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)

The effects of somatostatin analogues RC-160 and SMS-201-995 on tyrosine phosphatase and cell proliferation were investigated in COS-7 and NIH 3T3 cells expressing human somatostatin receptor subtype 1 or 2 (SSTR1 or SSTR2). Binding experiments were performed on membranes from COS-7 cells expressing human SSTR1 or SSTR2 using 125I-labeled [Tyr11]S-14 or [Tyr3]SMS-201-995, respectively. The somatostatin analogues RC-160 and SMS-201-995 exhibited low affinity for SSTR1 (IC50 of 0.43 and 1.5 microM, respectively) and high affinity for SSTR2 (IC50 of 0.27 and 0.19 nM). Addition of these analogues to cells expressing either SSTR1 or SSTR2 did not result in an inhibition of adenylate cyclase activity. In SSTR2-expressing cells, both analogues induced a rapid stimulation of a tyrosine phosphatase activity (EC50: RC-160, 2 pM; SMS-201-995, 6 pM) and an inhibition of serum-stimulated proliferation (EC50: RC-160, 6.3 pM; SMS-201-995, 12 pM). In SSTR1-expressing cells, only RC-160 induced stimulation of a tyrosine phosphatase activity. Both analogues caused an inhibition of cell proliferation at a concentration higher than 10 nM in accordance with their affinities for the SSTR1 receptor subtype. A good correlation between the affinities of RC-160 and SMS-201-995 for each receptor subtype and their potencies to inhibit cell proliferation suggests the involvement of these receptors in cell growth regulation. Tyrosine phosphatase was stimulated by both these analogues in SSTR2 and by RC-160 in SSTR1 at affinities similar to their ability to inhibit growth and bind to receptors, implicating tyrosine phosphatase as a transducer of the growth inhibition signal. We also found that mRNAs of receptor subtypes were variably expressed in different pancreatic and colon cancer cell lines, indicating the necessity of a precise analysis of receptor subtypes in target tissues before therapy with analogues.
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PMID:Stimulation of tyrosine phosphatase and inhibition of cell proliferation by somatostatin analogues: mediation by human somatostatin receptor subtypes SSTR1 and SSTR2. 790 95

In the cells of higher eukaryotic organisms, there are several messenger pathways of intracellular signal transduction, such as the inositol 1,4,5-trisphosphate/Ca2+ signal, voltage-dependent and -independent Ca2+ channels, adenylate cyclase/cyclic adenosine 3',5'-monophosphate, guanylate cyclase/cyclic guanosine 3',5'-monophosphate, diacylglycerol/protein kinase C, and growth factors/tyrosine kinase/tyrosine phosphatase. These pathways are present in different cell types and impinge on each other for the modulation of the cell function. Ca2+ is one of the most ubiquitous intracellular messengers mediating transcellular communication in a wide variety of cell types. Over the last decades it has become clear that the activation of many types of cells is accompanied by an increase in cytosolic free Ca2+ concentration ([Ca2+]i) that is thought to play an important part in the sequence of events occurring during cell activation. The Ca2+ signal can be divided into two categories: receptor- and voltage-operated Ca2+ signal. This review describes and integrates some recent views of receptor-operated Ca2+ signaling and crosstalk in the context of stimulus-secretion coupling.
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PMID:Receptor-operated Ca2+ signaling and crosstalk in stimulus secretion coupling. 821 35

Pathogenic yersiniae secrete a set of antihost proteins, called Yops, by a type III secretion mechanism. Upon infection of cultured epithelial cells, extracellular Yersinia pseudotuberculosis and Yersinia enterocolitica translocate cytotoxin YopE across the host cell plasma membrane. Several lines of evidence suggest that tyrosine phosphatase YopH follows the same pathway. We analyzed internalization of YopE and YopH into murine PU5-1.8 macrophages by using recombinant Y. enterocolitica producing truncated YopE and YopH proteins fused to a calmodulin-dependent adenylate cyclase. The YopE-cyclase and YopH-cyclase hybrids were readily secreted by Y. enterocolitica. The N-terminal domain required for secretion was not longer than 15 residues of YopE and 17 residues of YopH. Internalization into eukaryotic cells, revealed by cAMP production, only required the N-terminal 50 amino acid residues of YopE and the N-terminal 71 amino acid residues of YopH. YopE and YopH are thus modular proteins composed of a secretion domain, a translocation domain, and an effector domain. Translocation of YopE and YopH across host cell's membranes was also dependent on the secretion of YopB and YopD by the same bacterium. The cyclase fusion approach could be readily extended to study the fate of other proteins secreted by invasive bacterial pathogens.
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PMID:Identification of the YopE and YopH domains required for secretion and internalization into the cytosol of macrophages, using the cyaA gene fusion approach. 861 31

Exocytosis of the secondary (2 degree) lysosomal granule is an important process in the activation of human neutrophils. Stored enzymes such as collagenase and gelatinase are released, and adhesion molecules from the granule membrane are inserted in the plasma membrane. This exocytosis is independent of azurophil granule release and respiratory burst activation. We investigated, using kinase and phosphatase inhibitors and activators of adenylate cyclase, common intracellular signalling mechanisms involved in exocytosis (vitamin B12 binding protein release) stimulated by different agonists. Exocytosis in response to tumour necrosis factor alpha (TNF alpha), phorbol myristate acetate (PMA) and the chemotactic tripeptide N-formyl-methionyl-leucyl-phenylalanine (FMLP) was inhibited by the calmodulin antagonist N-(6-amino hexyl)-5-chloro-1-naphthalene sulphonamide (W7). Neither staurosporine, H7 nor genistein was inhibitory. In contrast, the same doses of W7 synergistically enhanced the exocytosis stimulated by the tyrosine phosphatase inhibitor sodium orthovanadate, while kinase inhibition by staurosporine or genistein dose-dependently inhibited the vanadate response. Furthermore, adenylate cyclase activation with prostaglandin E2 or dibutyryl cyclic AMP, inhibited exocytosis in response to TNF alpha and FMLP, while having no effect on the release induced by vanadate or PMA. Thus, 2 degree granule exocytosis stimulated by receptor-bound ligands is calmodulin-dependent, and is independent of protein kinase activity. In contrast, exocytosis in response to tyrosine phosphatase inhibition is antagonised by calmodulin, since the response to vanadate was enhanced synergistically by W7. Thus, depending on the initial stimulus, calmodulin may promote or inhibit 2 degree granule exocytosis by human PMN.
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PMID:Human neutrophil secondary granule exocytosis is independent of protein kinase activation and is modified by calmodulin activity. 892 8

Five types of somatostatin (SS) receptors (sst1-5) have been cloned and are widely distributed in the central nervous system and variably expressed in target tissues of the periphery. At the cellular level, adenylate cyclase inhibition has been classically described in native and transfected cells expressing sst subtypes. In addition, ion channel modulation (K+, Ca2+), phospholipase C, phospholipase A2, and tyrosine phosphatase activation have also been reported. The present study describes a novel in vitro approach based on quantifying receptor-activated metabolic rate changes to evaluate SS biological activity in cells (CHO-K1) stably expressing the human (h) sst2 receptors. Real-time metabolic rate changes were evaluated by determining the rate of extracellular acidification (microphysiometry). The metabolic rate was transiently and potently (EC50 1 nM) increased in response to natural SS ligands, SS-14 and SS-28. The peak activation time was approximately 2 min. Pharmacological analysis for the sst2 receptor yielded rank order of potency for SS analogues of: MK-678 > BIM-23027 > octreotide > BIM-23014C << L-362,855 > BIM-23052 << BIM-23056. Similar rank orders were obtained from in vitro receptor binding studies in the same cell line. These results demonstrate that microphysiometry is a rapid and valid technique to evaluate the pharmacology SS receptor activation.
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PMID:Real-time evaluation of somatostatin subtype 2 receptor activity employing the technique of cytosensor microphysiometry. 895 65

We investigated the effect of adenosine on astrocyte morphology by using cell cultures prepared from the cerebral cortices of neonatal rats. Cultured rat cortical astrocytes exhibited flattened, polygonal morphology in the absence of stimulation, but differentiated into process-bearing stellate cells in response to adenosine (1-1000 microM). Adenosine-induced astrocyte stellation was abolished by treatment with microtubule inhibitors, colchicine and paclitaxel, indicating the involvement of cytoskeletal elements. The effect of adenosine was mimicked by other adenosine receptor agonists, and blocked by adenosine receptor antagonists and guanosine 5'-O-(2-thiodiphosphate), indicating that the effect of adenosine is mediated by G protein-coupled adenosine receptors. Although adenosine receptors are known to be linked to adenylate cyclase or phospholipase C, adenosine did not change intracellular cyclic AMP level nor intracellular Ca2+ concentration in astrocytes. Alternatively, adenosine-induced stellation was abolished by tyrosine phosphatase inhibitors, orthovanadate and phenylarsine oxide, suggesting that adenosine causes astrocyte stellation through tyrosine dephosphorylation. Adenosine may function as a factor regulating astrocyte differentiation.
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PMID:Adenosine stimulates stellation of cultured rat cortical astrocytes. 972 81

Mimicking short photoperiod melatonin signals (16 h exposure) on primary cell cultures of melatonin target cells of the ovine pars tuberalis (PT) results in an enhanced cAMP response to forskolin stimulation relative to untreated cells, a phenomenon termed sensitization. The sensitized response of PT cells may be an important aspect of the interpretation of the melatonin signal to initiate appropriate seasonal physiological responses. The aim of this study is to add to our understanding of the molecular mechanisms involved in the sensitization of PT cells by melatonin. We demonstrate that sensitization of PT cells by melatonin is mediated via a G(i)-coupled melatonin receptor. The sensitized cAMP response is not only obtained with the pharmacological tool forskolin, but also with cholera toxin, an activator of G(salpha). Changes in the level of G(salpha) or G(ialpha) G-protein subunits are ruled out as part of the sensitization mechanism. However, changes in tyrosine phosphorylation may be involved as tyrosine kinase inhibitors sensitize ovine PT cells and tyrosine phosphatase inhibitors significantly blunt adenylate cyclase activity, including the sensitized response to melatonin. The adenylate cyclase isoforms mediating the sensitized response may be broad as 7 of the 9 isoforms of adenylate cyclase are expressed in the PT.
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PMID:A role for tyrosine phosphorylation in the regulation and sensitization of adenylate cyclase by melatonin. 1092 97

The inhibitory GABA(A) receptor is a key element in determining the pattern of nerve cell electrical activity. Thus, modulation of its function is of paramount impact in shaping neuronal functional activity under physiological and pathological conditions. This applies to cerebellar granule neurons as to all the other neurons in the brain. The culture of cerebellar granules from newborn rats is a convenient means by which to approach these cells for electrophysiological studies provided that they maintain, as far as GABA(A) receptors are concerned, the same characteristics as in situ. Thus, the regulation of GABA(A) receptor activity in these neurons has been studied by the patch-clamp technique, both in the whole-cell and outside-out configuration. An obvious first level of control of such receptors' activity is their desensitization under continued agonist application, with biphasic kinetics. The data do not allow one to conclude whether one is dealing with two different populations of receptors or with a single population with two desensitization phases; although the presence of two GABA(A) receptor populations is suggested by a host of observations. The granule cell GABA(A) receptors are modulated by changes in extracellular pH with lower pH resulting in an enhanced receptor activity. They display, under the conditions of whole-cell recording, a run-down phenomenon which is most probably due to a tyrosine phosphatase activity which is in turn under control by a protein serine kinase. Thus, in situ tyrosine phosphorylation is a key element in determining the efficiency of GABA mediated inhibition. Activation of protein kinase A or protein kinase G (PKG) down-regulates GABA(A) receptors' activity. This last event is involved in the depression of those receptors' activity by L-arginine via the production of nitric oxide. In addition, the activity of calmodulin-activated adenylate cyclase I is controlled by GABA(B) receptors. Dendritic GABA(A) receptor activity is partially blocked by previous activation of N-methyl-D-aspartate (NMDA) receptors via calcineurin mediated dephosphorylation/activation of protein tyrosine phosphatase and concomitant production of nitric oxide and PKG activation. The site phosphorylated by PKG is evidently not available for calcineurin-mediated serine dephosphorylation, due to calcineurin-specific membrane localization in respect of the GABA(A) receptor. Overall, a complex network of biochemical signals appear to keep granule cells GABA(A) receptors under a fine balance between up- and down-regulatory mechanisms. The overall data appear also to indicate the presence of two GABA(A) receptor populations: a dendritic one which can be modulated by Ca++ entering via NMDA receptors and a cell body one. The two populations are probably different in terms of desensitization kinetics and benzodiazepine sensitivity.
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PMID:GABA(A) receptor modulation in rat cerebellum granule cells. 1095 91

Activation of adenylate cyclase induces cultured neurohypophysial astrocytes (pituicytes) to change from a protoplasmic, nonstellate form to a stellate form. Stellation is inhibited and reversed (destellation) by serum. The objective of the present studies was to examine the roles of Ca2+ and tyrosine phosphorylation in mediating these morphological changes. The effects of forskolin (to induce stellation) and serum (to inhibit and reverse stellation) were not affected by replacement of Ca2+ with Co2+ in the medium or by treatment of cultures with thapsigargin. However, genistein, a specific inhibitor of tyrosine kinase(s), significantly reduced the effect of serum on forskolin-induced stellation. Also, dephostatin, a specific inhibitor of tyrosine phosphatase, inhibited forskolin-induced stellation. In contrast, genistein did not have a dramatic effect on serum-induced destellation. The data demonstrate that morphological changes exhibited by cultured pituicytes are independent of Ca2+ but may be modulated by the activity of tyrosine kinase(s) and phosphatase(s).
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PMID:Calcium-independent, tyrosine phosphorylation-dependent effects of serum on the morphology of cultured neurohypophysial astrocytes. 1101 40

The pituitary adenylate cyclase activating polypeptide (PACAP) type I receptor, a seven-domain transmembrane receptor, is positively coupled to both adenylate cyclase and phospholipase C. PACAP exerts neurotrophic effects which are mainly mediated through the cAMP/protein kinase A pathway. Here we show that the cell-permeable C2-ceramide selectively blocks PACAP-activated cAMP production, without affecting phosphoinositide breakdown. Thus by blocking the neuroprotective cAMP signalling pathway, C2-ceramide will reinforce its direct death-inducing signalling. We found that a reactive oxygen species scavenger reversed the C2-ceramide effect and that H2O2 mimicked it. Together these data indicate that reactive oxygen species (ROS) mediates C2-ceramide-induced cAMP pathway uncoupling. This uncoupling did not involve ATP supply or Galphas protein function but rather adenylate cyclase function per se. Further, the tyrosine phosphatase inhibitors, but not the serine/threonine phosphatase inhibitors, prevent inhibition of cAMP production by ROS. This suggests that H2O2 requires a functional tyrosine phosphatase(s) to block PACAP-dependent cAMP production.
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PMID:C2-ceramide and reactive oxygen species inhibit pituitary adenylate cyclase activating polypeptide (PACAP)-induced cyclic-AMP-dependent signalling pathway. 1115 49


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