Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We tested whether recombinant human superoxide dismutase conjugated to polyethylene glycol (PEG-SOD) to prolong its plasma retention time could limit myocardial infarct size in an ischemia-reperfusion model in the rabbit. One group of animals received 1000 units/kg of PEG-SOD as an intravenous bolus 15 min before coronary occlusion. A second group received saline only and served as controls. Under pentobarbital anesthesia, a left coronary branch was occluded for 30 min and then reperfused. The surgical wounds were repaired and the animals were allowed to recover. Seventy-two hours after the coronary occlusion, the heart was excised and the size of the area at risk (ischemic vascular bed) was assessed with fluorescent particles and the infarct size was determined by histology (Hematoxylin-eosin, Azan stain). Infarct size as a percentage of the area at risk was similar between the groups, 46.5 + 2.7 in the PEG-SOD group (n = 8) and 48.9 + 3.1 in the control group (n = 8). There were no significant differences between the groups indicating that PEG-SOD did not limit infarct size in this model.
J Mol Cell Cardiol 1991 Feb
PMID:Superoxide dismutase conjugated to polyethylene glycol fails to limit myocardial infarct size after 30 min ischemia followed by 72 h of reperfusion in the rabbit. 206 22

Saturation transfer from gamma-ATP to inorganic phosphate was used to assign the intracellular inorganic phosphate resonance of the phosphorus-31 nuclear magnetic resonance spectrum of heart obtained from adult sheep under Halothane anesthesia. The 31P chemical shift of intracellular inorganic phosphate was then used as a probe of myocardial pH. Resting myocardial pH was found to be 7.03 +/- 0.02. The effects of increasing myocardial work on myocardial pH were examined using external pacing and phenylephrine infusion alone or in combination to produce steady-state increases in the rate-pressure product. No alteration in myocardial pH was observed with up to 4-fold increases in rate-pressure product. No changes in high-energy phosphates were observed except at the highest rate-pressure products obtained, where small increases in inorganic phosphate and decreases in the phosphocreatine/ATP ratio were observed. In addition, the transition to a new steady state was studied with a 20-s time resolution after initiation of pacing. Again, no changes in pH or levels of phosphates were detected during the transition to increased work.
J Mol Cell Cardiol 1990 May
PMID:Absence of pH changes during altered work in the in vivo sheep heart: a 31P-NMR investigation. 238 81

A technique is described which provides morphologic and quantitative data on the amount of oil red O (ORO) staining in thoracic aortas of rats fed a high cholesterol diet. Samples are stained with ORO, the dye is extracted, and the concentration of ORO in the extract is measured colorimetrically. Wistar rats fed ad libitum either standard chow (control group: n = 15) or chow supplemented with 4% cholesterol, 1% cholic acid, and 0.5% thiouracil (CCT group: n = 23) were maintained on these diets for 1, 3, 6, 9, or 12 months. Plasma cholesterol levels averaged overall 87 and 737 mg/dl for the control and CCT groups, respectively. Animals were killed under anesthesia by perfusion fixation with formalin or glutaraldehyde, and samples of thoracic aorta were stained with ORO. After microscopic study en face and measurement of surface area, the ORO was extracted in chloroform-methanol (2:1). Concentrations of ORO (microM) were determined from a standard curve and expressed as microM/mm2 of aorta. Aortas of CCT animals showed progressive diet- and time-dependent increases in the amount of ORO staining compared to controls. We conclude that this method yields reliable quantitative data applicable to studying atherosclerosis in small animals.
Exp Mol Pathol 1989 Aug
PMID:Quantitation of oil red O staining of the aorta in hypercholesterolemic rats. 276 15

A single instillation of 1 ml iron dextran (containing 191.3 mg iron(III)hydroxide and 200 mg dextran) was administered under anaesthesia by a polyvinyl catheter into the lower lobe of the right lung in one hundred 4-week-old wistar rats. The animals were killed at intervals ranging between 1 min and 4 weeks. The lower lobe of the right lung was examined by light and electron (transmission and scanning) microscopy. In addition, X-ray microanalyses were performed on tissue sections in the transmission and scanning electron microscopes. The process of phagocytosis of iron dextran by alveolar macrophages can be subdivided into three stages, which we have termed the "phase of attachment" (from 1 to 5 min), followed by the "phase of phagocytosis" (from 5 to 20 min) and finally the "resident macrophage stage" (from 1 to 24 h). X-ray microanalysis shows a high phosphorus content even if iron dextran is concentrated on the surface of macrophages. Phagocytosis of particles between 15 and 40 A in size occurs within minutes, the particles being engulfed in phagosomes, which form as double-layered invaginations of the cell membrane into the interior of the cell. The fusion of phagosomes with lysosomes produces phagolysosomes (type 2 lysosomes) in which iron dextran is broken down into lamellar residual bodies. In these lamellar bodies X-ray microanalysis shows that in addition to abundant iron, there is a high phosphorus content, which may indicate the involvement of surfactant. Only 1 h after instillation, free particles of iron dextran can no longer be demonstrated in the alveoli, although a proportion of the iron dextran remains in resident macrophages (pulmonary tissue macrophages) and some is also found in splenic macrophages.
Virchows Arch B Cell Pathol Incl Mol Pathol 1985
PMID:Functional morphology of phagocytosing alveolar macrophages. Long-term electron microscopic and X-ray microanalytical investigations on the rat model. 286 28

The elimination and metabolism of the fluorinated inhalation anesthetic methoxyflurane (2,2-dichloro-1,1-difluoroethyl methyl ether) in rats has been monitored using in vivo 19F nuclear magnetic resonance at 8.45 T. The elimination of methoxyflurane from rat liver as measured using a surface coil is a first order process when measured beginning 2-3 hr after the end of methoxyflurane anesthesia over a period of 12 hr. The rate constant for hepatic methoxyflurane elimination is dependent upon the duration of anesthesia, varying from 0.24 hr-1 for 15 min of anesthesia to 0.07 hr-1 for 1 hr of anesthesia. Methoxyflurane was shown to be metabolized in the liver to methoxydifluoroacetate using the surface coil method. No resonance for hepatic fluoride ion could be observed in vivo. Pure sodium methoxydifluoroacetate was synthesized in order to confirm the identity of the resonances in liver and urine. 19F NMR spectra of urine collected from anesthetized rats contain resonances for two methoxyflurane metabolites, methoxydifluoroacetate and inorganic fluoride. Studies with liver homogenates imply that fluoride is quickly cleared from the liver and eliminated from the body through the urine, explaining the inability to observe hepatic fluoride using a surface coil. The 19F NMR resonance for inorganic fluoride in urine was found to be broadened by interaction with metal ions, since the broadening could be eliminated by treatment with chelating resin.
Mol Pharmacol 1988 May
PMID:In vivo nuclear magnetic resonance studies of hepatic methoxyflurane metabolism. I. Verification and quantitation of methoxydifluoroacetate. 336 3

Methoxyflurane (2,2-dichloro-1,1-difluoro-ethyl methyl ether) is believed to be metabolized via two convergent metabolic pathways. The relative flux through these two metabolic pathways has been investigated using a combination of in vivo surface coil NMR techniques and in vitro analyses of urinary metabolites. Analysis of the measured concentrations of inorganic fluoride, oxalate, and methoxydifluoroacetate in the urine of methoxyflurane-treated rats for 4 days after anesthesia indicates that the anesthetic is metabolized primarily via dechlorination to yield methoxydifluoroacetate. The methoxydifluoroacetate is largely excreted without further metabolism, although a small percentage of this metabolite is broken down to yield fluoride and oxalate, as determined by urine analysis of rats dosed with synthetic methoxydifluoroacetate. At early times after methoxyflurane exposure, the relative concentrations of methoxyflurane metabolites indicate that a significant fraction of the metabolic flux occurs via a different pathway, presumably demethylation, to yield dichloroacetate as an intermediate. Direct analysis of dichloroacetate in the urine using water-suppressed proton NMR indicates that the level of this metabolite is below the detection threshold of the method. Measurements made on the urine of rats dosed directly with dichloroacetate indicate that this compound is quickly metabolized, and dichloroacetate levels in urine are again found to be below the detection threshold. These results demonstrate the quantitative importance of the dechlorination pathway in the metabolism of methoxyflurane in rats.
Mol Pharmacol 1988 May
PMID:In vivo nuclear magnetic resonance studies of hepatic methoxyflurane metabolism. II. A reevaluation of hepatic metabolic pathways. 336 4

Outbred Mol:SPRD rats were maintained in surgical anaesthesia for two hours by using five different drug combinations: 1) pentobarbitone, 2) ketamine + diazepam, 3) ketamine + pentobarbitone, 4) atropine + diazepam + fentanyl + fluanisone, 5) atropine + etorphine + acepromazine. Respiratory rate, arterial O2 and CO2 tensions, arterial pH, base excess, mean arterial blood pressure and heart rate were recorded at set intervals from 30 to 120 min. from the initiation of anaesthesia. Atropine + diazepam + fentanyl + fluanisone caused no disturbance of acid-base balance, whereas the other drug combinations induced moderate to severe acidosis. Arterial blood pressure was reduced by all methods. Pentobarbitone and regimens including ketamine reduced heart rate, whereas combinations with etorphine and fentanyl caused a rise in heart rate.
 ...
PMID:Influence of injectable anaesthetic combinations on blood gas tensions and acid-base status in laboratory rats. 393 15

It is often contended that inhalation anesthetics act on proteins via perturbation of lipid membranes. However, direct interaction between anesthetics and water-soluble proteins also has been demonstrated. We postulate that the anesthetic action is directed to the interface between water and macromolecules, irrespective of lipid membranes or proteins. The present study deals with anesthetic effects upon interfacial properties of a water-soluble, crystalline delipidated bovine serum albumin. A pH-indicator dye, bromothymol blue, was used to probe the surface potential of the protein. When a pH-indicator dye binds to a macromolecule, the pH, indicated by the color of the dye, differs from the bulk pH measured by a pH meter. This is because the pH of the microscopic area, where the dye is adsorbed, differs from the bulk due to the surface electrostatic potential that interacts with hydrogen ions (electrostatic terms), and the physical property that affects the color of the dye at the bound region is different from the bulk (nonelectrostatic terms). The mismatch between the bulk pH and the color of the bound pH indicator can be used to probe the property of the dye binding site. By screening the electrostatic effects with high ionic strength, the anesthetic effects upon the nonelectrostatic term were shown to be negligible under the present experimental conditions; the pH-color mismatch was mainly caused by the anesthetic effect upon the electrostatic potential of the macromolecular surface interacting with the dye. Accordingly, the surface potential of the dye binding site was estimated from the mismatch. It was found that inhalation anesthetics decreased the surface potential. The partial pressures of diethylether, enflurane, and methoxyflurane that decreased the surface potential by 10 mV were 2.1 X 10(-2), 1.7 X 10(-2), and 0.17 X 10(-2) bar, respectively, which were in agreement with the minimal alveolar concentrations of these anesthetics to achieve surgical anesthesia.
Mol Pharmacol 1986 Feb
PMID:Anesthetic-protein interaction: surface potential of bovine serum albumin estimated by a pH-sensitive dye. 395 28

We have previously reported that the negative inotropic effects of both verapamil and nifedipine on cat papillary muscles are enhanced as pH is lowered from 7.4 to 6.8 and 6.0. These studies have now been extended to compare the relative sensitization by acidosis of verapamil, nifedipine, lidoflazine, perhexilene and diltiazem. Developed tension was recorded in cat papillary muscles and the calcium concentration was adjusted over the range 2 to 10 mM. At pH 7.4, addition of all five drugs moved the dose response curve to the right with pA2 values from 4.82 (lidoflazine) to 9.94 (nifedipine). At pH 6.0, there was eight-fold sensitization by acidosis for verapamil, but four, three, and two-fold sensitization for nifedipine, lidoflazine and perhexilene. Diltiazem, however, was not sensitized by acidosis. The differential effects of acidosis on the negative inotropic properties of the five drugs may reflect their ancillary properties opposite gating of the calcium channel, local anaesthesia, intracellular calcium movement or Na+/Ca2+ exchange, but also suggest that diltiazem may have the property of inhibiting the effects of low pH on cell membranes.
J Mol Cell Cardiol 1985 Jul
PMID:The relative sensitization by acidosis of five calcium blockers in cat papillary muscles. 402 Aug 84

The aortic albumin flux, mass transport rates, and aortic albumin-plasma ratios were examined at 20, 30, and 60 min following injection of bovine serum albumin conjugated to fluorescein isothiocyanate (FITCBSA) in rats made diabetic via streptozotocin injection (65 mg/kg, jugular vein, ether anesthesia). These studies were undertaken in order to establish some basic semiquantitative permeability parameters of large arteries in experimental diabetes. Data indicate that under diabetic conditions, both the aortic flux and the mass transfer rates are significantly elevated, changes which correspond to increased tissue accumulation of FITCBSA. In addition, the time needed to saturate the albumin space in aortas of diabetic animals is significantly lower than normal.
Exp Mol Pathol 1984 Oct
PMID:Time-dependent changes in aortic albumin permeability characteristics in experimental diabetes. 647 92


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