Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.2 (guanylate cyclase)
 8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

L-Arginine (L-Arg) is metabolized by nitric oxide synthase to the reactive intermediate nitric oxide. Since nitric oxide stimulates guanylyl cyclase and cGMP synthesis, L-Arg effects on cGMP accumulation in isolated pancreatic islets of the rat and RINm5F insulinoma cells were determined. Both L-Arg and glucose stimulation increased islet cGMP levels, and glucose potentiated the response to L-Arg alone. A competitive inhibitor of L-Arg metabolism to nitric oxide, NG-monomethyl-L-arginine, reduced glucose- and L-Arg-stimulated insulin release and glucose-induced increases in cGMP; however, basal insulin release was slightly increased. D-Arg and L-ornithine did not affect islet cGMP levels, although insulin release was stimulated. RINm5F cell cGMP levels and insulin release increased in response to L-Arg in a concentration- and time-related manner, whereas glucose and L-histidine were without effect. 8-Bromo-cGMP also slightly increased RINm5F cell insulin release. Sodium nitroprusside as a source of nitric oxide increased RINm5F cell cGMP production. Methylene blue and LY83583, inhibitors of soluble guanylyl cyclase activation, reduced RINm5F cell cGMP levels in the presence and absence of L-Arg; LY83583 also reduced glucose-stimulated cGMP levels in islets. Insulin release by glucose and L-Arg was also inhibited by methylene blue and LY83583 in islets. We conclude that glucose and L-Arg stimulate guanylyl cyclase activity and cGMP formation in beta-cells at least in part through metabolism to the reactive intermediate nitric oxide. However, neither nitric oxide nor cGMP synthesis is obligatory for insulin secretion.
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PMID:L-arginine stimulates cyclic guanosine 3',5'-monophosphate formation in rat islets of Langerhans and RINm5F insulinoma cells: evidence for L-arginine:nitric oxide synthase. 168 79

The pyruvate-stimulated adenylate cyclase from Brevibacterium liquefaciens produces up to 450 microM cyclic AMP in the culture medium when the bacterium is grown on glucose and alanine. In this paper we report the cloning, expression and sequencing of the gene for this enzyme. Residues were identified, within the C-terminal domain, which are conserved in adenylate and guanylate cyclase sequences from eukaryotes and in the adenylate cyclase of the prokaryote Rhizobium meliloti. We have also identified a sequence of 30 residues near the N-terminus of the protein which is homologous to part of the regulatory domain of the cellular homologues of the oncogenes fes and fps; this sequence is also present in the avian Fujinami sarcoma virus fps gene.
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PMID:A pyruvate-stimulated adenylate cyclase has a sequence related to the fes/fps oncogenes and to eukaryotic cyclases. 168 68

The purpose of this study was to investigate the mechanism of inositol uptake into rat thoracic aorta. 3H-inositol uptake into deendothelialized aorta was linear for at least 2 h and was composed of both a saturable, Na(+)-dependent, and a nonsaturable, Na(+)-independent component. The Na(+)-dependent component of inositol uptake had a Km of 50 microM and a Vmax of 289 pmol/mg prot/h. Exposure to LiCl, ouabain, or Ca2(+)-free Krebs-Ringer bicarbonate solution inhibited uptake. Metabolic poisoning with dinitrophenol, as well as incubation with phloretin, an inhibitor of carrier-mediated hexose transport, also inhibited uptake. Exposure to norepinephrine decreased inositol uptake, while phorbol myristate acetate was without effect. Isobutylmethylxanthine significantly increased inositol uptake, while the increased uptake due to dibutyryl cyclic AMP and forskolin were not statistically significant. Sodium nitroprusside, an activator of guanylate cyclase, and 8-bromo cyclic GMP, were without effect on uptake, as was methylene blue, an inhibitor of guanylate cyclase. Inositol uptake into the aorta was increased when the endothelium was allowed to remain intact, although this effect was likely due to uptake into both the endothelial and smooth muscle cells. These results suggest that the uptake of inositol into vascular smooth muscle is: (1) dependent upon an inward Na(+)-gradient; (2) carrier mediated, and (3) inhibited by alpha 1 adrenoceptor agonists.
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PMID:Inositol uptake in rat aorta. 169 1

Dynamic changes in total glucose utilization in isolated islets of Langerhans of the rat were determined by quantitation of the formation of 3H2O from D-[5-3H]glucose. The addition of 8-bromo-cGMP (8-Br-cGMP) or monobutyryl cGMP to the islets during a linear phase of glucose utilization resulted in concentration- and time-dependent increases in glucose utilization. Effects of the analogs of cGMP on glucose utilization were noted as early as 5 min after the onset of stimulation in the presence of 10 mM glucose. 8-Br-cGMP also increased the utilization of 1 mM glucose within 20 min. Stimulatory effects of 8-Br-cGMP were observed in the presence of cycloheximide or N-acetylglucosamine. Neither 8-bromo-cAMP (8-Br-cAMP) nor monobutyryl cAMP induced significant changes in glucose utilization at 1 or 10 mM glucose. In the presence of 3-isobutyl-1-methylxanthine (IBMX), 8-Br-cGMP, but not 8-Br-cAMP, induced a rapid change in glucose utilization. N-Methyl-N'-nitro-N-nitrosoguanidine, which activates guanylate cyclase, also stimulated glucose utilization in the presence of IBMX by 3-fold. IBMX alone did not change glucose utilization. In contrast, 8-Br-5'-GMP reduced glucose utilization, whereas 8-bromoinosine 3',5'-monophosphate and 8-bromoguanosine did not change glucose utilization. Sodium bromide did not affect glucose utilization. Glucose-stimulated insulin release was potentiated by 8-Br-cGMP, whereas insulin release from islets incubated in the absence of glucose or the presence of glyceraldehyde or 2-ketoisocaproic acid was not altered by 8-Br-cGMP. Thus, glucose utilization in pancreatic islets is modulated by cGMP, and the secretory response to 8-Br-cGMP is glucose dependent.
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PMID:Effects of guanosine 3',5'-monophosphate on glucose utilization in isolated islets of Langerhans. 243 25

Glucose transport in isolated rat cardiomyocytes is stimulated by insulin, catecholamines, and anoxia approximately 2- to 3-fold over basal rates. The molecular mechanisms controlling these responses are unknown. In our search for possible cellular mediators of glucose transport stimulation, we examined the effects of a number of nucleotides on 3-O-methylglucose transport in heart cells. The nucleotides and/or permeable analogs (monosuccinyl, 8-bromo, and dibutyryl derivatives) included cUMP, cIMP, cCMP, cAMP, and cGMP at concentrations ranging from 10 nM to 1 mM. Of all the nucleotides tested only cGMP analogs induced a significant stimulation of transport at concentrations as low as 100 nM. This effect was observed in both the 8-bromo- and dibutyryl derivatives and with 1 mM cGMP itself. The effect was concentration dependent for both analogs and produced a maximal response equivalent to that of 100 nM insulin. This insulinomimetic effect of cGMP was examined in more detail in order to evaluate its role as a potential mediator of this response. Agents that are known to stimulate guanylate cyclase in the heart produced a clear stimulation of transport when added to cardiomyocytes. These include insulin, aminophylline, histamine, beta-estradiol, and biotin-nitrophenyl ester. Methylene blue, an inhibitor of guanylate cyclase, blocked the insulin response when added to cells before insulin, but was ineffective when added after insulin. In addition, agents that raise intracellular cGMP levels by inhibiting cyclic nucleotide phosphodiesterases were also examined for effects on glucose transport. Out of several phosphodiesterase inhibitors tested, only Zaprinast (which selectively increases cGMP in heart) stimulated transport in a concentration-dependent manner to within 80% of the maximal insulin effect. These results are consistent with the notion that cGMP may be involved in glucose transport stimulation.
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PMID:Stimulation of glucose transport in rat cardiac myocytes by guanosine 3',5'-monophosphate. 254 35

The biochemical events initiated by mitogen in T lymphocytes are the subject of this paper. Following interaction of the mitogen with its receptors, a transmembrane 'trigger-type' signal is propagated which has both positive and negative correlates. The negative signal occurs with high mitogen concentrations and is associated with membrane freezing, microtubular aggregation, receptor capping, adenylate cyclase activation, and cellular cyclic AMP increases. The positive signal occurs with optimal mitogen concentrations and is associated with changes in membrane permeability and transport with influx of calcium and potassium ion and efflux of sodium, in transport processes for glucose, amino acids, and nucleosides, and in a collected series of early membrane lipid changes which can be considered essential for the positive signal. These lipid changes include the uptake of arachidonic acid and other fatty acids, choline, phosphate and other molecules, their incorporation into membrane phospholipids, particularly phosphatidylinositol (PI), and a turnover of PI with the production of inositol triphosphate, which can be related to calcium mobilization and diacylglycerol which activates a cytoplasmic protein kinase C. A key event associated with mitogen action is arachidonic acid release. Arachidonic acid may give rise to prostaglandins and thromboxanes as part of negative components of the signal through effects on the adenylate cyclase/cyclic AMP system. Arachidonic acid gives rise to eicosanoids like 5-, 11-, possibly 12- and 15-hydroxyperoxy and hydroxy eicosatetraenoic acids and leukotrienes B4 and C4. The activation of the 5-lipoxygenase, a critical calcium-dependent step, leads via the production of 5-HPETE and 5-HETE to the activation of membrane and soluble guanylate cyclase and the production of cyclic GMP. Cyclic GMP appears to be essential for mitogen activation and is associated with cyclic GMP-dependent protein kinase activation and the phosphorylation of a number of substrates. Calcium ion influx is clearly central to mitogen action. Calcium through its influx and mobilization from cellular stores is thought to contribute directly and indirectly through the action of calmodulin and protein kinase C to the activation of a number of enzymatic processes involved in the positive signal including phospholipase C, diglyceride kinase and lipase, 5-lipoxygenase, and guanylate cyclase. Cyclic GMP and calcium ion both participate in nuclear processes leading to RNA and protein synthesis. Interleukin 2 is associated with midcycle increases in cyclic GMP and entry into DNA synthesis.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Transduction of signals in the activation of T lymphocytes: relation to leukemia. 304 Mar 20

Twelve hyperglycemic, glycosuric, and ketonuric Djungarian hamsters with average blood glucose concentrations of 295+-32 mg/dl were compared to twelve non-glycosuric, but ketonuric Djungarian hamsters with average blood glucose concentrations of 88+-11 mg/dl with regards to their cyclic nucleotide metabolism. The glycosuric Djungarian hamsters had decreased guanylate cyclase (E.C.4.6.1.2.) activity in vitro and cyclic GMP levels in vivo in liver, lung, kidney, colon, heart, spleen, and pancreas that was approximately 50% of the guanylate cyclase activity in these same tissues of non-glycosuric Djungarian hamsters. The decreased tissue guanylate cyclase activity and cyclic GMP levels in the glycosuric animals could be restored to the level of non-glycosuric Djungarian hamsters with 100 U regular insulin, but not with 50 or 10 U of regular insulin. Fifty and 100 U of regular insulin also increased the level of guanylate cyclase activity in the non-glycosuric (control) animals. There was no change in adenylate cyclase (E.C.4.6.1.1.) activity but there were increased cyclic AMP levels in the glycosuric when compared to the non-glycosuric Djungarian hamsters that were correctable with 100 U of insulin. We conclude that guanylate cyclase activity is decreased in the peripheral tissues of glycosuric Djungarian hamsters as compared to non-glycosuric Djungarian hamsters and that insulin modulates this enzyme.
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PMID:Decreased tissue guanylate cyclase activity in glycosuric Djungarian hamsters (Phodopus sungorus) that is correctable with insulin. 612 Jan 35

A great deal of knowledge has been gained concerning the activation of adenylate and guanylate cyclase in epidermal cells. Adenylate cyclase is activated by 4 different independent receptors-responding respectively to catecholamine (beta), to prostaglandins (E), to histamine (H2), and to adenosine and it phosphorylated derivatives. Upon activation, each of these receptors becomes unresponsive to further stimulation by its specific stimulator. Guanylate cyclase, on the other hand, is activated by histamine (H1) and epidermal growth factor (EGF). Unlike EGF, the histamine activation is extremely rapid (less than 5 minutes). Epidermal cells are permeable (leak) to cyclic GMP but not cyclic AMP. When the skin is traumatized or injured in any way (even by intradermal injection) there is a sudden catastrophic change in the intracellular levels of the cyclic nucleotides (and of ATP). Cyclic AMP rapidly rises to perhaps 5-10 times its normal resting level while cyclic GMP falls to 10-20% of its level in vivo. The rise in cyclic AMP is due to activation of adenylate cyclase while the fall in cyclic GMP is due in major part to activation of cyclic GMP phosphodiesterase (and perhaps the fall in ATP is due to activation of ATPase). The changes in ATP and cyclic AMP can be reversed by incubating the tissue in a buffered salt solution containing glucose, but this does not normalize the cyclic GMP content. The fall in cyclic GMP can be prevented by a phosphodiesterase inhibitor (IBMX ). This series of events has been called the "ischemia effect." However, it implies that a lack of oxygen is at fault, and that has not been shown to be the case. Its underlying cause and possible physiologic significance are not known. Do these changes in cyclic nucleotides have effects on epidermal proliferation? And does EGF? Agents which increase cyclic AMP do inhibit the epidermal outgrowth and mitotic activity of explant cultures of pig skin. Cyclic GMP does increase outgrowth at a particular concentration. Histamine, which elevates both cyclic nucleotides, has a biphasic action depending on its concentration. These findings imply that these nucleotides do act as one of the controls of epidermal proliferation. The action of cyclic GMP is not accompanied by detectably increased phosphorylation of epidermal proteins. On the other hand, EGF action which also enhances epidermal outgrowth is characterized by an increased protein phosphorylation that precedes any increase in cellular cyclic GMP. We conclude that the action of EGF is independent of the cyclic nucleotide system.
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PMID:Cyclic GMP system in the epidermis. 626 50

Sodium nitroprusside, a known activator of guanylate cyclase within cells, was used as a probe to investigate the possible role of cyclic GMP in the control of metabolism within rat isolated white adipocytes. Over the concentration range 0-0.1 mM, it increased intracellular cyclic GMP concentrations up to 6-fold within 2 min. Over the same concentration range, it increased the incorporation of 14C from D-[U-14C]glucose into triacylglycerol and of L-[14C]leucine into protein. It also inhibited adrenalin -stimulated lipolysis in the cells, but had no effect on the transport of glucose into the cells. The effects of sodium nitroprusside were compared with those elicited by insulin under identical conditions, as this hormone was shown to cause a similar, but transient, rise in intracellular cyclic GMP concentrations within these cells. Nor insulin, neither sodium nitroprusside were able to increase cyclic AMP levels in adipocytes, whereas adrenalin (0.3 microM) stimulated this production. It is suggested that cyclic GMP may have a role in the control of some part of metabolism 'glucose or amino acids' in adipocytes, and that sodium nitroprusside is a useful probe to investigate this. The limitation of its use are discussed.
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PMID:A comparison of the effects of sodium nitroprusside and insulin on the control of metabolism in rat isolated adipocytes. 632 45

E. coli which elaborate suckling mouse active small MW heat-stable enterotoxin (STa), are important causes of diarrhea in animals and man. These STa's share the property of causing intestinal secretion and diarrhea by virtue of inhibiting the absorption of sodium and chloride and possibly stimulating the secretion of chloride. STa's seem to act in the colon as well as the small intestine and the alterations in intestinal ion and water transport are probably mediated by the guanylate cyclase-cyclic GMP system. Glucose transport is unaffected. STa also causes alterations in the myoelectrical activity of the small intestine which may result in the loss of normal peristaltic activity. STa binds in a reversible fashion to specific receptors on the surface of small intestinal and colonic epithelial cells. The mechanisms whereby occupation of the STa receptors lead to activation of the guanylate cyclase system and intestinal secretion are unknown but may involve influx of calcium through calcium channels, stimulation of prostaglandin synthesis and release of free radicals.
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PMID:Escherichia coli heat-stable enterotoxin: biochemical and physiological effects on the intestine. 668 36


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