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 data suggest that estradiol enhances the formation of histamine in rat uterus by induction of histidine decarboxylase; histamine activates adenylate cyclase providing accumulation of cyclic 3',5'-AMP, which, probably, induces glycolytic enzymes via phosphorylation of chromatin proteins, and mediates other estradiol effects. The chain of successively acting enzymes and mediators constitutes, obviously, a cascade amplifying the estradiol action. Since histamine is known to act as an intercellular mediator, attempts were made to find out the distribution of estradiol, histamine, and cyclic 3',5'-AMP among uterine cells. Autoradiography has shown that 3H-estradiol is bound by the nuclei of myometrium cells, 3H-histamine was found in the cytoplasm of these cells, 3H-cyclic 3',5'-AMP is selectively bound by the cells of capillary endothelium of the uterus. The estradiol mediators seem to spread their effect on different types of cells which form together a kind of a multicellular functional system.
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PMID:Biochemical cascade mediating the estradiol action. 631 1

Ritodrine hydrochloride is a beta-mimetic amine which is used to inhibit premature labor. While the mechanism of action of beta-mimetic drugs is believed to be a function of its action on the adenylate cyclase system, the drug may also act via other mechanisms. We examined the effect of this drug on both contractile activity and prostanoid production using an in vitro preparation of a uterus from a 21-day pregnant rat. Two uterine segments were simultaneously studied in separate incubation chambers. Ritodrine (2.0 mg/ml) was added to one tissue chamber while the other tissue served as a control. Frequency and contractile force were monitored polygraphically for 45 min. Incubation medium was then removed for analysis of prostaglandin E2 (PGE2), PGF2 alpha, 6-keto-PGF1 alpha, and thromboxane B2 (TXB2) by radioimmunoassay. Ritodrine-treated uteri demonstrated a contractile force which was 16.8% of that of the control, a significant decrease. Ritodrine-treated uteri also produced less prostanoids. The greatest effect was on PGE production (27.3% of the control, p less than 0.001). The effect of ritodrine on the other prostanoids was less pronounced (PGF2 alpha, 71%; 6-keto-PGF1 alpha, 84%; TXB2, 67% of the control). The presence of 0.2 mM dibutyryl cAMP in the incubation media also suppressed contractile force; however, prostanoids were not reduced and in some cases were elevated. It is concluded that one effect of ritodrine is a reduction in prostanoid production, predominantly PGE2 and this in part may play a role in the drug's efficacy. The reduction does not appear to be mediated through the adenylate cyclase system.
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PMID:Effect of ritodrine hydrochloride and dibutyryl cyclic AMP on contractile activity and prostanoid production of uteri from pregnant rats in vitro. 632 62

The hormonal regulation of uterine adenylate cyclase (AC) was measured in the rat by radiochemical analysis. Animals made pseudopregnant by cervical stimulation were ovariectomized on Day 1 (the first appearance of leukocytes in the vaginal smear) and injected for 6 days with sesame oil, 0.1-10.0 micrograms estrone, 2.0 mg progesterone, or 1.0 microgram estrone + 2.0 mg progesterone. AC activity in ovariectomized controls remained at basal levels (2.8-3.3 pmol cAMP formed/min X mg protein). The injection of progesterone did not alter AC activity significantly, but estrone increased AC activity during Days 3-5, and the response (5-17 pmol) was dose dependent. The action of estrone was not inhibited by progesterone. The present experiments revealed: a) AC from estrone-treated rats was activated 2- to 4-fold by 10 mM NaF; b) following treatment with estrone + progesterone, AC was activated 2- to 3-fold by a trauma to the uterus; c) unlike the response to fluoride, the effect of trauma was temporally limited to Day 4; and d) when AC was activated by trauma, no further increase was elicited by NaF. The data indicated that the transient sensitivity of AC to activation by trauma on Day 4 in E+P-treated rats was identical to that in intact rats and paralleled the normal timing of uterine sensitivity to decidual induction.
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PMID:Role of ovarian steroid hormones in the regulation of adenylate cyclase during early progestation. 650 40

Uterine adenylate cyclase (AC) activity of the rat was measured by radiochemical analysis during the estrous cycle and early pseudopregnancy. During the estrous cycle, AC activity increased from 4.6 to 16.9 pmol cAMP formed/min X mg protein between metestrus and proestrus. Although AC was activated 2- to 3-fold at all cycle stages by 10 mM NaF, the resulting pattern of activity was similar to that measured in the absence of fluoride. The results demonstrated that the pattern of AC activity during the cycle was similar to that of other estrogen-sensitive uterine enzymes and that the ovarian hormones probably altered enzyme biosynthesis and turnover to a greater extent than activation and kinetic properties. Following the induction of pseudopregnancy by cervical stimulation, enzymic activity increased from 3.5 to 9.4 pmol between Days 1-4 (Day 1=leukocytic vaginal smear) and declined thereafter. AC activity was increased 2- to 5-fold by NaF on all days. AC activity was similarly increased by a mechanical trauma to the uterus, but only when the trauma was applied on Day 4. Following trauma to the uterus, AC activity was not increased further by NaF. The similarities between the physicochemical characteristics of AC during the estrous cycle and early progestation suggested that the enzyme during all endocrine states had virtually identical properties. However, the transient sensitivity to activation after trauma on Day 4 was unique to progestational uteri. Because the properties of enzyme were not altered by the endocrine state of the tissue, the transient sensitivity to activation by trauma was suggested to be a result of hormone-induced alterations in the membrane in which AC is sequestered.
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PMID:Uterine adenylate cyclase activity during the estrous cycle and early progestation in the rat: responses to fluoride activation and decidual induction. 654 30

Adenylate cyclase was extracted from the rat uterus with Lubrol PX in a form which remained soluble following centrifugation for 60 min at 100,000g. The soluble enzyme was stimulated by both Mn+2 and by guanyl-5'-yl-imidodiphosphate (Gpp(NH)p), indicating that both the catalytic subunit (C) and the guanyl nucleotide-binding coupling factor (N) had been extracted. Catalytic activity was bound by a GTP-affinity resin only under conditions which resulted in irreversible activation of the native (particulate) form of the enzyme and could be eluted under acidic conditions shown to reverse the activated state. The S020,w of the soluble enzyme in both its activated and unactivated state was determined by linear sucrose gradient centrifugation. Activation by prolonged treatment with Gpp(NH)p did not alter the S020,w of the enzyme whether treatment was carried out before or after solubilization. The chaotrope LiBr (0.4 M) reduced the S020,w of the soluble enzyme but its smaller size was still not altered by activation with Gpp(NH)p. These results indicate that most adenylate cyclase activity in uterine membranes exists as a preformed complex between the catalytic subunit and the coupling factor: NC. The existence of this complex explains some of the temperature-dependent properties previously described for this form of the enzyme and suggests that dissociable interactions between the subunits do not play a role in the activation of C by guanyl nucleotides.
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PMID:Structure of membrane-associated and solubilized uterine adenylate cyclase. Evidence against activation through dissociable subunit interactions in the lipid bilayer. 663 49

The purpose of the present study was to characterize more precisely an inhibitory, adenylate cyclase-coupled bradykinin receptor in guinea pig ileum membranes. Therefore, the effects of various well-known bradykinin B2 receptor antagonists were examined at the level of bradykinin-induced inhibition of ileal adenylate cyclase activity and compared with both their binding affinities and their potencies to antagonize ileal contraction evoked by bradykinin. A group of three highly potent antagonists was found to be able to antagonize both bradykinin-induced adenylate cyclase inhibition and smooth muscle contraction. Several other antagonists abolished the bradykinin-induced ileal contraction but did not influence its action on adenylate cyclase. The compound [D-Nal1, Thi5,8, D-Phe7]bradykinin which is known to inhibit the bradykinin-induced contraction in the rat uterus but not in the guinea pig ileum was found to be a weak but selective antagonist for the adenylate cyclase-coupled bradykinin receptor in guinea pig ileum. Altogether, in guinea pig ileum membranes the inhibitory, adenylate cyclase-coupled bradykinin B2 receptor with pM affinity towards bradykinin exhibits a unique antagonist profile and is distinguished from the excitatory bradykinin B2 receptor with nM affinity towards bradykinin.
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PMID:The adenylate cyclase-inhibiting bradykinin receptor in guinea pig ileum membranes exhibits an unique antagonist profile. 762 18

The present investigation was undertaken to study the effects of K+ channel openers in the relaxant responses to various agonists in estrogen primed rat uterus. Adrenaline and isoprenaline produced a dose-dependent relaxation in the estrogen primed rat uterus. The relaxant responses were found to be significantly potentiated when the preparations were exposed to PSS devoid of calcium. The responses to isoprenaline were found to be greater in the preparations depolarized with 40 mM KCl instead of 80 mM KCl. KCl failed to produce any contractile effect in the presence of D-600. Further, the addition of D-600 completely relaxed the KCl depolarized rat uterus. Pinacidil and cromakalim failed to relax 80 mM KCl depolarized rat uterus. However, they produced dose-dependent relaxation in the preparations depolarized with 40 mM KCl. The relaxant responses to pinacidil and cromakalim were competitively blocked by procaine. However, they were not altered by either propranolol or cimetidine. The relaxant responses to isoprenaline and histamine were found to be potentiated by pinacidil and cromakalim. These results indicate that in rat uterus in addition to adenylate cyclase c-AMP, potassium channels are also involved in the relaxant responses to isoprenaline and histamine.
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PMID:Involvement of K+ channels in the relaxant responses to various agonists in estrogen primed rat uterus. 764 2

Estrogenic hormones, believed to exert most of their effects via the direct interaction of their receptors with chromatin, are found to increase cAMP in target breast cancer and uterine cells in culture and in the intact uterus in vivo. Increases in intracellular cAMP are evoked by very low concentrations of estradiol (half maximal at 10 pM) and by other physiologically active estrogens and antiestrogens, but not by an inactive estrogen stereoisomer. These increases in cAMP result from enhanced membrane adenylate cyclase activity by a mechanism that does not involve genomic actions of the hormones (are not blocked by inhibitors of RNA and protein synthesis). The estrogen-stimulated levels of cAMP are sufficient to activate transcription from cAMP response element-containing genes and reporter plasmid constructs. Our findings document a nongenomic action of estrogenic hormones that involves the activation of an important second-messenger signaling system and suggest that estrogen regulation of cAMP may provide an additional mechanism by which this steroid hormone can alter the expression of genes.
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PMID:Estrogen action via the cAMP signaling pathway: stimulation of adenylate cyclase and cAMP-regulated gene transcription. 807 14

[Arg8]vasopressin and oxytocin are the two main members of the neurohypophysial hormone family found to be present in nearly all mammals. [Lys8]vasopressin ([Lys8]VP) has been identified as the antidiuretic hormone in pig and some marsupial families. The porcine-derived kidney epithelial cell line, LLC-PK1, expresses both [Lys8]VP receptors coupled to the activation of adenylate cyclase (V2 receptors) and oxytocin receptors. Here we report the molecular cloning of the V2 [Lys8]VP receptor and the oxytocin receptor from LLC-PK1 cells. The cloned V2 [Lys8]VP receptor differs from human and rat V2 [Arg8] receptors mainly in its N-terminal region, in residues located in the extracellular loops and in intracellular phosphorylation sites. When expressed in COS7 cells, the V2 [Lys8]VP receptor exhibits the relative order of ligand affinity [Lys8]VP = [Arg8]VP >> 1-deamino[D-Arg8]VP > or = oxytocin and adenylate-cyclase stimulation, expected for the porcine V2 [Lys8]VP receptor but different from V2 [Arg8]VP receptors. Adenylate-cyclase activation by [Lys8]VP was inhibited in COS7 cells by a V2 antagonist. The cloned oxytocin receptor exhibits in COS7 cells a ligand specificity typical of mammalian oxytocin receptors. mRNA-distribution analysis revealed a single 5.5-kb transcript in the uterus from pregnant guinea pig.
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PMID:Molecular cloning and functional characterization of V2 [8-lysine] vasopressin and oxytocin receptors from a pig kidney cell line. 839 86

Calcitonin secretion in the pregnant uterus is tightly regulated by the ovarian hormones, estrogen and progesterone, which limit its expression to a brief period preceding blastocyst implantation. The binding of calcitonin to a G protein-coupled receptor activates adenylate cyclase and elevates cytosolic Ca2+ levels. The acceleration of preimplantation embryonic development that is known to occur upon elevation of intracellular Ca2+ prompted an investigation into calcitonin regulation of blastocyst differentiation. Using reverse transcription and the polymerase chain reaction to estimate the relative abundance of calcitonin receptor mRNA, a 25-fold accumulation of the splice variant, CR-1a, was observed in embryos between the 1-cell and 8-cell stages. Cytosolic free Ca2+ levels were rapidly elevated in embryos at the 4-cell to blastocyst stages after exposure to 10 nM calcitonin. Blastocysts treated for 30 minutes with 10 nM calcitonin differentiated in vitro at an accelerated rate, as assessed by the translocation of alpha5beta1 integrin to the apical surface of trophoblast cells, the corresponding elevation of fibronectin-binding activity and the timing of trophoblast cell migration. Chelation of cytosolic free Ca2+ with BAPTA-AM, but not inhibition of protein kinase A activity by H-89, attenuated the effects of calcitonin on blastocyst development. These findings support the concept that calcitonin secretion within the progesterone-primed uterus and the coordinate expression of CR-1a by preimplantation embryos regulates blastocyst differentiation through receptor-mediated Ca2+ signaling.
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PMID:Expression of calcitonin receptors in mouse preimplantation embryos and their function in the regulation of blastocyst differentiation by calcitonin. 975 83

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