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)

Properties of the carnitine palmitoyltransferase (EC 2.3.1.21) (CPT) enzyme system were compared in isolated mitochondria from a range of tissues in rodents, monkey, and man. Common features were as follows: (a) while membrane-bound, CPT I, but not CPT II, was inhibited reversibly by malonyl-coenzyme A (CoA) and irreversibly by CoA esters of certain oxirane carboxylic acids; (b) the detergent, Tween-20, readily solubilized CPT II in active form while leaving CPT I membrane associated and catalytically functional; (c) octyl glucoside and Triton X-100 released active CPT II but caused essentially complete loss of CPT I activity. Use of [3H]tetradecylglycidyl-CoA, a covalent ligand for CPT I, yielded estimates of the enzyme's monomeric molecular size: approximately 86 kDa in non-hepatic tissues and approximately 90-94 kDa in liver, depending upon species. A polyclonal antibody to purified rat liver CPT II recognized a single protein in each tissue; its apparent molecular mass was approximately 70 kDa in all rat tissues and approximately 68 kDa in all mouse tissues as well as monkey and human liver. On Northern blot analysis a rat liver CPT II cDNA probe detected a single approximately 2.5-kilobase mRNA in all rat and mouse tissues examined. The following points are emphasized. First, CPT I and II are different proteins. Second, within a species CPT II, but not CPT I, is probably conserved across tissue lines. Third, slight variations in size of both enzymes were found in different species, although, at least in the case of CPT II, significant amino acid identity exists among the various isoforms. Fourth, CPT I, unlike CPT II, requires membrane integrity for catalytic function. Finally, the strategic use of detergents provides a simple means of discriminating between the two enzyme activities.
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PMID:Inter-tissue and inter-species characteristics of the mitochondrial carnitine palmitoyltransferase enzyme system. 235 17

By using octyl glucoside in the presence of glycerol, it is possible to obtain a solubilized malonyl-CoA-sensitive carnitine palmitoyltransferase (CPTo) from the outer membranes of rat liver mitochondria. H.p.l.c. on hydroxyapatite column has now allowed a clear separation of the CPTo from the malonyl-CoA-insensitive CPT activity of the inner membranes (CPTi). The separated CPTo activity showed inhibition by low micromolar concentrations of malonyl-CoA, 2-tetradecylglycidyl-CoA and etomoxir-CoA. On solubilization and fractionation, the CPTo rapidly lost activity, unlike the relatively stable CPTi activity. Reconstitution into asolectin liposomes enhanced the activity and the malonyl-CoA-sensitivity of the CPTo fractions, whereas it had no such effect on the activity or malonyl-CoA insensitivity of the CPTi fractions. A polyclonal antibody raised against the malonyl-CoA-insensitive enzyme, purified from the inner membranes, precipitated the CPTi activity, but showed no reactivity with the CPTo fractions. In Western blots, the above antibody did not react with any polypeptide of the CPTo fractions. Incubation of the outer-membrane preparations with [3H]etomoxir, in the presence of ATP and CoA, led to labelling of a 90 kDa polypeptide that in the above hydroxyapatite chromatography was eluted in the same region as the CPTo. No such polypeptide labelling was seen in the CPTi fractions. With heart and skeletal-muscle mitochondria, the correspondingly labelled polypeptide was of about 86 kDa. These results show that the CPTo and CPTi are distinct proteins, that a subunit of 90 kDa for liver and 86 kDa for muscle constitutes a component of their respective CPTo systems, and that the 66 kDa subunit of the CPTi does not constitute a part of the CPTo system.
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PMID:Characterization of a solubilized malonyl-CoA-sensitive carnitine palmitoyltransferase from the mitochondrial outer membrane as a protein distinct from the malonyl-CoA-insensitive carnitine palmitoyltransferase of the inner membrane. 236 98

The effects of prolonged ethanol feeding on the regulatory properties of both hepatic fatty acid oxidation and carnitine palmitoyltransferase I activity (CPT-I) were studied in rats fed a high-fat diet containing 36% of total calories as ethanol (ethanol group) or an isocaloric amount of carbohydrate (control group). Prolonged ethanol feeding progressively decreased CPT-I activity and increased enzyme sensitivity and sensitization to inhibition by malonyl-CoA in liver mitochondria. Similarly, long-term ethanol feeding progressively increased the sensitivity of CPT-I, as well as that of fatty acid oxidation, to inhibition by 4-hydroxyphenylglyoxylate. Short-term addition of ethanol or acetaldehyde to the incubations markedly increased the sensitivity of CPT-I to inhibition by malonyl-CoA in a subsequent assay in hepatocytes isolated from ethanol-treated rats, but not in cells from control animals. This effect may be mediated by the ethanol- or acetaldehyde-induced increase of intracellular malonyl-CoA levels. The present results show that ethanol feeding to rats leads to profound alterations in the regulatory properties of hepatic CPT-I, which seem to be determinant for the decreased capacity of fatty acid oxidation by the liver in this state. Nevertheless, all the above-mentioned alterations of the fatty acid oxidative system were reversible, disappearing after 2 to 4 days of ethanol withdrawal.
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PMID:Alterations in the regulatory properties of hepatic fatty acid oxidation and carnitine palmitoyltransferase I activity after ethanol feeding and withdrawal. 237 34

The study of trauma has been handicapped from its inception by the absence of a single coherent method of cataloging injuries. The AIS and ICD-9 systems have failed to fill this void because they lack the precision necessary to describe surgically treated injuries. We conceived a simple system of injury description in which injuries are rapidly encoded using a microcomputer in sufficient detail to distinguish among millions of different injuries. This system is easily searched by a microcomputer and allows for the automatic assignment of AIS, ISS, and CPT codes. In this system a patient is described by a 'paragraph' consisting of any number of identically patterned 'sentences,' each describing one of the patient's injuries. Each 'sentence' is composed of a string of six 'words' from controlled vocabularies and has the following structure: "Body region, Organ, Anatomic region, Injury, Physiology, Treatment." Defining the vocabulary allowed for each 'word' in a 'sentence' is complex because the allowed vocabulary is dependent upon the preceding 'words' in a 'sentence,' but in practice a microcomputer simply provides short lists of acceptable choices at each step of injury description, and records the user's selections. Additionally, the microcomputer assigns AIS, ISS, and CPT codes appropriate to the injury description sentence. The ease of data entry, the fineness of detail captured, the automation of code assignment, and the accuracy of database searching for specific injuries, classes of injuries, or combinations of injuries, we believe will give this approach widespread application in academic trauma centers where an accurate and accessible trauma database is important.
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PMID:A computerized approach to injury description. 238 8

This study examined the possible existence and nature of Ca2+ transport in frog skin using 45Ca fluxes and short-circuiting technique. Following the addition to full-thickness frog skin (FTFS) of 8-[p-chlorophenylthio]cAMP (8-CPT-cAMP), forskolin, or 1-methyl-3-isobutylxanthine, the secretory Ca2+ flux increased severalfold, inducing net Ca2+ secretion. The absorptive flux was unchanged. Isoproterenol (10(-6)M) reproduced the effects of cAMP on Ca2+ secretion (-3.76 +/- 0.80 nmol X cm-2 X h-1 vs. +0.04 +/- 0.05 in control) while vasopressin and parathyroid hormone did not alter Ca2+ fluxes. Because FTFS contains subepidermal glands capable of Cl- secretion in response to beta-adrenergic stimulation, split-thickness frog skin (STFS) consisting of the gland-free Na-absorbing surface epithelium was used to localize the anatomic site of Ca2+ secretion. In STFS, addition of 8-CPT-cAMP or isoproterenol failed to induce Ca2+ secretion, suggesting that this transport in FTFS is localized in skin glands. Additional studies explored the relationship between Ca2+ and Cl- transport in FTFS. Furosemide prevented the stimulation of both Ca2+ and Cl- secretion. Removal of Cl- from the bathing medium abolished Ca2+ secretion. Thus, FTFS exhibits a beta-adrenergic, cAMP-stimulated net Ca2+ secretion that is Cl- dependent. As this effect is not observed in STFS, the pathway of Ca2+ secretion in frog skin is probably localized in the subepidermal glandular epithelium in association with Cl- secretion. Frog skin glands may represent a useful model for the study of Ca2+ transport in Cl--transporting epithelia.
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PMID:cAMP- and beta-adrenergic-stimulated chloride-dependent Ca2+ secretion in frog skin. 241 6

In the preceding paper (Kehoe, 1985) it was shown that the firing of any one of three neurones (I, II, III) presynaptic to the medial cells of the pleural ganglion of Aplysia californica causes a diminution of the cholinergically controlled K conductance in those cells. Firing of the same three presynaptic neurones was shown here to cause a similar diminution in a depolarization-induced K-dependent conductance in the same post-synaptic cells. The depolarization-induced K conductance was found to disappear when Ca ions were removed from the sea water bathing the ganglion or when the cell was injected with the Ca chelator ethyleneglycol-bis-(beta-aminoethylether)N,N'-tetra-acetic acid (EGTA). The diminution in this Ca-activated, K-dependent current occurred even when the presynaptic neurone was fired a few seconds after the end of the depolarizing voltage step to the post-synaptic neurone, showing that the diminution in K conductance was not an indirect effect of a transmitter-induced diminution in Ca influx during the depolarizing pulse. The two K conductances affected by the 'blocking neurones' could be selectively eliminated. The cholinergic conductance could be blocked by receptor-specific cholinergic antagonists (e.g. 1 mM concentrations of phenyltrimethylammonium (PTMA), choline and tetraethylammonium (TEA]. Even at 10 mM concentrations, none of these compounds (including TEA, which is known to block certain Ca-activated K conductances) had an effect on the depolarization-induced, Ca-activated K conductance studied here. This latter conductance, on the other hand, was selectively blocked by an intracellular injection of EGTA. The three blocking neurones continued to diminish the K conductance (cholinergic or depolarization induced) that remained intact under these different experimental conditions. The depolarization-induced influx of Ca was shown to block the cholinergically controlled K conductance, but Ca was excluded as the possible mediator of the diminution in K conductance caused by the three blocking neurones. An intracellular injection of Ca ions into the medial cells was shown to activate a variety of changes in membrane conductance; in particular, two K-conductance increases: an early, TEA-sensitive one, and a slowly developing, TEA-insensitive one. Both the permeant cyclic AMP analogue p-chlorophenylthioadenosine 3',5'-monophosphate (CPT-cyclic AMP) and the phosphodiesterase inhibitors amino-phylline and isobutyl-1-methylxanthine (IBMX) were shown to block the depolarization-induced K conductance, and to reduce, though not eliminate, the slowly developing K conductance activated by an intracellular injection of Ca.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Synaptic block of a calcium-activated potassium conductance in Aplysia neurones. 241 50

Due to the interference of weak nuclear and electromagnetic forces, a specific relationship exists between the electric polarization of the covalent bonds and the spatial orientation of certain atoms and chemical groups in the framework of matter. The symmetric in the mirror corresponding to this relationship is in antimatter (symmetry CP). In this transformation, time preserves its direction of development (symmetry CPT).
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PMID:The asymmetry of biological molecules and the symmetry CPT. 243 61

In the absence of any exogenous substrates, glucagon (1 X 10(-9) M) stimulated 45Ca2+ efflux from perfused livers derived from fed rats but not in livers of 24-h-fasted animals. In livers of 24-h-fasted animals perfused under conditions which would decrease cellular NAD(P)H/NAD(P)+ ratio (pyruvate (2.0 mM) or acetoacetate (10.0 mM], glucagon (1 X 10(-9) M) did not stimulate 45Ca2+ efflux. Similarly, in livers of 24-h-fasted animals perfused with substrates which increase cellular NAD(P)H content (lactate (2.0 mM) or beta-hydroxybutyrate (10.0 mM], glucagon (1 X 10(-9) M) did not increase 45Ca2+ efflux. Glucagon (1 X 10(-9) M) elicited an increase in 45Ca2+ efflux from livers of 24-h-fasted animals, only when the livers were perfused with [lactate]/[pyruvate] and [beta-hydroxybutyrate]/[acetoacetate] ratios similar to those reported for livers of fed rats. Stimulation of 45Ca2+ efflux elicited by either 8-CPT-cAMP, a cAMP analog, or high glucagon concentrations (1 X 10(-8) M) was not affected whether livers were perfused with pyruvate (2.0 mM) or lactate (2.0 mM). Administration of isobutylmethylxanthine (50 microM) alone, or glucagon (1 X 10(-9) M) in the presence of isobutylmethylxanthine (50 microM) stimulated 45Ca2+ efflux from livers of 24-h-fasted animals perfused with pyruvate (2.0 mM) but not from livers perfused with lactate (2.0 mM). The ability of glucagon (1 X 10(-9) M) to elevate tissue cAMP levels was also regulated by the oxidation-reduction state of the livers. The data indicate that glucagon-stimulated 45Ca2+ efflux from perfused livers is mediated via cAMP and is dependent on the oxidation-reduction state of the livers.
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PMID:Glucagon-stimulated calcium efflux in the isolated perfused rat liver is dependent on cellular redox potential. 244 42

In six hospitalized subjects with mild or moderate and untreated essential hypertension, we measured mean blood pressure (MBP, brachial artery catheter), heart rate (HR, electrocardiogram), cardiac output (CO, thermodilution), and total peripheral resistance (TPR, MBP divided by CO) at rest and during a cold pressor test (CPT, 60 s), a hand-grip exercise (HG, 40% maximum strength for 90 s), and a cyclette exercise (CE, 50 W for 5 min). The study was performed in a no-drug condition, 1 h after 20 mg oral nitrendipine (aN) and 1 week after daily administration of 20 mg oral nitrendipine (pN). Compared with the no-drug condition, aN reduced resting MBP from 137.3 +/- 7.3 (mean +/- SEM) to 112.3 +/- 9 mm Hg (p less than 0.05), increased resting HR from 72.3 +/- 6.9 to 85.3 +/- 8.8 beats/min) (p less than 0.05), increased resting CO from 6,191 +/- 508, to 8,700 +/- 1,050 ml/min (p less than 0.05), and reduced resting TPR from 1,807 +/- 119 to 1,140 +/- 228 dynes/s/cm5 (p less than 0.05). The reduction in resting MBP and TPR were unchanged by pN, whereas the increase in HR and CO were attenuated by 47 and 42%, respectively (p less than 0.05). Neither aN nor pN altered the hemodynamic responses to CPT, HG, and CE. As a result, the peak MBP and TPR values that were measured during these maneuvers were always lower (p less than 0.05) during aN and pN than in the no-drug condition. Thus, nitrendipine exerts marked antihypertensive and vasodilatatory effects that are evident at rest and during conditions elevating BP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Hemodynamic effects of acute and prolonged administration of nitrendipine in essential hypertension. 245 12

The neuroendocrine caudodorsal cells (CDCs) of the pond snail Lymnaea stagnalis release a number of peptides, including the ovulation hormone, caudodorsal cell hormone (CDCH), during a period of high electrical activity (the CDC-discharge). Earlier studies have shown that during the CDC-discharge adenylate cyclase activity is increased, and that the cyclic adenosine monophosphate (cAMP) analogue 8-chlorophenylthio (8-CPT)-cAMP induces exocytosis and release of peptides from the CDCs. Here, we have investigated the role of cAMP, adenylate cyclase and phosphodiesterase in determining the state of excitability of the CDCs. The cAMP analogue 8-CPT-cAMP induced long-lasting discharges in CDCs. Simultaneous inhibition of the phosphodiesterase by 3-isobutyl-1-methylxanthine (IBMX) and activation of the adenylate cyclase by forskolin gave similar results. These agents also induced discharges of CDCs in dissociated cell culture, indicating that the responses to an increase of cAMP were an endogenous property of the cells. The CDC-afterdischarge can be induced by a period of repetitive electrical stimulation. Inhibition of the phosphodiesterase-activity by IBMX did not change the resting membrane potential, but increased the proportion of preparations that responded to this stimulation with an afterdischarge by more than 200%. It is suggested that cAMP-regulating enzymes are involved in stimulus-response coupling of the afterdischarge in CDCs. The induction of an after discharge probably requires both a low phosphodiesterase-activity and the activation of the adenylate cyclase. The low excitability of the CDCs following an afterdischarge might originate from a refractoriness in the activation of the adenylate cyclase.
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PMID:The role of cAMP in regulation of electrical activity of the neuroendocrine caudodorsal cells of Lymnaea stagnalis. 246 19


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