EC:4.6.1.1 - FACTA Search

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

The regulation of steroidogenesis in both the ovary and testis involves a complex interaction of a diversity of hormones and intracellular signaling pathways. The recent cloning of LH and FSH receptors has paved the way for an increased understanding of the mechanisms of receptor conformation, ligand-receptor interaction, and facilitation of post-receptor activity. The dominant role played by LH in the regulation of steroid production appears to be mediated by more than one intracellular signaling pathway. In addition to the stimulation of the adenylate cyclase-cAMP pathway, also known to be stimulated by FSH, the actions of LH may be additionally mediated by other intracellular messengers, such as those derived from the PLC pathway. Steroidogenesis in the gonads appears to be modulated by a variety of factors in addition to the gonadotropins. In this review, those factors of intracellular signaling mechanisms of which we have some understanding have been discussed. These include GnRH, PGF2 alpha, Ang II, VIP, GHRH, TNF alpha, CRF, EGF, and TGF alpha. Many of these factors have been shown to be locally synthesized, and specific receptors have been identified in the gonads. Many gonadal factors have the capacity to exert effects on steroidogenesis independent of the gonadotropins. Alternately, they have been demonstrated to alter the gonadal response to the gonadotropins via autocrine, paracrine, and intracrine mechanisms. As yet, our understanding of the intracellular signaling mechanisms used by novel gonadal regulators is limited. The involvement of the PLC, PLA2, and PLD pathways in this regard has been reviewed. It is becoming apparent that multiple signaling pathways may be stimulated by a single hormone, as in the case of GnRH, PGF2 alpha, and LH. The complexity of intracellular signal transduction in the gonads is enhanced by the potential cross-talk at numerous steps in the signaling cascades.
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PMID:Intracellular signaling in the gonads. 142 84

We have shown that FGF (basic or acidic) is mitogenic for quiescent hamster lung fibroblasts (CCL39 line). It is active alone but is much more efficient in synergistic combinations with G-protein-activating agents. When used alone, FGF appears to exert its mitogenic effects without involving any of the major G-protein-mediated signaling pathways. It causes no significant hydrolysis of phosphoinositides, it does not alter the activity of adenylate cyclase, and its mitogenicity is insensitive to pertussis toxin. It therefore seems likely that all pleiotropic actions of FGF are primarily mediated by the intrinsic protein tyrosine kinase of its receptors. However, FGF, acting through its receptor tyrosine kinase, and thrombin, acting through G-protein-coupled receptors, induce a common set of early responses detected within seconds or minutes at the level of membranes, cytoplasm, and nuclei. Typical examples of early responses are activation of Na/H antiporter and Na/K/Cl cotransporter, phosphorylation of ribosomal protein S6, and increased transcription of early-immediate genes (c-fos, c-jun, and c-myc). Not only various classes of growth factors acting via distinct transducing mechanisms activate common targets, but also their synergistic effects on reinitiation of DNA synthesis is reflected on the early responses. How does the coordination of these signaling events take place? A partial answer to this question is illustrated in Figure 6 in which "switch kinases" play the role of integrators of multiple extracellular signals. Raf and, perhaps more convincingly, MAP kinases that are activated by dual phosphorylation on tyrosine and threonine residues are potential good candidates for this integration. This hypothetical scheme could therefore explain, in part, the coordination and the synergy commonly observed in the mitogenic response. The synergy could be generated at the level of MAP kinases simply by dual activating phosphorylations. With the recent cloning of MAP kinases, these questions will be more easily addressed. Another important gap that will have to be filled in future studies is the identification of all the members of the kinase cascade. When used in synergistic combinations with G-protein-activating agents, FGF does exert in contrast some effects on the G-protein-mediated pathways. It potentiates the G-protein-mediated activations of both PIP2-PLC and adenylate cyclase.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Mitogenic effects of fibroblast growth factors in cultured fibroblasts. Interaction with the G-protein-mediated signaling pathways. 166 81

Platelet activation by the prostaglandin endoperoxide (PGH2)/thromboxane (Tx) A2 analog, U46619, involves stimulation of phospholipase (PL) C and an increase in intracellular calcium via distinct receptor subtypes. Agents which stimulate adenylate cyclase inhibit platelet function. We demonstrate that PGH2/TxA2 receptor desensitization is associated with enhanced stimulation of platelet cyclic AMP by the prostacyclin analog, iloprost and by forskolin. Sensitization of adenylate cyclase is mediated via the PGH2/TxA2 receptor subtype which activates PLC, as it is blocked by the specific antagonist, GR32191 (Takahara, K., Murray, R., FitzGerald, G. A., and Fitzgerald, D. J. (1990) J. Biol. Chem. 265, 6838-6844). This effect is not observed in platelets desensitized with thrombin or platelet activating factor and is not mediated by protein kinase C. Prior exposure of platelets to platelet activating factor results in much greater desensitization of PGH2/TxA2-induced aggregation (mean 64%) compared with calcium stimulation (mean 18%), consistent with selective heterologous desensitization of the PLC-linked PGH2/TxA2 receptor subtype. Platelet activation by PGH2/TxA2 is a tightly regulated process, involving both homologous desensitization of at least two receptor subtypes and sensitization of the platelet adenylase cyclase system.
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PMID:Prostaglandin endoperoxide/thromboxane A2 receptor desensitization. Cross-talk with adenylate cyclase in human platelets. 170 35

The relative roles of the adenylate cyclase-protein kinase A system (AC-PKA), the phospholipase C-protein kinase C system (PLC-PKC), and increases in cytosolic calcium in mediating the final actions of parathyroid hormone (PTH) remain ill defined. Although an important role for the PLC-PKC system in the regulation of phosphate transport in response to PTH has been suggested, previous studies from our laboratory and others, in OK cells, have emphasized the major role of AC-PKA. The present studies were designed to dissociate the second messengers for PTH by using an inhibitor of PLC (U-73,122). Studies were performed in confluent cultures of OK cells with and without preincubation with U-73,122 (1 microM). This inhibitor did not alter adenosine 3',5'-cyclic monophosphate (cAMP) production or the activation of PKA in response to PTH. Preincubation with U-73,122, however, totally abolished PTH-stimulated increases in diglyceride mass, consistent with inhibition of PLC. Activation of particulate PKC was then examined in response to PTH in the absence and presence of U-73,122. Although PTH resulted in an increase in particulate PKC activity in control cultures, this effect was abolished in the presence of U-73,122 and actually decreased significantly. Therefore, having documented marked attenuation of PLC-PKC, we next examined the effects of PTH on phosphate transport. Basal phosphate uptake was not altered by 1 microM U-73,122. Dose-response curves of the inhibition of phosphate transport in response to PTH were identical in the presence or absence of U-73,122. Thus inhibition of PLC and PKC activities did not alter the effects of PTH on phosphate transport.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of U-73,122, an inhibitor of phospholipase C, on actions of parathyroid hormone in opossum kidney cells. 751 44

5-HT receptors represent a superfamily of receptors with the largest known number of receptor subtypes. At present 15 receptor subtypes of three groups has been recognized. The 5-HT1 subfamily of receptors contains subtypes 5-HT1A, 5-HT1B, 5-HT1D, 5-HT1E, and 5-HT1F; activation of all of them results in the inhibition of adenylylcyclase. The subfamily of 5-HT2 contains subtypes 5-HT2A, 5-HT2B, and 5-HT2C; their activation leads to the stimulation of PLC. Finally, subfamily of miscellaneous 5-HT receptors contains subtypes 5-HT3, 5-HT4, 5-HT5, 5-HT6, and 5-HT7; some of them has been cloned, however, our knowledge on their function is still minimal. 5-HT receptors participate in many physiological functions and a disturbance in serotonergic neurotransmission might cause several types of disease. 5-HT plays an important role in depression; to cure this disease, drugs which increase levels of this neurotransmitter are used. A new drug group called Selective Serotonin Reuptake Inhibitors (SSRI) has been recently discovered. These drugs block the reuptake of 5-HT into nerve endings. There is an intensive search for new selective agonists as well as antagonists which could be use not only in the classification of receptor subtypes but which also possess certain therapeutic potential.
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PMID:[5-hydroxytryptamine (serotonin) receptors--nomenclature and classification of types and subtypes]. 758 16

The two forms of angiotensin II (Ang II) receptors, AT1 and AT2 subtypes, have been demonstrated in many other cells beside the anterior pituitary cells. Attempting to investigate the subtype(s) of Ang II receptors implicated in the multiple transduction mechanisms involved in Ang II stimulation of prolactin (PRL) release by lactotropes, we studied the effect of selective nonpeptidergic Ang II antagonists on the PRL release, adenylate cyclase (AC), and phospholipase C activities. In intact cells, the AT1 antagonist DuP753 blocked Ang II-induced PRL release, reversed in a dose dependent manner Ang II-evoked inositol phosphates production, and inhibited completely the PLC and protein kinase C (PKC) dependent cAMP accumulation induced by Ang II. In membrane preparations, the Ang II receptors were negatively coupled to AC. The AT1 antagonist blocked in a dose dependent manner the inhibitory effect of Ang II on cAMP production. In intact cells, the negative coupling of Ang II receptor with AC was observed only when PKC was down regulated by long term 12-O-tetradecanolylphorbol-13-acetate pretreatment. Ang II was able to inhibit vasoactive intestinal peptide-induced cAMP accumulation, a response which was also prevented by DuP753. The different coupling of Ang II receptor described above implicated only the AT1 type receptor since the AT2 antagonists (PD123177 and PD123319) were ineffective at any doses tested (10(-8) to 10(-5) M). The obtained results indicate that the regulation of PRL secretion involves the AT1 receptor subtype and that this receptor might be coupled to multiple effectors.
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PMID:Angiotensin II effects on second messengers involved in prolactin secretion are mediated by AT1 receptor in anterior pituitary cells. 770 34

Growth of thyroid cancer cells is stimulated by various growth factors via signal transduction pathways. TSH, EGF, IGF, and TGF-alpha stimulate and TGF-beta inhibits thyroid cell growth. TSH stimulates thyroid cells via both the adenylate cyclase-PKA and the PLC-PKC-Ca signal transduction pathways. TSH-r, ras, gsp, ret, trk, and myc are oncogenes that are activated in some thyroid neoplasms. P53 and RB are tumor suppressor genes that are inactivated in some thyroid cancers.
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PMID:Thyroid growth factors, signal transduction pathways, and oncogenes. 774 50

Most studies characterizing H-ras have been conducted in constitutively expressing cell lines. To explore the early interaction between H-ras p21 and signal transduction systems we have utilized an NIH3T3 fibroblast line transfected with a steroid inducible MMTV H-ras vector. Exposure to dexamethasone resulted in transcription of H-ras accompanied by an increase in PI turnover. Addition of cAMP analogs restored PI metabolism to control level. We postulate that these effects are due to the regulatory action of PKA on PLC and that H-ras may interfere with cAMP metabolism, negating its regulatory effect on PLC. Therefore, we investigated the role of p21 in cAMP metabolism and PLC activity. We demonstrated that after p21 reached maximal level of expression, cAMP synthesis was reduced to 45% of the control. Radioimmunoassay of cAMP also indicated H-ras acts to inhibit adenylate cyclase activity. Further, we found a 4-fold increase in PLC activity in H-ras expressing cells that could be reversed by elevation of cAMP. Incubation with the PKA inhibitor, KT5720, resulted in activity similar to that observed in H-ras expressing cells. Additionally, we have shown no correlation between H-ras expression and GTP gamma s stimulated PI metabolism, indicating that H-ras is not functioning as a G protein in PLC activation. These results imply that H-ras functions, in this system, to decrease levels of cAMP, thus negating the regulatory effect of PKA on PLC.
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PMID:Alteration of phosphoinositide metabolism by attenuation of cAMP resulting from expression of the H-ras oncogene. 780 40

Using the probe indo-1 in a microspectrofluorimetric study, it was demonstrated that the locust antidiuretic neurohormone, neuroparsin, enhanced cytosolic free Ca2+ concentrations, measured as percentages of the ratio F405/F480 (R), in epithelial cells of the African locust rectum. 5-hydroxytryptamine, whose antidiuretic effect was previously established, enhanced R in longitudinal muscular cells, and was able to increase R slightly in epithelial cells. The possibility of reciprocal Ca2+ movements between muscular and epithelial cells is discussed. Both of the neuronal molecules, which act via distinct transduction pathways (phosphoinositide turnover for neuroparsin, and Ca(2+)-dependent adenylate cyclase for 5-hydroxytryptamine), stimulated an increase in R by causing Ca2+ entry through dihydropyridine-sensitive Ca2+ channels. Cyclic nucleotides (cAMP and cGMP) lowered R in epithelial cells, the cGMP effect being interpreted as a feedback control on phosphoinositide turnover and resulting in the ability to re-establish cAMP production to levels incompatible with high PLC activity. In longitudinal muscular cells, the increase in R due to cAMP suggests the involvement of 5-hydroxytryptamine in stimulation of adenylate cyclase activity. Furthermore, results enabled the localization in epithelial cells of the transduction pathways mediating the actions of another antidiuretic factor extracted from the glandular lobes of the locust corpora cardiaca.
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PMID:Effects of two neuronal antidiuretic molecules, neuroparsin and 5-hydroxytryptamine, on cytosolic free calcium monitored with indo-1 in epithelial and muscular cells of the African locust rectum. 790 46

Previously, we demonstrated that a single histamine H2 receptor can couple to both the adenosine 3',5'-cyclic monophosphate and inositol 1,4,5-trisphosphate/intracellular Ca2+ signaling pathways in a stimulatory manner. We undertook the present studies to fur her characterize the postreceptor events involved in H2 receptor dual signaling. Histamine H2 receptor-mediated signal transduction was examined in isolated cell membranes prepared from purified canine parietal cells and HEPA cells (rat hepatoma cell line) stably transfected to express the canine H2 histamine receptor cDNA. Histamine dose-dependently stimulated both adenylate cyclase [AC; mean effective concentration (EC50) = 2 x 10(-7) M] and phospholipase C (PLC; EC50 = 3.1 +/- 0.5 x 10(-7) M) activity in an H2-specific and GTP-dependent manner. Cholera toxin pretreatment abolished the stimulatory effect of histamine on PLC activity in isolated membranes without altering binding of the H2 receptor antagonist tiotidine. Anti-Gs alpha dose-dependently inhibited histamine-stimulated AC activity while leaving the effect of this secretagogue on PLC activity unaltered. Although anti-Gq alpha inhibited vasopressin-stimulated PLC activity in HEPA cells and carbachol-stimulated PLC in parietal cells, this antibody did not alter the action of histamine on PLC in the same membrane preparations. Antibody against the NH2 and COOH terminals of the common beta-subunit of heterotrimeric G proteins did not inhibit histamine-stimulated PLC activity. Our studies demonstrate for the the first time that activation of the H2 receptor leads to stimulation of both AC and PLC via separate GTP-dependent mechanisms.
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PMID:Histamine H2 receptor activates adenylate cyclase and PLC via separate GTP-dependent pathways. 889 80

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