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)

Both histamine and tolazoline (2-benzyl-2-imidazoline) stimulated particulate fractions of adenylate cyclase from guinea pig myocardium. Tolazoline was one-tenth as potent, and about two-thirds as active at maximally effective levels, as was histamine. Enhancement of cyclase activity by tolazoline was additive with that by isoproterenol, and the histamine and tolazoline concentration-response curves were parallel, suggesting that tolazoline acted at the same site as histamine. At maximally effective concentrations, tolazoline did not affect ATPase or cyclic AMP phosphodiesterase activities associated with the cyclase preparations. The H1-receptor antagonist mepyramine, and the H2 antagonist, burimamide, blocked stimulation of cyclase by tolazoline at one-tenth the molarity of agonist. Both antagonists were less effective vs. histamine stimulation of heart cyclase in particulate fractions or whole homogenates, with mepyramine being generally more potent. It is suggested that the molecular basis of the stimulatory effect of tolazoline on cardiac tissue may be histaminergic stimulation of adenylate cyclase. Furthermore, the lack of potency of burimamide as a histamine antagonist and its lack of specificity compared to mepyramine, at the subcellular level, indicate that histamine-responsive adenylate cyclase from heart may not be a satisfactory molecular model for the H2 receptor pharmacology of histamine in cardiac tissue.
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PMID:Comparison of the effects of histamine and tolazoline on adenylate cyclase activity from guinea pig heart. 16 24

Specific cell surface membrane receptors, labeled by forming a complex with low concentrations (about 10--9 M to 10--10 M) of a highly radioactive (125-I, carrier-free) ligand, can serve as simple, reliable, sensitive, and quantitative markers for plasma membranes in fractionation procedures. 125-I-Labeled insulin, cholera toxin and the plant lictins, wheat germ agglutinin (WGA), and concanavalin A are the receptor ligands used for labeling plasma membranes. Plasma membranes are labeled before homogenization by incubating intact cells briefly at 24 degrees or 4 degrees, or by very brief in situ perfusion of the organ, with the 125-I-Labeled marker. After removing the free 125-I-labeled ligand from the medium by washing (at 4 degrees), the membrane-marker complex remains intact over prolonged (days) periods of time at 4 degrees. Labeling occurs nearly exclusively on the cell surface, the specificity of this plasma membrane reaction is maintained through homogenization and fractionation, and little dissociation of the complex, detectable exchange of label, or aggregation occur even upon prolonged incubation of the homogenates. When desired, the complex can be dissociated deliberately by manipulating experimental conditions such as temperature or by adding specific simple sugars. The most generally suitable marker appears to be WGA. At least in certain tissues (e. g. fat cells) labeling of the plasma membrane with 125-I-WGA and 125-I-isnulin can be performed equally well and selectively in homogenates as in the intact cell. 125-I-Cholera toxin cannot be used in homogenates because of significant binding to nuclei. The use of 125-I-labeled WGA as a specific plasma membrane marker is illustrated in following the course of fractionations, and in quantitating the yield and purity, of plasma membranes from fat cells, lymphocytes, and liver. The results are compared with simultaneous measurements of the plasma membrane enzyme "markers," ATPase, 5-nucleotidase, and basal as well as hormone-stimulated adenylate cyclase activities. The fractionation of liver plasma membranes by aqueous dextran-polyethylene glycol two-phase polymer systems and by conventional differential centrifugation procedures arealso quantitated with the marker, 125I-WGA. Substantial quantities of plasma membrane material are no recovered in the interphase of the two-phase polymer system. Conventional liver fractionation procedures which retain, for further purification, only the readily sedimented pellet (2000 times g, 15 min) discard a very large (at least 70%) questenal hy
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PMID:Membrane receptors as general markers for plasma membrane isolation procedures. The use of 125-I-labeled wheat germ agglutinin, insulin, and cholera toxin. 16 29

Na+-K+-ATPase was inhibited by 1 times 10-4M ethacrynic acid and mercuderamide, and by 1 times 10-3M hydrochlorothiazide and furosemide. A modification of Gilman's (1970) protein displacement assay has been used to measure c-AMP levels in toad bladder epithelial cells. Vasopressin (50 mU/ml) caused c-AMP levels to rise from 4.27 to 9.27 pmol/mg protein. Ethacrynic acid had no effect on cellular c-AMP levels after 10 min exposure to the drug, but at 90 min caused a reduction of both basal and vasopressin stimulated levels. Furosemide caused an apparent rise in c-AMP levels, dilution ratio measurements indicated interference by this drug in the assay procedure, mecuderamide also caused substantial interference with the c-AMP assay. Hydrochlorothiazide had no effect on basal or hormone stimulated levels of c-AMP. It was concluded that the inhibition of sodium transport produced by ethacrynic acid in toad bladder is probably due to inhibition of adenylate cyclase, an effect not shared by other dieuretics.
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PMID:The effect of diuretics on Na+-K+-ATPase and c-AMP levels in toad bladder epithelial cells. 16 90

At least three mechanical changes characterize the response of cardiac muscle to agents that enhance cyclic AMP production. In common with other inotropic interventions, tension is augmented and the rate of tension rise is increased. The third response, acceleration of the rate of relaxation, is characteristic of the actions of beta-adrenergic agonists. These mechanical effects can be attributed to changes in (1) the amount of Ca2+ released during systole, (2) the rate of Ca2+ release at the onset of systole, and (3) the rate at which Ca2+ is reaccumulated by the sarcoplasmic reticulum at the end of systole. The ability of cyclic AMP-dependent protein kinases to phosphorylate the cardiac sarcoplasmic reticulum in vitro parallels stimulation of both Ca2+ transport and Ca2+-activated ATPase. The phosphoprotein formed in the presence of cyclic AMP and protein kinase has the chemical characteristics of a phosphoester, contains mostly phosphoserine, and has an electrophoretic mobility in SDS polyacrylamide gels that corresponds to a protein of 22,000 daltons. This 22,000-dalton protein, tentatively named phospholamban, thus differs from the acyl phosphooprotein formed by the Ca2+-transport ATPase, which as an apparent molecular weight of 90,000 to 100,000 daltons. Phospholamban has not been found in fast skeletal muscle, nor is Ca2+ transport accelerated by cyclic AMP and protein kinase in sarcoplasmic reticulum from these muslces which do not respond to beta-adrenergic agonists with accelerated relaxation. It thus appears likely that phosphorylation of phospholamban correlates both with an increased rate of Ca2+ transport by cardiac sarcoplasmic reticulum in vitro and accelerated relaxation in the intact myocardium. Preliminary findings are consistent with the view that phosphorylation of phospholamban may be related to other actions on Ca2+ fluxes brought about by agents which activate adenylate cyclase in the myocardium, but these interpretations must remain speculative pending more definitive studies.
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PMID:Control of calcium transport in the myocardium by the cyclic AMP-Protein kinase system. 16 80

Ethanol and other alcohols stimulate adenylate cyclase activity in various tissues and potentiate its stimulation by some hormones. This effect, however, usually requires a high alcohol concentration. In some cases, an unknown substance, different from cyclic AMP, was formed from ATP in the presence of an alcohol and mimicked stimulation of adenylate cyclase. Ethanol inhibits phosphodiesterase activity in some tissues. In the brain, only the low affinity enzyme of pons-medulla region is inhibited. ATP levels and ATPase activities are affected by ethanol treatment and this can lead to secondary changes of the cyclic AMP levels. Cyclic AMP levels in the brain and liver are decreased by acute ethanol administration while levels in other organs are unchanged. High doses of ethanol inhibit the postdecapitation-induced rise of cyclic AMP level in the brain while low ethanol doses potentiate the postdecapitation rise of cyclic AMP in the lower brain stem. Chronic ethanol administration increases basal adenylate cyclase activity and cyclic AMP levels, and decreases stimulation of adenylate cyclase by norepinephrine in the brain. In contrast, the stimulation of cyclic AMP formation by norepinephrine and other biogenic amines is increased in the brain of ethanol-withdrawn animals. Chronic administration of ethanol affects also cyclic AMP levels and cyclic AMP formation in some peripheral organs. Cyclic AMP might be involved in ethanol-induced fatty liver, since it activates hepatic lipase and might also participate in the fatty acid oxidation.
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PMID:Interactions of ethanol with cyclic AMP. 16 56

Beef brain cortex adenylate cyclase (ATP pyrophosphate-lyase (cyclizing) EC 4.6.1.1) activity is 84--88% inhibited by 5 - 10(-5) M ethyleneglycol-bis-(beta-aminoethyl ether)N,N'-tetraacetic acid in the absence of F- but only 50--60% inhibited by 5 - 10(-5) M ethyleneglycol-bis-(beta-aminoethyl ether)N,N'-tetraacetic acid in the presence of F-. In either case, further increase in EGTA concentration did not alter the degree of inhibition. The inhibition can be completely reversed in both cases by addition of 3 - 10(-5) M Ca2+, (yielding a [free Ca2+] of approximately 2 - 10(-6) M) and 5 - 10(-5) M Mn2+ or Co2+ and partially by 5 - 10(-5) M Sr2+ but not by addition of 5 - 10(-5) M Ba2+, Zn2+, Ni2+ or Fe2+. A [free Ca2+] of 7.2 - 10(-5) M markedly inhibited cyclase activity in the presence of F-. Solubilization by 1.8% Triton X-100 resulted in an enzyme preparation no longer stimulated by NaF and 100% inhibited by the addition of 5 - 10(-5) M ethyleneglycol-bis-(beta-aminoethyl ether)N,N'-tetraacetic acid either in the absence or presence of NaF. However, in contrast to ethyleneglycol-bis-(beta-aminoethyl ether)N,N'-TETRAACETIC ACID, EDTA had no measurable effect on adenylate cyclase either in the presence or absence of NaF and ethyleneglycol-bis-(beta-aminoethyl ether)N,N'-tetraacetic acid did not affect ATPase or phosphodiesterase activities. The data is rationalized by the postulation of two independent enzyme components in brain cortex: one component is about six-fold activated by NaF and the NaF effect is enhanced by low concentrations of Ca2+ and Mg2+. A second component is totally Ca2+ dependent and inhibited by high concentrations of F-. Mn2+, Co2+ and Sr2+ appear to be in vitro Ca2+ substitutes for both enzyme systems. On this basis, Triton X-100 treatment results in about a three-fold increase in specific activity of the Ca2+ dependent cyclase component but a complete abolition of the NaF stimulated component.
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PMID:Differentiation of fluorides-stimulated and non-fluoride-stimulated components of beef brain cortex adenylate cyclase cy calcium ions, ethyleneglycol-bis-(beta-aminoethyl ether) N,N'-tetraacetic acid and Triton X-100. 16 52

The activity of adenylate cyclase and the steady state levels of cyclic AMP (cAMP) were determined in stria vascularis (SV) and organ of Corti (OC) of the guinea pig cochlea. The activities are 12 and 19 pmoles/mg dry weight/minute for OC and SV, respectively. The activity was increased two to four-fold by NaF. The base level of cAMP is 4.2 and 4.4 nmoles/g dry weight in OC and SV, respectively. In contrast to brain, neither ischemia nor barbiturates produced major changes of the steady state levels of cAMP. No in vitro effect of cAMP upon the state of activation of glycogen phosphorylase was noticeable in either tissue. cAMP did not exert a significant in vitro inhibition of strial Na+K+-ATPase. Perilymphatic perfusion of cAMP (10-3 M) and of theophylline (5 times 10-3 M) did not produce changes in the endolymphatic potential (EP), but dibutyryl cAMP (10-3 M) led to a significant increase of EP. The alpha adrenergic blocking agent, phentolamine, produced very complex changes of the cochlear potentials. A possible role of catecholamines and cAMP in the secretory phenomena of the SV and in the transduction and/or transmission processes of the auditory sense organ are discussed.
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PMID:Cyclic AMP and adenylate cyclase in the inner ear. 16 45

Plasma membranes were isolated from rat liver mainly under isotonic conditions. As marker enzymes for the plasma membrane, 5'-nucleotidase and (Na+ + K+)-ATPase were used. The yield of plasma membrane was 0.6-0.9 mg protein per g wet weight of liver. The recovery of 5'-nucleotidase and (Na+ +K+)-ATPase activity was 18 and 48% of the total activity of the whole-liver homogenate, respectively. Judged from the activity of glucose-6-phosphatase and succinate dehydrogenase in the plasma membrane, and from the electron microscopic observation of it, the contamination by microsomes and mitochondria was very low. A further homogenization of the plasma membrane yielded two fractions, the light and heavy fractions, in a discontinuous sucrose gradient centrifugation. The light fraction showed higher specific activities of 5'-nucleotidase, alkaline phosphatase, (Na+ +K+)-ATPase and Mg2+-ATPase, whereas the heavy one showed a higher specific activity of adenylate cyclase. Ligation of the bile duct for 48 h decreased the specific activities of (Na2+ +K+)-ATPase and Mg2+-ATPase in the light fraction, whereas it had no significant influence on the activities of these enzymes in the heavy fraction. The specific activity of alkaline phosphate was elevated in both fractions by the obstruction of the bile flow. Electron microscopy on sections of the plasma membrane subfractions showed that the light fraction consisted of vesicles of various sizes and that the heavy fractions contained membrane sheets and paired membrane strips connected by junctional complexes, as well as vesicles. The origin of these two fractions is discussed and it is suggested that the light fraction was derived from the bile front of the liver cell surface and the heavy one contained the blood front and the lateral surface of it.
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PMID:Subfractionation of rat liver plasma membrane. Uneven distribution of plasma membrane-bound enzymes on the liver cell surface. 17 48

Salmonella typhimurium, an organism that invades intestinal mucosa but does not elaborate a traditional enterotoxin, evokes ileal secretion by causing alterations in active sodium and chloride transport mechanisms. To evaluate the possibility that these changes in transport might be related to the adenylate cyclase-cyclic AMP or NA+-K+-adenosine triphosphatase (ATPase) systems, mucosal adenylate cyclase, cAMP phosphodiesterase, Na+-K+ and Mg++ ATPase activities, and cAMP concentrations were measured in rabbit ileal loops infected with two strains of S. typhimurium. Strain TML invades the mucosa and evokes fluid secretion whereas strain SL 1027 invades but does not evoke secretion. Cholera toxin-stimulated loops were also studied. When compared to control loops, TML-infected mucosa demonstrated a marked increase in adenylate cyclase activity, in cAMP concentration, and no change in phosphodiesterase or ATPase activities. SL 1027-infected mucosa demonstrated no change in either adenylate cyclase or ATPase activities. Indomethacin pretreatment of cyclase activation. In contrast, indomethacin pretreatment of cholera toxin exposed animals resulted in only a partial reduction of secretion while not altering the stimulation of adenylate cyclase. These results suggest that: (1) S. typhimurium causes ileal secretion by stimulating adenylate cyclase; (2) mucosal invasion alone (SL 1027) is not sufficient to activate adenylate cyclase, and (3) Na+-K+-ATPase does not appear to be involved in salmonella-induced secretion. The mechanism of salmonella activation of adenylate cyclase is unclear but apparently differs from that of cholera toxin in that it is inhibited by indomethacin. This might be explained by the participation of prostaglandins in the salmonella activation process.
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PMID:Pathogenesis of Salmonella-mediated intestinal fluid secretion. Activation of adenylate cyclase and inhibition by indomethacin. 17 99

Free flow electrophoresis was employed to separate renal cortical plasma membranes into luminal (brush border microvilli) and contraluminal (basal-lateral membrane) fractions. During the separation adenylate cyclase activity was found to parallel the activity of Na+-K+-activated ATPase, an enzyme which is present in contraluminal but not in luminal membranes. In the basal-lateral membrane fraction the specific activities of adenylate cyclase and Na+-K+-activated ATPase were 4.4 and 4.6 times greater, respectively, than in the brush border fraction. The adenylate cyclase of the basal-lateral membrane fraction was specifically stimulated by parathyroid hormone which maximally increased enzyme activity eightfold. The biologically active (1-34) peptide fragment of paratyhroid hormone produced a 350% increase in adenylate cyclase activity. In contrast, calcitonin, epinephrine and vasopressin maximally stimulated the enzyme by only 55, 35 and 30%, respectively. These results indicate that adenylate cyclase, specifically stimulated by parathyroid hormone, is distributed preferentially in the contraluminal region of the plasma membrane of renal cortical epithelial cells.
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PMID:Distribution of parathyroid hormone-stimulated adenylate cyclase in plasma membranes of cells of the kidney cortex. 17 37


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