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)

In an attempt to determine the mechanism by which the tripeptide l-prolyl-l-leucyl-glycine amide (PLG, MIF-I) exerts its antiparkinsonian effect, the action of this substance on various postsynaptic components of striatal dopaminergic nerves was studied. It was shown that injection of rats with MIF-I (1 mg/kg, IPX5, 24 hr intervals) did not alter tyrosine hydroxylase, dopa decarboxylase, choline acetyltransferase and glutamic acid decarboxylase activities in the striatum under the conditions tested. The activities of adenylate cyclase, dopamine-stimulated adenylate cyclase, and guanylate cyclase were not altered in vitro by various concentrations of MIF-I (0.1 to 1000 micrometer), although VIP and neurotensin had some effect. Also the rate of uptake of 3H-dopamine by rat striatal synaptosomes was unchanged, as was the binding of 3H-dopamine and 3H-spiperone to beef caudate membranes. This series of studies indicates that MIF-I does not act directly on the striatal dopamine postsynaptic receptor under the conditions tested, although it is possible that MIF-I could act indirectly at this or another site in vivo by releasing or activating some other factor.
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PMID:MIF-I and postsynaptic receptor sites for dopamine. 3 65

The role of intracellular cAMP and protein kinase A in dopamine-induced inhibition of dopamine neurons and the attenuation of this inhibition by neurotensin were studied in rat midbrain slices. Spontaneous activity of dopamine cells was recorded extracellularly from both the ventral tegmental area and the substantia nigra. Perfusion of the slices with 8-bromo-cAMP and forskolin significantly attenuated dopamine-induced inhibition, but neither blocked the inhibition completely. Neither SQ22536, an inhibitor of adenylate cyclase, nor H8, an inhibitor of protein kinase A, mimicked the inhibitory effect of dopamine on dopamine neurons, although they potentiated dopamine's effect. These results indicate that dopamine-induced inhibition of dopamine neurons can be affected by intracellular cAMP levels, but is unlikely to be mediated solely by inhibition of adenylate cyclase. The similarities between the effects of neurotensin and those of 8-bromo-cAMP and forskolin suggest that intracellular cAMP may be involved in the actions of neurotensin. This suggestion is supported by our findings that isobutyl-methylxanthine (an inhibitor of phosphodiesterases) potentiated the effect of neurotensin and SQ22536 and H8 antagonized it. Phorbol-12,13-dibutyrate (an activator of protein kinase C) did not mimic the effect of neurotensin, and H7 (an inhibitor of protein kinase C) did not reduce the effect, suggesting that protein kinase C is unlikely to be involved in the modulatory effect of neurotensin.
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PMID:Roles of intracellular cAMP and protein kinase A in the actions of dopamine and neurotensin on midbrain dopamine neurons. 131 60

Three effects of NT were observed on midbrain DA cells. The modulatory effect of NT, that is, the attenuation of DA-induced inhibition, has been most extensively examined. Studies indicate that this effect of NT was not simply due to a nonspecific excitation. NT selectively attenuated DA-induced inhibition without affecting either GABA-induced inhibition or glutamate-induced excitation of the same cells, and the attenuation of DA-induced inhibition could be observed at the doses at which the basal activity of DA cells was not changed by NT. The attenuation of DA-induced inhibition by NT is also unlikely to result from the formation of a DA-NT complex, since neuromedin N, which competes with NT for the same receptor but does not bind to DA, mimicked the effects, and neurotensin(1-11), which forms a complex with DA but is inactive in competing for NT receptors, did not. The similarities between the effects of NT and those of 8-bromo-cAMP and forskolin suggest that intracellular cAMP and protein kinase A may be involved. This suggestion was supported by the findings that IBMX (an inhibitor of phosphodiesterases) potentiated the effect of NT; and SQ22536 (an inhibitor of adenylate cyclase) and H8 (an inhibitor of protein kinase A) antagonized it. Phorbal-12,13-dibutyrate (an activator of protein kinase C) did not mimic the effect of neurotensin, and H7 (an inhibitor of protein kinase C) did not reduce the effect, suggesting that protein kinase C is unlikely to be involved in the modulatory effect of neurotensin. Experiments in vitro indicated that the excitatory effect of NT on DA cells occurred at higher concentrations (> 10 nM) than those needed for producing the modulatory effect. Its persistence during DA receptor blockade by sulpiride suggests that this effect was not entirely mediated by an attenuation of the inhibition induced by endogenously released DA. At even higher concentrations (> 100 nM), a sudden cessation of cell activity preceded by an increase in firing rate was observed. Whether this effect of NT was due to depolarization inactivation or a toxic effect of the peptide at high concentrations remains to be determined. In most other areas studied, the excitatory effect of NT was most commonly observed. In many areas, this excitatory effect was apparently a direct postsynaptic effect of NT. However, different mechanisms may be involved (see Table 1). For example, in some areas NT acted through a decrease in membrane conductance, while in others no change or an increase in the membrane conductance was observed.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Actions of neurotensin: a review of the electrophysiological studies. 146 69

CCK-secreting WE rat medullary thyroid carcinoma cell line resembles other calcitonin-producing (C-cell) lines in that calcium, cAMP, or agents which raise cAMP, dexamethasone, and beta-adrenergic agents all stimulate peptide secretion. Unlike other C-cell lines, the WE cells respond similarly to IBMX (3-isobutyl-1-methyl-xanthine, a phosphodiesterase inhibitor) in the presence and absence of forskolin, implying that these cells secrete substances that raise cAMP levels, whose effect is accentuated by IBMX. Both CGRP and neurotensin, peptides that may be secreted by these cells, caused a small, but significant, increase in CCK secretion. It is possible that these or other secreted substances that activate adenylate cyclase are responsible for the cell's high rate of CCK secretion. Their high rate of CCK synthesis and their regulated secretion suggest that these cells will be a good model for studies of CCK expression, biosynthesis, and processing.
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PMID:Regulation of cholecystokinin secretion from a rat medullary thyroid carcinoma cell line: role of calcium, cyclic nucleotides, glucocorticoids, neurotensin, and calcitonin gene-related peptide. 152 66

Receptors for the main neural (acetylcholine), hormonal (gastrin) and paracrine (histamine) secretory stimulants and the signal transduction pathways to which these receptors are coupled have been identified on the parietal cell. The stimulatory effect of histamine is mediated via an increase in adenylate cyclase activity, whereas the effect of acetylcholine and gastrin are mediated via an increase in cytosolic levels of calcium. Strong synergism between histamine and either gastrin or acetylcholine may reflect postreceptor interaction between the distinct pathways. Acetylcholine and gastrin are also capable of releasing histamine from the gastric mucosa, probably from ECL cells. The inhibitory effects of somatostatin and prostaglandin E on acid secretion are mediated by receptors coupled via guanine nucleotide binding proteins to inhibition of adenylate cyclase activity. All the pathways converge on and modulate the activity of the luminal enzyme, H+K(+)-ATPase, ultimately responsible for acid secretion. The intramural neural and paracrine pathways involved in the regulation of gastrin secretion in the antrum and acid secretion in the fundus have also been identified. Of prime importance is the somatostatin cell, which exerts a paracrine restraint on gastrin secretion and acid secretion. Elimination of this restraint or disinhibition is one of the mechanisms by which the stimulatory influence of cholinergic neurons is exerted on gastrin and parietal cells. Gastrin secretion is regulated by a cholinergic neuron that causes inhibition of somatostatin secretion and thus stimulation of gastrin secretion (disinhibition) and a noncholinergic neuron that causes direct stimulation of gastrin secretion by releasing the neurotransmitter, bombesin (or gastrin-releasing peptide). Acid secretion is regulated by a cholinergic neuron that causes direct stimulation of the parietal cell and indirect stimulation by decreasing somatostatin secretion, thus eliminating its inhibitory effect on the parietal cell (disinhibition). In addition, a regulatory feedback mechanism exists whereby intraluminal acidification stimulates somatostatin secretion, which in turn attenuates acid secretion. Gastric acid secretion may also be regulated by one or more intestinal inhibitory hormones, the most likely candidates being secretin, intestinal somatostatin, and neurotensin. Enterogastrone activity probably reflects the combined effect of all these hormones. Precise information on receptors and signal transduction mechanisms as well as on intramural neural and paracrine regulatory pathways has led to the development of new drugs capable of inhibiting acid secretion. These include antagonists that interact with stimulatory receptors (histamine H2-receptor antagonists, muscarinic receptor antagonists, and gastrin receptor antagonists), agonists that interact with inhibitory receptors (somatostatin and prostaglandin E analogues), and irreversible inhibitors of the luminal enzyme, H+K(+)-ATPase.
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PMID:Control of acid secretion. 169 38

Nerve growth factor (NGF) cooperates with glucocorticoids, activators of adenylate cyclase, and lithium to induce the expression of teh gene encoding the neuropeptides neurotensin and neuromedin N (NT/N gene) in PC 12 pheochromocytoma cells. High level expression requires simultaneous treatment with three or all four inducers. To examine the mechanism underlying this complex synergism, we have examined the effects of protein kinase inhibitors and other agents which influence intracellular signal transduction on NT/N gene expression. Two structurally similar bacterial alkaloids, staurosporine and K-252a, inhibit several protein kinases in vitro, including protein kinase C and cyclic nucleotide-dependent kinases. K-252a has been reported to specifically inhibit the effects of NGF on PC12 pheochromocytoma cells. Surprisingly, staurosporine in combination with other inducers markedly potentiated NT/N gene expression. In contrast, K-252a had no effect on NT/N gene expression when added simultaneously with other inducers. Expression of the NT/N gene was also potentiated by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate, which directly activates protein kinase C, and by bradykinin, which stimulates phosphatidylinositol turnover in PC12 cells, and these effects were not blocked by staurosporine. Staurosporine was generally more effective in stimulating NT/N gene expression when used in inducer combinations that did not include NGF. These results, taken together with recent evidence that staurosporine is also able to induce neurite outgrowth from PC12 cells, suggest that the effects of staurosporine and NGF may converge, in part, on a common intracellular target.
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PMID:A protein kinase inhibitor, staurosporine, mimics nerve growth factor induction of neurotensin/neuromedin N gene expression. 170 31

Radioimmunoassay studies of cultures of PC12 pheochromocytoma cells have shown progressive increments in content and release of neurotensin in response to combinations of dexamethasone, nerve growth factor, activators of adenylate cyclase and lithium. We have studied the distribution of immunoreactive neurotensin by immunocytochemistry in cultures of PC12 cells and normal rat chromaffin cells, with two objectives: (i) to determine how changes measured by radioimmunoassay in extracts of PC12 cell populations are manifested at the level of individual cells and (ii) to determine whether normal chromaffin cells respond to combinations of agents similarly to PC12 cells. Staining for immunoreactive neurotensin is not identifiable in PC12 cells maintained in control medium or with any of the medium supplements alone. Approximately 3% of cells are stained after maintenance with dexamethasone plus nerve growth factor, verus 17% with dexamethasone plus nerve growth factor plus forskolin, and 33% with all four agents. This heterogeneity does not appear to result from clonal diversity, or to be cell cycle-dependent. Individual PC12 cells recruited to produce neurotensin in response to particular signals may, however, have passed a critical stage of differentiation toward a chromaffin cell, rather than neuronal phenotype before exposure to those signals. Staining for immunoreactive neurotensin is observed in up to 18% of normal chromaffin cells maintained with dexamethasone plus nerve growth factor, up to 45% with dexamethasone plus nerve growth factor plus forskolin, and up to 54% with all four agents. Proportions of cells stained under the various culture conditions are established before birth and in fetal cultures staining is confined for the most part to cells which do not undergo neuronal differentiation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of neurotensin content in adrenal medullary cells: comparison of PC12 cells to normal rat chromaffin cells in vitro. 192 87

The expression of the gene encoding the neuroendocrine peptides neurotensin (NT) and neuromedin N is strictly dependent on simultaneous exposure to multiple inducers in PC12 pheochromocytoma cells. NT peptide and NT/N mRNA levels are synergistically induced by combinations of NGF, dexamethasone, activators of adenylate cyclase, and lithium ion. We have used transient transfection assays to delineate the rat NT/N gene sequences necessary for this complex regulation. Progressive deletions of the 5' flanking region revealed that sequences between -216 and +56 are sufficient to confer the full spectrum of responses exhibited by the endogenous gene to a reporter gene. Detailed mutational analysis of this region indicates that it is composed of an array of inducible cis-regulatory sequences, including AP-1, cAMP response, and glucocorticoid response elements. Specific mutation of either the AP-1 site or each of two cAMP response elements indicates that they are functionally interdependent. This array of response elements serves to integrate multiple environmental stimuli into a unified transcriptional response.
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PMID:Mutually dependent response elements in the cis-regulatory region of the neurotensin/neuromedin N gene integrate environmental stimuli in PC12 cells. 234 11

In this paper, we report that the intracellular mechanism by which neurotensin stimulates prolactin release involves an increase in Ca2+ uptake by pituitary cells rather than an effect on adenylate cyclase system. In addition, dopamine can prevent neurotensin-induced calcium influx by interacting with dopamine D2-receptors which appear to be completely independent of the adenylate cyclase moiety but are coupled to calcium channels.
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PMID:Dopamine inhibition of neurotensin-induced increase in Ca2+ influx into rat pituitary cells. 241 14

The present study demonstrates that 3,4-dihydroxyphenylethylamine (DA, dopamine) prevents neurotensin (NT) stimulation of both prolactin (PRL) release and calcium influx by interacting with specific receptors that are functionally linked to calcium channels. As shown by the studies with dispersed cells from rat anterior pituitary, the pharmacology of the control of PRL release and calcium influx, both induced by NT, was found to be typical of a DAergic process. This was demonstrated by the order of potency of agonists in inhibiting PRL release and calcium influx (DA greater than epinephrine greater than norepinephrine much greater than isoproterenol); by the high affinity of antagonists such as haloperidol and fluphenazine for this process; and by the high degree of stereoselectivity of sulpiride. Specific D2 receptor agonists, such as bromocriptine and lisuride, and the specific D2 receptor antagonist (-)-sulpiride were found to be highly potent on the DA receptors negatively coupled with calcium channels and PRL release. DA was found to lack the capacity to change the influx of calcium induced by either the sodium channel activator veratridine or high extracellular potassium levels, thus indicating a specific action of this amine on calcium channels sensitive to NT. In a range of concentrations that are effective in inhibiting either the calcium influx or the PRL release, both induced by NT, DA did not alter the cyclic AMP generating system. DA (from 1.0 nM to 50 nM) did not affect adenylate cyclase activity in rat pituitary gland homogenates and did not modify intracellular cyclic AMP levels in pituitary cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Dopaminergic inhibition of prolactin release and calcium influx induced by neurotensin in anterior pituitary is independent of cyclic AMP system. 243 58


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