Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effects of verapamil on myocardial isometric force on contraction, cardiac adenosine 3,'5'-monophosphate (cyclic AMP) and heart phosphorylase alpha activity were studied in the isolated perfused rat heart. When hearts were perfused with verapamil (5.98 times 10- minus 8 M), force of contraction was reduced approximately 50% within 4 to 5 minutes; at this point, the concentration of cyclic AMP was significantly lower than control but phosphorylase alpha activity was unchanged. In hearts perfused continuously for 60 minutes with verapamil, force of contraction and cyclic AMP levels returned to normal within 20 minutes after administration of verapamil was begun. Isoproterenol (0.355 nmol/min) reversed the depressant effect of verapamil on cardiac contractility and restored heart cyclic AMP levels to normal. Methoxamine (35.5 nmol/min) given to verapamil-depressed hearts, caused contractile force to return to normal, but cardiac cyclic AMP levels remained low. Mephentermine (23.0 nmol/min) had no effect on cardiac contraction, cyclic AMP or phosphorylase alpha activity in hearts depressed by verapamil. It was concluded that with the concentration of verapamil used in these experiments, the drug caused a transient decrease in force of contraction and myocardial cyclic AMP. Both the depression in myocardial contractility and in cardiac cyclic AMP caused by verapamil were reversed promptly by isoproterenol, whereas methoxamine overcame acutely only the negative inotropic effect of verapamil. Mephentermine had no effect on hearts depressed by verapamil.
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PMID:Effects of verapamil on myocardial contractility, cardiac adenosine 3,'5'-monophosphate and heart phosphorylase. 16 48

The effect of verapamil on myocardial contractility, heart adenosine 3', 5'-monophosphate (cyclic AMP) and cardiac phosphorylase a activity was studied in isolated perfused rat hearts. In a concentration of 0.025 mug/ml, verapamil decreased force of contraction 50% and caused a significant fall in heart cyclic AMP within 4 to 5 min after perfusion with the drug was begun. When perfusion of the heart with medium containing verapamil was continued for 60 min, contractile force gradually returned to control. at the end of 60 min of perfusion with verapamil, the myocardial concentration of cyclic AMP was not different from that measured in hearts perfused with contro medium for a similar time period. Isoproterenol, given at the point of maximal contractile depression induced by verapamil, restored normal force of contraction and raised cardiac cyclic AMP to the same level as that observed when the catecholamine was given to untreated hearts; When methoxamine was administered to hearts depressed by verapamil, contractility returned to normal, but cyclic AMP content remained below control values.
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PMID:Metabolic and inotropic effects of verapamil in perfused rat heart. 17 69

Cyclic AMP (cAMP) was determined in that part of the rat cerebral cortex which was invaded by slow potential change (SPC) accompanying cortical spreading depression (CSD). cAMP was determined at various phases of SPC development and at several time intervals after SPC recovery. At maximum SPC, cAMP was increased by 100% above control and by 116% at the time of SPC recovery. Five, 10 and 15 min after SPC recovery, +54%, +34% and 0% increase in cAMP was found, respectively. The activity of phosphorylase a increased by 112% at SPC recovery (maximal cAMP increase), and by 13% 15 min later (complete cAMP recovery). Some depolarizing agents which differ in their ability to stimulate cAMP formation in vitro (veratridine, cyanide and glutamate) when applied topically onto the cerebral cortex in concentrations evoking CSD (2 mM veratridine, 10 mM cyanide and 100 mM glutamate), induced uniform increase of cAMP by about 100%. The same cAMP augmentation was found in the cortical region under maximum SPC induced by these agents.
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PMID:Brain cyclic adenosine 3',5'-monophosphate during depolarization of the cerebral cortical cells in vivo. 18 23

A model of salicylate intoxication was developed in ferrets to permit the evaluation of the interaction with viruses isolated from patients with Reye's syndrome. Salicylate intoxication produced a mild elevation of the serum glutamic oxaloacetic transaminase and fatty changes in the liver, but these changes differed from those seen in Reye's syndrome on light and electron microscopy. Salicylates were associated with decreased activity of hepatic phosphorylase and a slight depression of activity or ornithine transcarbamylase, a mitochondrial urea cycle enzyme. Infection with influenza viruses produced mild fatty changes in the liver, but did not significantly potentiate the effects of salicylate intoxication on the over-all mortality, the degree of fatty changes, or the hepatic enzymes. Influenza infection alone was not associated with decreased hepatic phosphorylase activity, but was associated with decreased activity of ornithine transcarbamylase. Influenza A was isolated from the livers of two of four animals cultured in embryonated eggs.
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PMID:Salicylate intoxication and influenza in ferrets. 43 1

Tissue energy metabolism was examined in posterior (ischemic) and anterior ("control") regions of canine ventricles after 5 and 10 minutes of left circumflex coronary artery occlusion. When compared to identical regions of normal hearts, the following changes were found: (1) decreases in glycogen and phosphorylase activity in the anterior and posterior regions, (2) depressed state 3 rates of oxygen consumption of isolated mitochondria in both anterior and posterior regions, (3) shifts in optimum substrate concentrations for palmityl-CoA (+ carnitine) oxidation by mitochondria in the anterior and posterior regions, and (4) decreases in the apparent zero order and first order rates of mitochondrial palmitylcarnitine production. These changes correlated with a marked decrease in developed tension in the posterior regions. Depression in tension development in the posterior regions of the heart still was present after 30--60 minutes of reperfusion following a 10-minute period of occlusion. Glycogen content in the reperfused areas was significantly decreased after 60 minutes of reperfusion when compared to normal areas and to control hearts perfused for 70 minutes. After reperfusion, mitochondrial function appeared to return toward "normal." However, the slow restoration of contraction of the ischemic area suggests that cellular mechanisms operative in vivo to restore pump function still might be abnormal.
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PMID:Biochemical and morphological correlates of acute experimental myocardial ischemia in the dog. IV. Energy mechanisms during very early ischemia. 75 32

The molecular structures of phosphorylase b and phosphorylase kinase have been visualized by scanning tunneling microscopy (STM). STM is a near field technique that can resolve structures at the nanometer level and thus can image individual molecules. Phosphorylase b can be seen in dimeric and tetrameric forms as well as linear and globular aggregates. The linear arrays consist of side by side dimers with the long axis of the dimer perpendicular to the aggregated chain. Individual molecules of phosphorylase kinase appear to be planar, bilobate structures with a 2-fold axis of symmetry and a central depression.
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PMID:Direct observation of phosphorylase kinase and phosphorylase b by scanning tunneling microscopy. 251 65

It is well known that excessive calcium entry into the myocardial cells may contribute considerably to damage of the heart caused by postischemic reperfusion. The effect of increased calcium entry on hemodynamics, energy metabolism and histochemically estimated enzyme activities in isolated, perfused (Langendorff) rat heart preparation was investigated using calcium paradox (CaPX) as a model. After a 15 min period of stabilized perfusion of the heart, CaPX was induced at 37 degrees C by 2.5 min lasting calcium depletion (calcium-free perfusion) and subsequent calcium repletion (10 min). Changes induced by CaPX concerned loss of electrical and mechanical activities of the heart, significant decreases in coronary flow and ATP, ADP and the total content of adenine nucleotides in tissue as well as considerable depression in ATPases, SDH, beta-HBDH, LDH and glycogen phosphorylase activities in the myocardium. Diltiazem in concentration of 4.0 mumol.l-1 applied prior to calcium depletion and during calcium repletion prevented partially the deterioration of cardiac function by improving contractility and electrical activity of the heart as well as the coronary flow. The effect of diltiazem in concentration of 0.4 mumol.l-1 was less expressed. After both concentrations of diltiazem used, a better preserved ultrastructure, higher activities of the enzymes investigated, significantly higher ATP and total adenine nucleotide levels were seen in the myocardium as compared to the untreated controls.
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PMID:Partial prevention of calcium paradox in isolated perfused rat hearts by diltiazem. 252 34

On the material of early autopsies of the above patients the activity of the following myocardial enzymes was undergone the quantitative histochemical study: succinate, lactate, (beta-oxybutyrate, d-glycerophosphate, glucose 6-phosphate and alcohol dehydrogenase, NAD-diaphorase, catalase, phosphorylase. The increase of the activity of practically all enzymes studied was observed in the myocardial areas with no circulation disturbances. This increase was due to the moderate myocardial hypertrophy. On the contrary, in the areas with a non-even blood supply (ischemia) the decrease of the activity of all oxidative-reductive enzymes was observed. The presence of such foci in the myocardium which occur in 70% cases studied facilitates the development of the ventricular fibrillation with a fatal outcome. The enzyme depression is particularly pronounced against the background of a high alcoholic content.
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PMID:[A histochemical study of enzyme activity in the myocardium of victims of sudden death with small-focal cardiosclerosis]. 259 77

Several hepatotoxic agents with varied chemical mechanisms of toxicity (acetaminophen, diquat, and CCl4) depress membrane calcium pumps and/or enhance the permeability of membranes to calcium. To probe the relevance of these findings to maintenance of calcium homeostasis after toxins in vivo, we measured the activity of glycogen phosphorylase a, as an index of cytosolic free [Ca2+], in freeze-clamped liver samples obtained at several times after the toxin dose. Both acetaminophen and diquat caused significant increases of phosphorylase a activity, and activity remained elevated for several hours after the dose. Significantly, the administration prior to diquat of desferrioxamine, which offers protection against the liver necrosis and depression of microsomal Ca2+ accumulation observed after diquat alone (Tsokos-Kuhn et al., Mol Pharmacol 34: 209-214, 1988), decreased phosphorylase activation. Activation of phosphorylase was observed also after CCl4 administration, as previously reported by Long and Moore (Biochem Pharmacol 35: 4131-4137, 1986). We conclude that perturbations in liver membrane Ca2+ regulation observed after administration of these hepatotoxins in vivo correlate directly with phosphorylase a activity, thereby providing additional in vivo evidence for an alteration of Ca2+ homeostasis early in the development of the liver damage produced by these chemicals.
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PMID:Evidence in vivo for elevation of intracellular free Ca2+ in the liver after diquat, acetaminophen, and CCl4. 278 60

Kinetic properties of regulatory enzymes of glycolysis in liver of the mouse, Zapus hudsonius, were modified during hibernation, the probable mechanism being covalent modification. Liver glycogen phosphorylase activity was strongly depressed during both short (less than 24 h) and long (5-8 days) term hibernation, the mechanism involving a decrease in both the percentage of enzyme in the active a form and the total amount (a + b) of enzyme expressed. Phosphofructokinase showed kinetic changes (a 2.5-fold increase in Ka for fructose-2,6-P2, 4- and 3.7-fold decreases in I50 values for ATP and citrate, compared to euthermic controls) in liver of hibernators indicative of phosphorylation inactivation of the enzyme. Measured levels of fructose-2,6-P2 in liver did not change during hibernation. Changes in pyruvate kinase kinetics in liver from long term hibernators similarly indicated enzyme phosphorylation in the depressed state (Ka for fructose-1,6-P2 increased 4.4-fold, I50 for L-alanine decreased 6.3-fold). Apparent covalent modification of glycolytic enzymes during hibernation may serve two functions: depression of glycolytic activity as part of the general metabolic rate depression of hibernation, or reorganization of fuel use in the hibernating state to limit carbohydrate catabolism and promote gluconeogenesis.
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PMID:Regulation of liver metabolism by enzyme phosphorylation during mammalian hibernation. 294 58


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