Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.6.1.3 (ATPase)
 65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Currently used fluorinated anesthetics are chemically related to methoxyflurane (MF), a drug that caused many cases of clinical acute renal failure during previous widespread use. To determine whether newer fluorinated anesthetics might also have nephrotoxic effects, three currently used agents (isoflurane (IF), sevoflurane (SF), and desflurane) or MF were added to rat proximal tubular segments, followed by assessments of cell integrity (ATP levels and percent lactic dehydrogenase release). Ether served as a negative control. MF, IF, and SF each induced lethal proximal tubular segment injury (up to 92, 71, and 30% lactic dehydrogenase release, respectively) and massive ATP depletion. ATP losses were observed at or near clinically relevant drug levels, they preceded lethal injury, and they correlated with approximately 50% and approximately 100% reductions in total and Na,K-ATPase-driven respiration, respectively. Clinically relevant inorganic fluoride levels simulated fluorinated anesthetic toxicity. However, fluoride release from the anesthetics (a cytochrome P450 process) did not appear to be required for toxicity (no protection with P450 inhibitors and no detectable inorganic fluoride release). As IF was judged to be one-third as toxic as MF, subclinical tubular injury (increased urine N-acetyl-beta-D-glucosaminidase (NAG) levels) after its use was sought in 19 surgical patients. Fifteen patients undergoing comparable operations with SF (approximately one-half as toxic as IF in vitro) and nine patients undergoing regional/ local anesthesia were controls. The IF group doubled its urinary NAG levels by the end of surgery (P < 0.005). Conversely, NAG levels remained stable in both control groups. The conclusions are that 1) currently used fluorinated anesthetics, particularly IF, share (but to a lesser degree) MFs tubulotoxic effects, 2) ATP depletion (probably due to decreased production) and Na,K-ATPase inhibition are likely contributing mechanisms, 3) fluoride is a prime determinant of this toxicity, and 4) tubular injury can be expressed at or near clinically relevant anesthetic/inorganic fluoride levels. That increased enzymuria can develop in patients after IF anesthesia suggests that the above in vitro data could have potential clinical relevance in selected patients.
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PMID:Spectrum and subcellular determinants of fluorinated anesthetic-mediated proximal tubular injury. 917 10

Ouabain is an endogenous substance occurring in the plasma in the nanomolar range, that has been proposed to increase vascular resistance and induce hypertension. This substance acts on the alpha-subunit of Na+,K(+)-ATPase inhibiting the Na(+)-pump activity. In the vascular smooth muscle this effect leads to intracellular Na+ accumulation that reduces the activity of the Na+/Ca2+ exchanger and to an increased vascular tone. It was also suggested that circulating ouabain, even in the nanomolar range, sensitizes the vascular smooth muscle to vasopressor substances. We tested the latter hypothesis by studying the effects of ouabain in the micromolar and nanomolar range on phenylephrine (PE)-evoked pressor responses. The experiments were performed in normotensive and hypertensive rats in vivo, under anesthesia, and in perfused rat tail vascular beds. The results showed that ouabain pretreatment increased the vasopressor responses to PE in vitro and in vivo. This sensitization after ouabain treatment was also observed in hypertensive animals which presented an enhanced vasopressor response to PE in comparison to normotensive animals. It is suggested that ouabain at nanomolar concentrations can sensitize vascular smooth muscle to vasopressor stimuli possibly contributing to increased tone in hypertension.
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PMID:Effects of ouabain on vascular reactivity. 925 76

The objective of this study was to analyse the effects of isoflurane anesthesia (lasting for 15 or 60 min) and isoflurane anesthesia termination (after 1 or 24 h) on met-enkephalin (MENK) and leu-enkephalin (LENK) levels in discrete brain areas and spinal cord segments in rabbits. Moreover histochemical analysis of activities of succinate dehydrogenase, magnesium-dependent adenosine triphosphatase (Mg++ATP-ase) and acid phosphatase in the striatum and hypothalamus were carried out to evaluate the effects of isoflurane anesthesia on energetic, transport and catabolic processes. Throughout anesthesia (15 and 60 min) and after its termination (1 h) the LENK contents were increased in hypothalamus, hippocampus, mesencephalon and lumbar segment of spinal cord. Moreover, during isoflurane anesthesia and after its termination (1 h) MENK and LENK levels decreased in cervical segment and MENK content dropped in thoracic segment of spinal cord. Histochemical data indicated, that isoflurane enhanced energetic processes as well as exchange processes in neurocytes, glial cells, capillary walls and ependymal cells of the third ventricle. Measurements of acid phosphatase activity provided evidence of no signs of toxicity of isoflurane in the examined areas. The changes in enkephalin levels observed during the isoflurane anesthesia and after its termination depended on the type of examined neuropeptides, as well as on parts of the brain and spinal cord studied. The changes observed after isoflurane administration in enkephalinergic system are discussed with regard to our earlier experiments with halothane and enflurane.
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PMID:Influence of isoflurane on enkephalin levels and on some indicatory enzymes in the central nervous system of rabbits. 943 56

Oxygen free radical generation contributes to the reinfusion damage after hemorrhagic shock. Taurine has been proposed to have radical scavenging properties under certain experimental conditions. Therefore the present study was undertaken to investigate if taurine would be able to attenuate adverse effects of shock/resuscitation in male rats (fasted over night). Under pentobarbital anesthesia, hemorrhagic shock (HS) was induced for 1 h by bleeding of the animal [mean arterial blood pressure (MAP) = 40 mm Hg] followed by shed blood reinfusion and another 1 h period of resuscitation. Rats were divided into two groups: Treated rats (n = 6) were injected with taurine (40 mg/kg body mass) prior to withdrawal of shed blood; untreated rats (n = 9) received respective volumes of a normal saline solution. In untreated animals, free radical induced lipid peroxidation was documented by an increase of malondialdehyde (MDA) in the systemic circulation (nmol/ml; HPLC measurement) from 1.06 +/- 0.08 during normotension (NT) to 1.35+/- 0.18** 1 h after resuscitation (RS). Accordingly, plasma levels of alanine aminotransferase (ALT) (11 +/- 2; 35 +/- 12; 94 +/- 44 U/l, NT; HS; RS) and ammonia (120 +/- 39; 532 +/- 161; 224 +/- 101 micrograms/dl) changed significantly during the experimental protocol. Hepatic ATPase-content as an indicator of energetic status of the liver fell from 4.8 +/- 0.83 to 0.56 +/- 0.27 after HS and recovered to only 2.7 +/- 1.6 mumol/g after RS. Leukocyte infiltration of the liver was followed by tissue levels of myeloperoxidase (MPO) which did not change during HS, but rose during RS (37.9 +/- 18.5; 38.6 +/- 16.4; 77.5 +/- 24; arbitrary units), documenting an inflammatory reaction after HS. Taurine treated rats showed levels of MDA not different from untreated rats after RS; also no differences were observed concerning enzyme concentrations and ammonia levels. The liver tissue levels of ATP and MPO revealed no differences between the two groups during the various periods of the experiment. Liver tissue perfusion, as measured by Laser Doppler flowmetry, also did not show significant differences between both groups. MAP was significantly higher in the taurine-treated rats during the first 40 min of resuscitation. It is concluded that even a relatively high dose of taurine failed to attenuate the impact of oxygen free radicals and did not improve the recovery of the rats during the early resuscitation period.
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PMID:No beneficial effects of taurine application on oxygen free radical production after hemorrhagic shock in rats. 963 32

Previous work on classical olfactory learning and memory in flies has suggested at least four distinct phases of memory consolidation. Similarly, our behavioral and pharmacological analyses also provided clear evidence for at least four pharmacologically distinct memory phases in flies after operant conditioning. Anesthesia-resistant memory (ARM) is present between about 20 and 120 min after training, and susceptible to disruption by the ATPase deactivating chemicals such as ouabain and ethacrynic acid (EA). Long-term memory (LTM) is activated at least 150 min after training, and can be disrupted by protein synthesis inhibitors such as cycloheximide (CXM). In addition, a very short-term memory (pre-STM) is demonstrated by feeding flies with potassium chloride (KCl), which has been shown to disrupt the short-term memory. These observations confirm our previous argument that memory formation in flies involves an intricate, multiple-phase pathway of consolidation.
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PMID:Multiple-phase model of memory consolidation confirmed by behavioral and pharmacological analyses of operant conditioning in Drosophila. 970 Sep 62

The interaction of the tertiary amine drugs chlorpromazine and dibucaine in their cationic form with carboxyl groups at the membrane surface is studied at concentrations relevant to anesthesia. Spin-labeled stearic acid is used both to provide the carboxyl groups and to monitor binding and ionization behavior in egg lecithin liposomes. Membrane anesthetic concentrations are spectrophotometrically obtained. They are shown to determine the drug influence on carboxyl groups at the membrane surface, independently of aqueous concentrations. The intramembrane association constants (related to the usual aqueous phase ones through the partition coefficient) of the drugs with fatty acids are determined. The same value (10(2) M-1) is obtained for both drugs, suggesting that it is approximately the same for all tertiary amine local anesthetics. pH titrations of anesthetic-treated spin-labeled membranes are performed. The observed shifts in the fatty acid pK are higher than can be produced assuming uniform distribution of the drug in the membrane surface, implying that there is an increased affinity of local anesthetics for superficial carboxyl. This affinity could account for the resting block of voltage-gated Na+ channels. Under these considerations, local anesthetic binding sites at voltage-gated Na+ channels and at sarcoplasmic reticulum Ca(2+)-ATPase are proposed.
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PMID:Carboxyl groups at the membrane interface as molecular targets for local anesthetics. 974 84

The aim of this study was to evaluate the effect of 5-, 15-, and 60-min enflurane anesthesia on the levels of Met-enkephalin, Leu-enkephalin and neuropeptide Y in discrete areas of the rabbit brain. We also evaluated the effect of enflurane anesthesia on energetic, transport and catabolic processes by measuring the activities of succinate dehydrogenase, magnesium-dependent adenosine triphosphatase and acid phosphatase in the rabbit striatum and hypothalamus. Induction of anesthesia (5 min) decreased Met-enkephalin levels in the hypothalamus and striatum, and increased them in the hippocampus and mesencephalon. Induction of anesthesia increased Leu-enkephalin levels in all brain areas studied, except for the striatum, and increased neuropeptide Y content in the hippocampus. 15- and 60-min enflurane anesthesia increased Met-enkephalin content in the hypothalamus and hippocampus. After 15- and 60-min anesthesia, and after cessation of anesthesia, Leu-enkephalin levels were increased in the hypothalamus and mesencephalon, and were decreased in the striatum and hippocampus. In the striatum, neuropeptide Y content was significantly decreased during anesthesia and after cessation of anesthesia. Histochemical analysis revealed that enflurane enhanced ATP production, catabolic processes, and the rates of exchange and transport of energetic substrates in the striatum and hypothalamus. In conclusion, enflurane affects the levels of Met, Leu-enkephalins and NPY in a manner depending on the duration of anesthesia and the brain structure. Compared with isoflurane , which was studied in our previous study enflurane produces stronger alterations in the activities of enzymatic marker in the rabbit brain. This suggests that enflurane may be less safe than isoflurane.
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PMID:Effect of enflurane on selected neuropeptides and marker enzymes in rabbit brain. 1009 16

Digoxin inhibits the membrane-bound ATPase enzyme, resulting in a rise in intracellular sodium and activated outward potassium current, predisposing to arrhythmias. In this study, the effect of ketanserin, thought to block outward potassium currents, was investigated on digoxin-induced arrhythmias. Twenty-four guinea-pigs were studied in four groups (control, ketanserin 0.5 mg/kg, ketanserin 1 mg kg, ketanserin 2 mg/kg). Under pentobarbital anaesthesia (40 mg/kg), 15 min after injection of saline or ketanserin, digoxin (0.6 mg/kg) was administered through the jugular vein. Carotid artery blood pressure and electrocardiogram (ECG) were recorded. The time for the onset of the first arrhythmia and incidence of ventricular tachycardia (VT), ventricular fibrillation (VF), and premature ventricular contraction (PVC) were determined. Arrhythmias were scored according to the MacLeod scale. Ketanserin produced minor haemodynamic effects and lacked, by itself, arrhythmogenic effects at the doses studied. However, it increased the time for the onset of the first digoxin-induced arrhythmia and decreased the incidence of VT, VF and PVC. We conclude that ketanserin inhibits digoxin-induced arrhythmias in guinea-pigs.
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PMID:Ketanserin inhibits digoxin-induced arrhythmias in the anaesthetized guinea-pig. 1062 51

Local anaesthetics, in addition to anaesthesia, induce the synthesis of heat shock proteins (HSPs), sensitize cells to hyperthermia, and increase the aggregation of nuclear proteins during heat shock. Anaesthetics are membrane active agents, and anaesthesia appears to be due to altered ion channel activity; however, the direct effect of heat shock is protein denaturation. These observations suggest that local anaesthetics may sensitize cells to hyperthermia by interacting with and destabilizing membrane proteins such that protein denaturation is increased. It is shown, using differential scanning calorimetry (DSC), that the local anaesthetics procaine, lidocaine, tetracaine and dibucaine destabilize the transmembrane domains of the Ca2+ -ATPase of sarcoplasmic reticulum and the band III anion transporter of red blood cells. The transmembrane domain of the Ca2+ -ATPase has a transition temperature (Tm) of denaturation of 61 degrees C which is decreased, for example, to 53 degrees C by 15 mM lidocaine. The degree of destabilization (deltaTm) by each anaesthetic is proportional to the lipid to water partition coefficient, and the increased sensitization by anaesthetics with larger partition coefficients and at higher pH suggests that the uncharged forms of the anaesthetics are responsible for destabilization. A Hill analysis of deltaTm for the Ca2+ -ATPase as a function of the concentration of anaesthetic in water gives dissociation constants (Kd) on the order of 10(-4) M, if binding occurs directly from the aqueous phase. This demonstrates moderate affinity binding. However, dissociation constants of 1-3 M are obtained, if binding occurs through the lipid phase, which demonstrates low affinity binding. Thus, the interaction of local anaesthetics with the Ca2+ -ATPase may be moderately specific or non-specific depending on the mechanism of interaction. The observation that local anaesthetics also destabilize the transmembrane domain of the band III protein of erythrocytes suggests that destabilization of transmembrane proteins is a general property of anaesthetics, which is at least in part a mechanism of sensitization to hyperthermia.
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PMID:Thermal destabilization of transmembrane proteins by local anaesthetics. 1066 13

The excessive increase in intracellular Ca2+ concentration is associated with events linking cerebral blood flow reduction to neuronal cell damage. We have investigated the possible effect of ischemia and ischemia-reperfusion injury on endoplasmic reticulum (ER) Ca2+ transport. Two different models of ischemia as well as two different anesthetics were used. 5 min and 15 min of global forebrain ischemia caused significant depression of the rate of microsomal Ca2+ accumulation in pentobarbital anesthetised gerbils. The Ca2+ uptake activity recovered partially after 1 hour of reperfusion. Unlike pentobarbital anesthetised gerbils, no significant changes were detected in the active microsomal Ca(2+)-transport after 10 min of global forebrain ischemia in gerbil forebrain and hippocampus under halothane anesthesia. In addition, using the model of decapitation ischemia, we observed significant changes of the Ca2+ uptake in both halothane and pentobarbital anesthetised gerbils. These findings indicate that ischemic insult alters the brain microsomal Ca2+ transport which is not due to inhibition of the Ca(2+)-ATPase activity. However, the effect of ischemia on this transport system is dependent on the model of ischemia and on the type of anesthetics.
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PMID:Ischemia-induced inhibition of active calcium transport into gerbil brain microsomes: effect of anesthetics and models of ischemia. 1078 14


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