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 present experiments examined the effects of progesterone on adrenergic receptor coupling to adenylate cyclase in hypothalamic and preoptic area slices by monitoring norepinephrine (NE)-stimulated increases in cAMP accumulation. Progesterone treatment of estrogen-primed rats decreased NE-induced slice cAMP accumulation. The reduced cAMP response was estrogen-dependent since it was not demonstrable in slices from rats exposed to progesterone without prior estrogen priming. Neither generalized increases in phosphodiesterase activity nor decreases in the catalytic activity of adenylate cyclase could account for the reduced ability of NE to stimulate cAMP accumulation in hypothalamic slices. Moreover, the cAMP response to two other activators of adenylate cyclase, adenosine and vasoactive intestinal peptide, was not decreased in slices from rats treated with estrogen plus progesterone. Selective adrenergic agonists and antagonists were employed to determine which adrenergic receptors mediate cAMP accumulation in progesterone-exposed slices. Slice cAMP levels were elevated by the beta receptor agonist isoproterenol but not by alpha 1 (phenylephrine) or alpha 2 (clonidine) agonists. However, clonidine potentiated the effect of isoproterenol on slice cAMP formation whereas phenylephrine did not. Likewise, NE-stimulated cAMP accumulation was completely antagonized only by a combination of both beta (propranolol) and alpha 2 (yohimbine) antagonists. The data suggest that in slices from estrogen plus progesterone-treated rats, alpha 2 receptors contribute significantly to NE stimulation of cAMP accumulation. The overall depression of the cAMP response to NE in progesterone-exposed slices may involve a decrease of alpha 1 receptor facilitation of cAMP synthesis.
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PMID:Progesterone depression of norepinephrine-stimulated cAMP accumulation in hypothalamic slices. 254 2

A yin-yang hypothesis is presented linking noradrenergic activity, thromboxane, melatonin, left hemisphere functioning, and cyclic AMP on the one hand, and dopamine, beta-endorphin, calcium, right hemisphere functioning, and cyclic GMP on the other. It is further suggested that there is a yoking of NA, TXA2, serotonin and melatonin in the left hemisphere, and a similar yoking of DA, BE, calcium and cGMP in the right. Evidence is presented to support the hypothesis that each element (NA, TXA2, etc.) on one side can modulate or balance a corresponding element (DA, BE, etc.) on the other. It is suggested that thromboxane is the key element in noradrenergic overactivity and that not taking this into consideration has confounded much prior research. This theory takes into account information processing models as well as pharmacological data and neurochemical theory on coupling of adenylate cyclase to its hormone receptors. Inhibiting noradrenergic overactivity can be obtained by inhibiting thromboxane and concomitantly activating opiate receptors. This protocol may have clinical utility in treating a wide range of disorders such as: anxiety, depression, schizophrenia, sleeplessness, withdrawal states, enuresis, Gilles de la Tourette syndrome, Parkinsonism, Alzheimers, dementia, anorexia, infant ruminations, essential tremor, spasticity of spinal cord injury, diarrhoea, ulcerative colitis, extrapyramidal symptoms, akathisia, neuroleptic malignant syndrome, attention deficit disorder, hyperhidrosis, and possibly AIDS.
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PMID:Inhibiting noradrenergic overactivity by inhibition of thromboxane and concomitant activation of opiate receptors via dietary means. 254 22

Intracellular recordings were made from neurons of rabbit vesical pelvic (parasympathetic) ganglia (VPG). Application of 5-hydroxytryptamine (5-HT, 0.3-30 microM) produced an initial depression followed by a long-lasting facilitation of the fast excitatory postsynaptic potential (e.p.s.p.) evoked by stimulation of the pelvic preganglionic nerve. The facilitation of nicotinic transmission lasted for 30-120 min, even when 5-HT was removed from the superfusing solution. 5-HT (0.3-30 microM) did not change the depolarization induced by a direct application of acetylcholine (ACh) to the VPG neurons pretreated with 1 microM atropine. 5-HT also caused an initial depression followed by an increase in the quantal content of the fast e.p.s.p. It is, therefore, suggested that diphasic effect of 5-HT on the nicotinic transmission is due mainly to a modulation of the ACh-release from presynaptic nerve terminals. Methysergide (5 microM), mianserin (5-30 microM) and ICS 205-930 (100-300 nM) did not antagonize the presynaptic actions of 5-HT on the nicotinic transmission, suggesting that the presynaptic 5-HT receptor may belong to a class of 5-HT1 subtypes. Spiperone (1 microM), a selective 5-HT1A antagonist, blocked the 5-HT-induced inhibition of the fast e.p.s.p. Under the effect of spiperone, the facilitation appeared soon after application of 5-HT. The facilitation of the fast e.p.s.p. may be mediated through a 5-HT1B or 5-HT1C subtype. Lowering temperature of the external solution eliminated the 5-HT-induced facilitation of the nicotinic transmission. Forskolin produced a presynaptic facilitation of the fast e.p.s.p., without producing an initial depression. 3-Isobutyl-1-methylxanthine (10 microM) potentiated the facilitatory action of 5-HT. Bath-application of dibutyryl cyclic adenosine monophosphate (cAMP) (1-6 mM) and 8-bromo-cyclic AMP (2-5 mM) mimicked the effect of 5-HT in producing the facilitation of the fast e.p.s.p.s. All data presented are consistent with the hypothesis that 5-HT, acting on presynaptic 5-HT1 receptors, causes a facilitation in the release of ACh from preganglionic nerve terminals possibly mediated through an activation of adenylate cyclase.
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PMID:5-Hydroxytryptamine produces presynaptic facilitation of cholinergic transmission in rabbit parasympathetic ganglia. 254 88

Angiogenin transiently depresses the cAMP level of rat aortic smooth muscle cells. The dose response is similar to angiogenin activation of the inositol-specific phospholipase C in this cell line [Moore, F. & Riordan, J.F. (1989) Biochemistry. Submitted]. The time course showed a maximal depression (28%) in cAMP at 2 min, followed by a return to that of unstimulated cells by 3.5 min. Angiogenin also inhibited isoproterenol stimulated cAMP formation, but the percentage depression in cAMP (9%) was less than that in cells treated with angiogenin alone (28%). In contrast angiogenin enhanced forskolin stimulation of adenylate cyclase, an effect previously linked with agonist activation of protein kinase C. The effect of angiogenin on cellular cAMP was abolished by pre-incubation with pertussis toxin. Angiogenin had no effect on cellular cGMP. These results are consistent with activation of adenylate cyclase Gi following exposure of the cells to angiogenin and provide further evidence for interaction between cellular signalling pathways.
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PMID:Angiogenin depresses aortic smooth muscle cell cAMP by a pertussis toxin sensitive mechanism. 255 Dec 76

Although many cases of beta-adrenoceptor antagonist (beta-blocker) poisoning are uneventful, a proportion develop serious and sometimes fatal cardiovascular system depression with severe hypotension. As beta-adrenergic tone is not essential for cardiovascular function in health, there is no physiological reason why total beta-adrenoceptor blockade should have serious consequences in the resting individual. The toxic actions of beta-blockers appear to be related to properties such as membrane depressant activity and possibly due to actions on beta-adrenoceptors distinct from those in the cardiovascular system. Most reports of serious adverse effects following overdosage concern beta-blockers with significant membrane depressant activity, and in particular propranolol and oxprenolol, with which progressive heart block and bradycardia are features. Sotalol toxicity, with its unique electrophysiological action, is a special case. Animal experiments confirm that beta-blockers with membrane depressant activity are more toxic than the newer more selective ones, such as atenolol and nadolol. However, experimental models also reveal that artificial ventilation markedly reduces the toxicity of all beta-blockers tested, suggesting a respiratory depressant action with very high doses. Treatment of serious overdosage in man should include maintenance of adequate ventilation. High dose intravenous glucagon is recommended, because its inotropic action depends on direct stimulation of adenylate cyclase. beta-Agonists such as isoprenaline (isoproterenol) or prenalterol may be effective, but the nature of agonist-competitive antagonist interactions may necessitate the use of unrealistically large doses to overcome very high tissue beta-blocker concentrations.
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PMID:The management of acute poisoning due to beta-adrenoceptor antagonists. 256 23

In this short introductory review the current important working hypotheses of depression, the noradrenaline and serotonin hypotheses, are described and critically evaluated. Anticholinergic properties, co-modulation of various transmitters by different neuropeptides, great variations in the influence on the "re-uptake" mechanism for noradrenaline and serotonin with no effect by novel antidepressants like iprindole, mianserin and clenbuterol and variability to either stimulate or block receptor systems (alpha 1-, alpha 2-, beta-, serotonin-, dopamine-, adenylate cyclase dependent-, histaminergic receptors and possibly others) might further indicate a complex pathobiochemical background to depression. More recently, a unified hypothesis has been presented on the basis of subsensitivity of the noradrenaline-sensitive adenylate cyclase and/or down regulation of the number of beta-receptors by antidepressants of otherwise different pharmacological properties. Furthermore, another hypothesis, the "brain area specific imbalance of neurotransmitter systems" tries to combine current knowledge of the biochemistry of depressive disorders, the different pharmacological profiles of antidepressants and the divergence of symptomatology in depressed patients. Since antidepressant activity of drugs is dependent on the functional state of pre- and postsynaptic neurotransmission it seems essential to define the basal activity of such systems in vivo and to study the functional change after therapy. Furthermore, phenomena like adaptation and tolerance must be considered in future research in order to get more detailed information about pathobiochemical processes causing depression.
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PMID:[Current biochemical hypotheses of endogenous depression]. 258 Mar 96

Isolated guinea pig hearts were perfused with Krebs buffer in the absence or presence of 10 microM adenosine for 60 to 120 min followed by a 15 min washout with adenosine-free buffer. The effects of isoproterenol on left ventricular dP/dt and heart rate were then determined. Perfusion with adenosine for a minimum of 90 min followed by washout resulted in a 40% depression of the dose-response curve of left ventricular dP/dt to isoproterenol. This depressed inotropic responsiveness persisted for at least 1 hr after cessation of adenosine perfusion. The heart rate response to isoproterenol was unaffected. Also, adenosine perfusion had no effect on ouabain inotropism. Measurement of adenosine in coronary effluent and in ventricular tissue by radioimmunoassay verified that no residual elevated adenosine remained following perfusion and washout. Moreover, isoproterenol-induced release of adenosine into the coronary effluent did not differ between control and adenosine-treated hearts. Addition of 100 microM theophylline, an adenosine receptor antagonist, to the adenosine containing buffer during perfusion prevented the depressed response to isoproterenol. In membrane fractions prepared from ventricles, beta receptors were assessed by (-) [125] iodocyanopindolol binding and neither the density of these receptors nor their affinity for agonists or antagonists was altered by adenosine perfusion. However, activation of adenylate cyclase by isoproterenol (10 microm) was significantly depressed in membranes from adenosine perfused hearts. These findings are consistent with a receptor mediated action of adenosine to produce persistent depression of catecholamine inotropism. Such an effect may be important in heart failure where myocardial levels of adenosine are elevated and circulating levels of catecholamines are high.
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PMID:Persistent desensitization of the heart to the inotropic action of isoproterenol by adenosine. 260 56

The present study examined changes in the levels of plasma catecholamines and myocardial histamine, guanylate cyclase activity, cyclic nucleotides, calcium, calmodulin, and norepinephrine following chronic administration of doxorubicin (DXR). In addition, changes in myocardial alpha 1-adrenergic receptor density and dissociation constant were measured. Rats received DXR (2 mg/kg) or vehicle weekly by the SC route for 2, 4, 8, and 13 weeks. Rats were sacrificed one week after their last dose. One group of rats treated for 13 weeks was sacrificed at 19 weeks, six weeks after the last dose. Heart histamine was unchanged at 3, 5, 9, and 19 weeks, yet at 14 weeks it was significantly elevated in DXR-treated rats over controls. Cardiac calcium, norepinephrine, and cyclic GMP levels were unchanged throughout the course of the study. Cardiac cAMP and calmodulin levels were unchanged at 3, 5, 9, and 14 weeks. At 19 weeks in DXR-treated rats, cAMP was depressed while calmodulin was elevated. Plasma catecholamines and myocardial guanylate cyclase activity examined at 14 weeks were unchanged. In contrast, alpha 1 receptor density examined at 14 weeks in DXR-treated rats was significantly depressed while the dissociation constant was unchanged. Changes in cAMP and calmodulin are suggestive of a redistribution of calcium, although total levels of calcium were unchanged. The depression of cAMP indicates damage to the membrane bound enzyme, adenylate cyclase, and that the membrane interaction of doxorubicin appears to be an integral part of the biochemical mechanism of its toxicity.
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PMID:Effects of chronic administration of doxorubicin on myocardial alpha-adrenergic receptors, histamine, cyclic nucleotides, calcium, norepinephrine, calmodulin, and guanylate cyclase activity, and plasma catecholamines in rats. 289 92

The triazolobenzodiazepine, alprazolam, was administered to 11 depressed patients over a period of six weeks, and six patients showed a favorable antidepressant response. There were no significant differences between responders and nonresponders in age, pretreatment Hamilton Depression Rating Scores, 4 p.m. postdexamethasone plasma cortisol levels, or platelet monoamine oxidase activities. Blood levels of alprazolam were not meaningfully different in responders and nonresponders when measured on treatment day 8. However, on treatment day 8, significantly enhanced prostaglandin D2-stimulated platelet adenylate cyclase activity, greater suppression of prostaglandin D2-stimulated platelet adenylate cyclase activity by epinephrine, and enhanced sodium fluoride-stimulated platelet adenylate cyclase activity were seen in the six patients who went on to respond to alprazolam, but not in the five nonresponders. In contrast, there were no significant changes in prostaglandin D2, (-)-isoproterenol, or fluoride ion-stimulated leukocyte adenylate cyclase activity in responders or nonresponders. No meaningful changes were observed in the mean densities of either the high-affinity platelet alpha 2-adrenergic receptor (for 3H-p-aminoclonidine) or the leukocyte beta-adrenergic receptor (for 3H-dihydroalprenolol) in responders or nonresponders. The present findings, taken in conjunction with findings from other recent studies, suggest that enhanced coupling between certain neurotransmitter or hormone receptors and adenylate cyclase through the guanine nucleotide regulatory proteins may help explain the antidepressant effects of alprazolam and possibly other forms of antidepressant treatment.
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PMID:Enhanced signal transduction by adenylate cyclase in platelet membranes of patients showing antidepressant responses to alprazolam: preliminary data. 298 77

The mechanism by which prostaglandin E2 (PGE2) inhibits human T lymphocyte activation and proliferation was studied. We analyzed the effect of physiologic concentrations of PGE2 on interleukin 2 (IL 2) production, expression of IL 2 receptor (Tac antigen), and expression of the transferrin receptor after in vitro activation with phytohemagglutinin. PGE2 inhibited T lymphocyte proliferation by 80 to 90% of control values. This was associated with a similar degree of inhibition of IL 2 production while the expression of IL 2 receptor was not affected. This was in marked contrast to the expression of the transferrin receptor, which was inhibited 65% after 72 hr of in vitro activation. The addition of exogenous, purified IL 2 reconstituted lymphocyte proliferation to 50% of control values, but had no effect on transferrin receptor expression. Because PGE2 is known to increase the intracellular concentration of 3',5' cyclic adenosine monophosphate (cAMP), we investigated the effect of another adenylate cyclase activator, i.e., isoproterenol, as well as the effect of extracellular administration of the cAMP derivative dibutyryl cAMP (dBcAMP) on IL 2 production, Tac antigen expression, and transferrin receptor expression. It was demonstrated that isoproterenol, as well as dBcAMP, inhibited transferrin receptor expression on PHA-activated T lymphocytes to the same extent as PGE2, and exogenous IL 2 could not counteract the down-regulation of the receptor expression. In contrast, neither isoproterenol nor dBcAMP had any significant effect on IL 2 receptor expression. Prostaglandin F2 alpha (PGF2 alpha), which has been reported to elevate intracellular cyclic GMP levels, had no effect on lymphocyte activation and proliferation, and did not counteract the PGE2-induced depression in IL 2 production. In contrast to its effect on peripheral blood lymphocytes, PGE2 had no effect on transferrin receptor expression or cell proliferation by IL 2-dependent T cell clones and IL 2-independent T cell lines. These studies demonstrate that PGE2 exerts its inhibitory effects on T cell activation and proliferation via two distinct pathways: inhibition of IL 2 production and inhibition of transferrin receptor expression. The transferrin receptor inhibition is mediated via the cAMP pathway and is IL 2-independent.
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PMID:Prostaglandin E2 acts at two distinct pathways of T lymphocyte activation: inhibition of interleukin 2 production and down-regulation of transferrin receptor expression. 298 62


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