and also substantially interfered with the binding of [14C]malonyl-CoA. Both detergents appeared to cause total disengagement of the malonyl-CoA binding entity from the catalytic entity of CPT1 only when some inner membrane material was present. 'Reconstitution' experiments were performed in which a malonyl-CoA sensitivity conferring factor in cholate extracts from outer membranes was associated with CPT derived from inner membranes (CPT2). The IC50 for inhibition of CPT2 by malonyl-CoA in this artificial system was similar to that observed with CPT1 in situ in outer membranes. Extracts containing malonyl-CoA sensitivity conferring factor derived from outer membranes of fed or 48 h fasted rats were associated with CPT2 derived from fed rats. The outer membrane extracts from fasted animals conferred a lower maximum responsiveness to malonyl-CoA, but appeared to have a higher affinity for CPT2 than the extracts from fed rats. These results suggest that physiological state can alter the intrinsic properties of the malonyl-CoA sensitivity confering factor.
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PMID:Cholate separates the catalytic and malonyl-CoA-binding components of carnitine palmitoyltransferase from liver outer mitochondrial membranes. 203 50


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