Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Evidence collected during the last decade indicates that the molecular processes responsible for smooth muscle contraction are fundamentally different from those responsible for skeletal muscle contraction. Furthermore, because of the diverse functional roles of various smooth muscles, it would not be surprising if significant differences in regulatory processes also exist among different smooth muscles. Such diversity may already be exemplified by differences in cross-bridge kinetics and sources of activator Ca2+. Additional unique regulatory features of various smooth muscle types will undoubtedly be uncovered by further research. A convincing body of data suggests that activation of the adenylate cyclase/protein kinase cascade is responsible for the bronchodilation produced by beta-adrenoceptor agonists. Although the exact mechanism by which the activation of cAMP-dependent protein kinase induces relaxation is not clear, the phosphorylation of multiple substrates may be involved. Phosphorylation of these substrates can promote relaxation by decreasing the myoplasmic Ca2+ concentration, decreasing the Ca2+ sensitivity of the contractile apparatus, or both. Thus, because beta-adrenoceptor agonists act as physiologic antagonists of broncho-constriction, they should relax airway smooth muscle regardless of the mediator(s) responsible for the bronchospasm. Perhaps this is the major reason that the beta-adrenoceptor agonists have become the premier class of drugs used in the treatment of bronchial asthma. As useful as the sympathomimetic bronchodilators have been, they are not without liabilities. These liabilities include: cardiovascular and skeletal muscle side effects, an inherent subsensitivity of the asthmatic patient population to beta-adrenoceptor agonists, the development of tolerance and a loss of efficacy during severe asthmatic episodes. The fact that these drawbacks are probably shared by all sympathomimetic bronchodilators suggests that little therapeutic advantage will be gained by developing new beta-adrenoceptor agonists. The task of developing novel bronchodilators will be facilitated by an understanding at the molecular level of the diversity among smooth muscles and the processes that regulate smooth muscle tone. Hopefully, such knowledge will lead to a new generation of highly effective, tissue-selective bronchodilators with significant therapeutic advantages over those currently available.
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PMID:Biochemical regulation of airway smooth muscle tone: current knowledge and therapeutic implications. 330 70

The finding by several workers that biochemical responses to catecholamines are diminished in asthmatic patients during periods of active asthma as compared to normal subjects has led to the recognition of the beta-adrenergic blockade phenomenon, a common accompaniment of extrinsic bronchial asthma. Using an intact cell method to measure leucocyte adenyl cyclase activity, we have been able to show that there is a noticeably reduced responsiveness of this enzyme system (which is now identified with beta-receptor function) to isoprenaline in the leucocytes of patients suffering from acute bronchial asthma, but that asthmatic patients in remission could not be distinguished from normal persons in this respect. Evidently the defective beta-receptor function may be associated with overactivity of the alpha-receptors in acute bronchial asthma, since the responsiveness to isoprenaline stimulation could be restored towards normal by concomitant treatment of the leucocytes of these patients with alpha-receptor blocking drugs such as phentolamine or thymoxamine. Ouabain, though somewhat less potent, also enhanced responsiveness to isoprenaline stimulation. The relation of these results to the clinical observation of adrenaline resistance in active asthma suggests that alpha-receptor blocking drugs may be of value in restoring the sensitivity of beta-receptors to sympathomimetic amines.
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PMID:Response of leucocyte adenyl cyclase to isoprenaline and effect of alpha-blocking drugs in extrinsic bronchial asthma. 414 22

1. Sympathomimetic amines which increase the contractility of the isolated heart were tested for effects on cyclic AMP concentrations in rabbit heart slices and on adenyl cyclase activity in rabbit heart homogenate.2. Noradrenaline, as expected, stimulated adenyl cyclase activity and increased cyclic AMP concentrations, but dopamine and phenylephrine were ineffective.3. This result does not support the concept that cyclic AMP plays an essential role in the inotropic effect of sympathomimetic amines.
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PMID:Lack of relationship between myocardial cyclic AMP concentrations and inotropic effects of sympathomimetic amines. 433 83

The full agonist isoprenaline (5.3-6.6 nmol/kg . min) and the partial beta-adrenoceptor agonist prenalterol (10.6-13.3 nmol/kg . min) were administered to cats continuously via osmotic minipumps (i.p.). After seven days the functional and adenylate cyclase responsiveness to the agonists, as well as the beta-adrenoceptor-binding characteristics, were studied in cardiac and soleus muscle preparations in vitro. After isoprenaline pretreatment, the papillary muscles and soleus muscle strips wer 15-18 times less sensitive to isoprenaline compared with muscles from control cats. The stimulatory potency (pD2) of prenalterol in the papillary muscle was not changed significantly. The affinity of the agonists to the beta-adrenoceptors was unaffected in both tissues by the pretreatment, but the densities of beta-adrenoceptors were significantly reduced, by 36% (myocardium) and 47% (soleus) respectively. In the cat papillary muscle the intrinsic sympathomimetic activity (ISA) of prenalterol on contractile parameters was reduced from 84 (Tmax), 69 (dT/dtmax) and 71% (dT/ dtmin ) in control animals, to 33, 22 and 28%, respectively in the animals pretreated with isoprenaline. Prenalterol pretreatment did not induce any marked changes, either in the stimulatory potency or affinity of the agonists in the two tissues or in the maximal response (ISA) of prenalterol in the papillary muscle. The marked reduction in the stimulatory potency of isoprenaline and the reduced ISA of prenalterol in the myocardium after isoprenaline pretreatment can not be explained by the reduction in beta- adrenoceptor density alone. Since the affinity to the beta- adrenoceptors is unaffected, a reduced efficiency in the signal transmission must be the main cause.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of in vivo treatment with isoprenaline or prenalterol on beta-adrenoceptor mechanisms in the heart and soleus muscle of the cat. 614 1

Celiprolol has been previously shown in vivo to be an effective beta-adrenergic antagonist with cardio-selectivity and weak intrinsic sympathomimetic activity but no membrane stabilizing or "quinidine-like" effects. With in vitro systems reported here, the following was observed. Against the stimulation of adenylate cyclase from dog ventricular muscle by isoproterenol, celiprolol had a Ki of 2.6 X 10(-7) M which was about 1/20 the potency of propranolol. At 100 microM, celiprolol did not affect histamine or dopamine concentration-response curves for the stimulation of adenylate cyclase from guinea-pig cerebral cortex. By itself, up to 1 mM, celiprolol did not affect basal adenylate cyclase activity from either preparation. With in vitro radioligand binding assays to directly measure beta-adrenergic receptor interactions, celiprolol had Ki values of 1.4 X 10(-7) to 8.3 X 10(-6) M. A 35-fold beta selectivity was noted with membranes from rat heart vs. rat reticulocytes, which supports previously reported in vivo data on cardioselectivity. No difference in affinity to beta-receptors was noted with frog vs. turkey erythrocyte membranes which supports the contention that these two non-mammalian systems are not predictive of beta1/beta2 specificity with mammalian systems. Celiprolol also showed some selective alpha2-adrenoceptor antagonism against (3H)-yohimbine binding vs. (3H)-prazosin binding to membranes from rat cerebral cortex. With rat adipocytes, up to 300 microM celiprolol did not stimulate basal lipolysis in the presence or absence of 10 microM 1-methyl-3-isobutyl-xanthine. Celiprolol inhibited isoproterenol-induced lipolysis with a potency about 2 times greater than practolol. Unlike propranolol, celiprolol at very high concentrations did not show non-specific inhibition of lipolysis induced with cyclic nucleotides. These and other published data would suggest the following: in vitro beta adrenergic receptor antagonist activity can be demonstrated for celiprolol, cardioselectivity is due to a combination of many factors including stereochemistry of the molecule and in vivo distribution and metabolism, celiprolol does not possess "non-specific" membrane activity, the "intrinsic-sympathomimetic activity" of celiprolol is selectively observed in some but not all in vitro test models, celiprolol has about a 10-fold selectivity for alpha 2-vs. alpha 1-receptors which is relatively unique to beta-antagonists and needs further investigations as to the potential physiological significance.
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PMID:Effects of celiprolol (REV 5320), a new cardioselective beta-adrenoceptor antagonist, on in vitro adenylate cyclase, alpha- and beta-adrenergic receptor binding and lipolysis. 615 80

Left ventricular infarction (AMI) was produced in experimental animals and the contractile response to beta-adrenergic and H2-histaminergic stimulation by isoproterenol and impromidine tested in the isolated perfused heart preparation. Adenylate cyclase activity as well as binding characteristics of [3H]-dihydroalprenolol ([3H]-DHA), [3H]-methyl-tiotidine ([3H]-TIOT) and [3H]-quinuclidinyl benzilate ([3H]-QNB) to cardiac beta 1-, H2- and cholinergic muscarinic receptors were determined in sarcolemmal membrane preparations of the right ventricle of the same hearts. In addition, an attempt was made to elucidate the therapeutic value of post-AMI treatment with impromidine in the presence and absence of beta-blockade, in contrast to administration of prenalterol and the conventional therapy with beta-sympathomimetic drugs, e.g. dobutamine. Three days post-AMI the dose-response curve for isoproterenol of right ventricular dP/dtmax was significantly depressed, while the inotropic effect of impromidine was not impaired. Stimulation of adenylate cyclase activity by isoproterenol was reduced by 80% whereas impromidine and NaF stimulation rates were unaltered. Receptor-binding studies indicated a 90% loss and 10-times lowered affinity (KD) of the remaining beta-receptors while specific [3H]-TIOT- and [3H]-QNB-binding was unchanged. Administration of dobutamine increased mortality rates and extension of infarct size, led to a further decrease in contractile response to isoproterenol, induced complete insensitivity of adenylate cyclase to isoproterenol stimulation and caused pronounced additional reduction of number and affinity of [3H]-DHA-binding sites. In contrast, all above alterations were prevented by treatment with either prenalterol or combined administration of impromidine plus metoprolol. It is concluded, that these alterations in the non-ischemic, uninvolved myocardium post-AMI are the result of catecholamine-induced specific damage of sarcolemmal beta-receptors. Furthermore, treatment with H2-agonists in combination with beta-blocking agents may have beneficial effects, whereas conventional therapy with beta-sympathomimetic drugs tends to worsen the already depressed function of the beta-adrenergic stimulation mechanism.
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PMID:Apparent superiority of H2-receptor stimulation and simultaneous beta-blockade over conventional treatment with beta-sympathomimetic drugs in post-acute myocardial infarction: cardiac effects of impromidine--a new specific H2-receptor agonist-in the surviving catecholamine-insensitive myocardium. 615 6

Beta-Adrenergic blocking drugs, by occupying beta receptors without stimulating adenylate cyclase, interfere with the physiologic responses mediated by the sympathetic nervous system. This property has led to their application in the cardiovascular disorders on which sympathetic tone either underlies or contributes to the pathogenesis of the process. Lipid solubility, selective beta-receptor blockade, and intrinsic sympathomimetic activity are three additional characteristics of beta blockers that modify the pharmacodynamics and pharmacologic effects of each agent. As the role of the sympathetic nervous system in the pathogenesis of heart disease is better defined, the development of beta blockers with particular pharmacologic profiles and fewer side effects may provide more specific treatment.
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PMID:Beta blockers: the extended family. 615 7

We determined stimulation rates of cardiac adenylate cyclase activity by isoproterenol and impromidine in particulate sarcolemmal membrane preparations from human papillary muscles resected during open heart replacement of mitral and aortic valves. In addition, specific receptor binding studies with [3H]dihydroalprenolol [( 3H]DHA) to cardiac beta-receptors and [3H]tiotidine [( 3H]TIOT) to cardiac H2-receptors were carried out in the same preparations. Compared with the response in patients with pure mitral valve stenosis, the response of cardiac adenylate cyclase activity to isoproterenol showed a marked decrease (-90%) in patients with combined mitral and aortic valve disease, corresponding to the severity of degree of insufficiency at both valves. Similar changes were observed in receptor binding studies with [3H]DHA, in which the reduction of beta-receptor density was of the same order of magnitude. In contrast, stimulation of the enzyme by impromidine and binding capacity of [3H]TIOT to cardiac H2-receptors were found to be unaltered in the same membrane preparations of all 16 patients. We conclude that treatment with H2-agonists may be a new therapeutic approach to congestive heart failure, especially in patients not responding to beta-adrenoceptor stimulation with beta-sympathomimetic drugs.
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PMID:Effects of the H2-receptor agonist impromidine in human myocardium from patients with heart failure due to mitral and aortic valve disease. 619 60

The myocardial responsiveness of conscious, instrumental dogs to exogenously administered isoproterenol and norepinephrine was investigated in neonatal, 6-wk-old, and adult animals. Comparable base-line values for peak left ventricular derivative of pressure with respect to time were observed in all age categories. However, when compared with adult responses, the sympathomimetic amine-induced increases in neonatal left ventricular dP/dt were significantly blunted at each concentration of adrenergic agonist examined, whereas the 6-wk-old puppies displayed an intermediate inotropic response. To investigate the cellular mechanisms of this blunted neonatal response, we correlated physiologic and biochemical measurements of the myocardial responses to catecholamines in each age category. When compared with adult myocardial membrane preparations, neonatal cardiac membranes were characterized in vitro by an increased density of beta-adrenergic binding sites, comparable affinity for adrenergic agonists and antagonists, and an enhanced coupling of adenylate cyclase activation to receptor occupancy. Simultaneous changes in either the serum catecholamine concentration or the membrane content of other intrinsic proteins failed to account for the observed neonatal increase in beta-adrenergic receptor density. These findings are most consistent with a compensatory mechanism of the cardiac cell membrane, whereby an inherent depression in the adrenergic responsiveness of the immature myocardium appears to induce the increase in receptor density and activation of adenylate cyclase.
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PMID:Cellular mechanisms of impaired adrenergic responsiveness in neonatal dogs. 625 59

Several possible mechanisms for 5-hydroxytryptamine (5-HT)-induced tachycardia in rat have been suggested: an activation of 5-HT1C or 5-HT2 receptors, an indirect sympathomimetic effect or a mechanism independent of 5-HT2 receptor stimulation. The aim of this study was to investigate the involvement of these mechanisms in the 5-HT-induced increase in rat atrial rate using biochemical methods. Indeed, the 5-HT1C and 5-HT2 receptors are linked to phosphoinositide hydrolysis and the noradrenaline (NA) released by 5-HT can stimulate the beta 1-adrenergic receptors linked to adenylate cyclase stimulation. The effect of varying concentrations of 5-HT on inositol phospholipid hydrolysis and adenylate cyclase activity of the rat isolated atria were measured. 5-HT (2 microM) did not modify total inositol phosphate (IP) production, while 5-HT 10 and 50 microM increased it 2-fold. The 5-HT2 antagonist ketanserin (1 microM) abolished IP accumulation induced by 5-HT microM), which indicates that this accumulation is 5-HT2 and not 5-HT1C receptor-mediated. Moreover, cyclic AMP (cAMP) formation was enhanced by 5-HT (5, 10, 20 and 50 microM). When atria were incubated 10 min with the beta-adrenergic receptor antagonist nadolol (1 microM), the increase in the cAMP level induced by 5-HT, whatever its concentration (10, 20 or 50 microM), was inhibited. Treating rats with reserpine (2.5 mg/kg, i.p., 48 and 24 hr before experimentation), which caused NA depletion in the heart, seemed to reduce the stimulating effect of 5-HT 10 and 50 microM on adenylate cyclase activity. Thus, the 5-HT-induced increase in cAMP is indirectly due to the activation of the beta-adrenergic receptors by the NA released by 5-HT. It is concluded that 5-HT stimulates both phosphoinositide turnover and adenylate cyclase activity in the rat isolated atria by activation of 5-HT2 receptors and by an indirect sympathomimetic effect.
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PMID:Biochemical characterization of the mechanisms involved in the 5-hydroxytryptamine-induced increase in rat atrial rate. 791 3


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