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)

Cultured NCB-20 hybrid cells express adenylate cyclase-coupled receptors for 5-hydroxytryptamine (5-HT) that correspond biochemically and pharmacologically to 5-HT1 receptors in rodent brain membrane preparations, apart from a much-reduced affinity for 5-HT (160 nM compared to less than 5 nM in brain). Since NCB-20 cells also differ from rodent brain both qualitatively and quantitatively in their ganglioside composition, the effects of exogenously added gangliosides on the affinity of the 5-HT1 receptor for 5-HT were tested. Both GM1 ganglioside (the cholera toxin receptor) and tetrasialoganglioside GQ1b produced a 10-fold increase in receptor affinity for [3H]5-HT, measured by binding studies. All gangliosides, at submicromolar concentrations, resulted in significantly reduced EC50 values for 5-HT-mediated elevation of intracellular cyclic AMP levels. GQ1b had the capacity to most dramatically enhance the potency of 5-HT in mediating increases in cyclic AMP levels. Gangliosides had no effect on the potency of DADLE or 3,4-dihydroxyphenylethylamine (dopamine)-mediated depression of cyclic AMP levels, suggesting some specificity for 5-HT. Our data are interpreted as implying a specific role for polysialogangliosides in modulating the affinity of the 5-HT1 receptor and the coupling of the 5-HT1 receptor-guanine nucleotide binding protein adenylate cyclase complex.
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PMID:Possible role of gangliosides in regulating an adenylate cyclase-linked 5-hydroxytryptamine (5-HT1) receptor. 299 94

Anoxic stress is accompanied by activation of the central and peripheral sympathetic nervous system resulting in a high local catecholamine concentration. The authors studied how myocardial cells cope with the high level of catecholamines under ischaemic conditions. The beta-adrenoceptor-adenylate cyclase system (AC) was investigated in different models of ischaemia and anoxia (global ischaemia, low-perfused hearts, coronary artery ligation) in rat hearts. It was shown that beta-receptor function is not changed up to 40 min of ischaemia. Myocardial AC function was depressed in the total ischaemic myocardium but not in the low-perfused hearts indicating a non-uniform alteration of AC function. Reduced AC activity was completely reversible by aerobic perfusion as long as the ischaemic period did not exceed 20 min. Depression of AC function during severe ischaemia was avoided by reducing Ca2+ in the extracellular fluid and by pretreatment with Ca2+ channel blockers (verapamil). Depression of AC function during severe ischaemia is caused mainly by increased intracellular Ca2+ which inhibits AC at its catalytic site. Myocardial ischaemia alters the response of myocardial cells to catecholamines and other activators of the AC system. This alteration is time-limited and turns damage to AC function from reversible to irreversible after prolongation of ischaemia to more than 30 min.
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PMID:Adrenergic regulation of the acute ischaemic myocardium: facts, interpretations and consequences. 301 89

The presynaptic and postsynaptic effects of MDL 12,330A, an adenylate cyclase inhibitor in several biological tissues, were studied at motor endplates in frog cutaneous pectoris nerve-muscle preparations. This agent increased both spontaneous quantal acetylcholine (ACh) release and neurally-evoked ACh release approximately twofold during the first 20-40 min of application. The increased ACh release was accompanied by a profound irreversible depression in the amplitudes of the miniature endplate potentials (m.e.p.ps) and endplate potentials (e.p.ps). The response to iontophoretically-applied ACh was reduced in parallel with the amplitude of the spontaneous m.e.p.ps, indicating that the depression of synaptic transmission was postsynaptic in origin. Endplates were voltage-clamped to study the postsynaptic depression in more detail. It was observed that the peak endplate current (e.p.c.) was depressed without concomitant changes in: the kinetics of e.p.c. decay, the relationship between peak e.p.c. and membrane potential, the ACh equilibrium potential or the voltage sensitivity of the e.p.c. decay. This suggests that MDL 12,330A reduces the postsynaptic sensitivity to ACh by a voltage-dependent block of the cholinoceptor. The presynaptic enhancement and the postsynaptic depression of junctional transmission produced by MDL 12,330A are discussed in conjunction with current theories of the role of adenylate cyclase and cyclic nucleotides at nicotinic cholinergic synapses.
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PMID:The effects of an adenylate cyclase inhibitor on the electrophysiological correlates of neuromuscular transmission in the frog. 301 93

Previous studies have indicated that membrane structure and function may be abnormal in cluster headache. This has been further investigated by analysis of membrane phosphatidylcholine, total phospholipids, and cholesterol in erythrocytes and by assay of receptor-mediated transduction. The stimulation of lymphocyte adenylate cyclase with isoprenaline and prostacyclin was used as the test system. A significant increase in the ratio of membrane phosphatidylcholine to cholesterol without change in cholesterol was found in cluster headache patients as compared with control subjects. This indicated a reduced turnover of phosphatidylcholine, since erythrocyte choline is significantly reduced in this condition. Abnormal membrane function was also indicated from the significant depression of high-affinity prostaglandin receptor stimulation of lymphocyte adenylate cyclase and the similar trend in the beta-adrenoceptor response. Since no change in agonist affinity and beta-adrenoceptor density occurred, this depression indicates a generalized defect in coupling of receptors to adenylate cyclase. It is hypothesized that the impaired function that would result might contribute to the aetiology of cluster headache.
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PMID:Abnormal membrane composition and membrane-dependent transduction mechanisms in cluster headache. 302 32

Because both long-term adrenoceptor agonist administration and antidepressant treatment in animals down-regulate CNS beta-adrenoceptors and attenuate brain adenylate cyclase activity, beta-adrenoceptor agonists may also possess antidepressant properties. We compared the effects of the centrally acting beta-adrenoceptor agonist clenbuterol (5, 10 and 35 mg/kg per day), and the combination of propranolol (5 mg/kg per day) and clenbuterol (10 mg/kg per day), with desipramine (15 mg/kg per day) on forced swim test performance and on cortical beta-adrenoceptors in rats following 7 days of drug administration. Desipramine (15 mg/kg per day), and clenbuterol (10 and 35 mg/kg per day, but not 5 mg/kg per day) both significantly reduced immobility in the forced swim test. Frontal cortex beta-adrenoceptors were significantly down-regulated after desipramine and all 3 doses of clenbuterol. The co-administration of propranolol (5 mg/kg per day) blocked both the reduction in immobility and down-regulation of cortical beta-receptors induced by clenbuterol (10 mg/kg per day). Propranolol (5 mg/kg per day) alone up-regulated frontal cortex beta-adrenoceptors, but had no significant effect on swimming performance. These data suggest that the physiological consequences of beta-adrenoceptor down-regulation are important in the mechanism of action of antidepressants. The results also suggest that clenbuterol may be useful in the treatment of depression.
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PMID:A comparison of the neurochemical and behavioral effects of clenbuterol and desipramine. 303 50

Guanine nucleotide-binding stimulatory regulatory protein of adenylate cyclase system, Ns, in rat erythrocytes was activated by the treatment with guanylyl 5'-imidodiphosphate or NaF-AlCl3 in the presence of Mg2+. The activation was counterbalanced to the basal state either by the removal of Mg2+ or by the addition of beta(gamma)-subunit of N protein of this system. The depression from the activated state was markedly protected by the coexistence of forskolin at the time of the deactivation depending on the dose of forskolin. EC50 of forskolin for the stabilizing effect was much lower than that for the stimulation of adenylate cyclase activity. These data indicate that forskolin has an effect on the interaction between Ns and catalytic unit of adenylate cyclase system in addition to the direct effect on the catalytic unit.
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PMID:Forskolin stabilizes a functionally coupled state between activated guanine nucleotide-binding stimulatory regulatory protein, Ns, and catalytic protein of adenylate cyclase system in rat erythrocytes. 308 54

Halothane stimulated basal adenylate cyclase activity in rat cardiac membranes. Maximal stimulation (54%) was obtained after equilibrating the membranes with 2% halothane. Halothane did not affect the fractional stimulation of adenylate cyclase activity produced by either forskolin or isoproterenol. However, halothane decreased carbamylcholine inhibition of adenylate cyclase activity stimulated by both forskolin and isoproterenol. Maximal depression of carbamylcholine inhibition of stimulated cyclase activity was obtained after equilibration with 1% halothane. These results are consistent with evidence from ligand binding studies and indicate that halothane disrupts muscarinic receptor-G-protein interactions.
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PMID:Halothane attenuation of muscarinic inhibition of adenylate cyclase in rat heart. 312 98

Because histamine and adenosine are coreleased from the ischemic heart, we investigated the effects of their interaction on human myocardium. Surgical specimens of human right atrium (i.e., pectinate muscles) responded to histamine with increases in spontaneous rate and contractile force. Adenosine, and the A1-selective adenosine agonist N6-cyclopentyladenosine (CPA), reduced the spontaneous rate and suppressed the positive chronotropic and inotropic effects of histamine. CPA was more potent than adenosine in slowing the spontaneous rate and in suppressing histamine's positive chronotropic effect, suggesting that the responses to CPA and adenosine are A1-mediated. CPA was also more potent than adenosine in attenuating histamine's positive inotropic effect on human ventricular papillary muscle. The adenosine-induced suppression of histamine's effects on pectinate muscles was mimicked by carbachol, which like adenosine is known to attenuate H2-mediated histamine-induced adenylate cyclase activation. The H1-selective histamine antagonist pyrilamine potentiated histamine's chronotropic and inotropic responses, and inhibited the attenuation of these responses by adenosine or carbachol. In contrast, pyrilamine failed to modify the adenosine-induced attenuation of the cardiac stimulatory effects of dimaprit, an H2-selective histamine agonist. Our data suggest that adenosine-induced suppression of histamine's positive chronotropic and inotropic effects on human myocardium results both from an A1-mediated attenuation of H2-stimulatory effects and from the uncovering of H1 negative chronotropic and inotropic effects. Thus, the results of the histamine-adenosine interaction may exceed the "retaliatory" purpose of adenosine release and uncover H1-mediated myocardial depression.
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PMID:Adenosine promotes histamine H1-mediated negative chronotropic and inotropic effects on human atrial myocardium. 320 18

The onset of therapeutic effectiveness of carbamazepine is generally very rapid in the treatment of seizure and paroxysmal pain disorders, shows some lag in the treatment of mania, and exhibits the longest lag in depression. These time course variations may indicate that different mechanisms underlie the efficacy of carbamazepine in the differential neuropsychiatric syndromes. Biochemical and pharmacological data suggest that the anticonvulsant effects of carbamazepine are related to "peripheral-type" benzodiazepine and alpha 2-noradrenergic receptor systems and to its ability to stabilize sodium channels. GABAB (baclofen-like) actions appear to be involved in antinociceptive, but not anticonvulsant, effects. The relatively acute time course of antimanic efficacy may be related to the above-mentioned mechanisms or to other effects related to systems postulated to be altered in the manic syndrome. These effects might include carbamazepine's ability to increase acetylcholine in the striatum, decrease probenecid-induced levels of CSF homovanillic acid (HVA) in man and dopamine turnover in animals, decrease CSF norepinephrine in manic patients, inhibit adenylate cyclase activity (in response to norepinephrine, dopamine, adenosine, or ouabain), decrease GABA turnover, or act as a vasopressin agonist. Efficacy in depression may be related to actions in man that take time or chronic drug administration to develop, such as increases in plasma tryptophan, decreases in CSF somatostatin, decreases in thyroid indices, and increases in urinary free cortisol excretion and, in animals, increases in substance P sensitivity and increases in brain adenosine receptors. The ability of carbamazepine to block the development of lidocaine- and cocaine-induced seizures also requires chronic administration, suggesting that these seizure models may provide a unique perspective for understanding mechanisms of time-dependent effects.
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PMID:Time course of clinical effects of carbamazepine: implications for mechanisms of action. 328 May 60

Organotypic cultures of fetal mouse spinal cord-ganglion explants (2-4 weeks in vitro) contain forskolin-stimulated adenylate cyclase (AC) activity that is inhibited by levorphanol and other opioid agonists in a dose-dependent manner. Inhibition by levorphanol no longer occurs if sodium is omitted from the incubation and the levorphanol inhibition is blocked by the opioid antagonist, naloxone. These findings together with the ineffectiveness of dextrorphan indicate that the opioid inhibition of forskolin-stimulated AC is receptor mediated. Both the delta- and kappa-receptor subtypes appear to be involved since the selective delta-opioid agonist, [D-Pen2, D-Pen5]enkephalin, and the selective kappa-opioid agonist, t-3,4-dichloro-N-methyl-N[2-(1-pyrrolidinyl)cyclohexyl]-benzene acetamide (U-50,488H) are both effective at nanomolar concentrations. In contrast, the selective mu-opioid agonist, Tyr-D-Ala-Gly-N-MePhe-Gly-ol, has no significant effect even at micromolar concentrations. Both cord and ganglion components of the explants contain opioid-sensitive AC. Forskolin-stimulated AC of the explants is also inhibited by serotonin and carbachol. The serotonin effect appears to be mediated by 5-HT1A receptors, based on relative agonist and antagonist selectivity. Chronic exposure of cultures to morphine results in enhanced basal and forskolin-stimulated AC as well as attenuation of opioid-inhibition of AC assayed in the presence of forskolin; treatment of explants with pertussis toxin causes similar changes in the AC system. The inhibitory effect of serotonin is also attenuated by the pertussis toxin treatment. Basal AC activity of the explants (assayed without forskolin present) is stimulated to a small but significant extent by opioids and by serotonin. The opioid stimulatory effect is markedly enhanced following either morphine or pertussis toxin treatment of the explants. The attenuation of opioid- and serotonin-inhibition of AC produced by chronic exposure to pertussis toxin and the attenuation of opioid inhibition produced by exposure to morphine are consonant with the attenuation of opioid and monoaminergic depression of sensory evoked dorsal horn network responses after similar chronic treatments. It is proposed that the inhibitory effects of opioids and serotonin on these neurons are mediated by receptors that are negatively coupled via a pertussis toxin sensitive Gi protein to AC. Furthermore, alterations of AC with chronic morphine treatment may be involved in the development of physiologic tolerance to opioids.
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PMID:Modulation of adenylate cyclase activity of mouse spinal cord-ganglion explants by opioids, serotonin and pertussis toxin. 337 Apr 65


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