EC:4.6.1.2 - FACTA Search

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Query: EC:4.6.1.2 (guanylate cyclase)
8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nitric oxide (NO) acts as a messenger molecule in the CNS by activating soluble guanylyl cyclase. Rat brain synaptosomal NO synthase was stimulated by Ca2+ in a concentration-dependent manner with half-maximal effects observed at 0.3 microM and 0.2 microM when its activity was assayed as formation of NO and L-citrulline, respectively. Cyclic GMP formation was apparently inhibited, however, at Ca2+ concentrations required for the activation of NO synthase, indicating a down-regulation of the signal in NO-producing cells. Purified synaptosomal guanylyl cyclase was not inhibited directly by Ca2+, and the effect was not mediated by a protein binding to guanylyl cyclase at low or high Ca2+ concentrations. In cytosolic fractions, the breakdown of cyclic GMP, but not that of cyclic AMP, was highly stimulated by Ca2+, and 3-isobutyl-1-methylxanthine did not block this reaction effectively. The effects of Ca2+ on cyclic GMP hydrolysis and on apparent guanylyl cyclase activities were abolished almost completely in the presence of the calmodulin antagonist calmidazolium, whose effect was attenuated by added calmodulin. Thus, a Ca2+/calmodulin-dependent cyclic GMP phosphodiesterase is highly active in synaptic areas of the brain and may prevent elevations of intracellular cyclic GMP levels in activated, NO-producing neurons.
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PMID:Regulation of neuronal nitric oxide and cyclic GMP formation by Ca2+. 127 21

We have recently shown that transforming growth factor-beta (TGF beta) acts in an autocrine manner to maintain the beating rate of neonatal rat cardiac myocytes cultured in serum-free medium on cardiac fibroblast matrix. Interleukin-1 beta (IL-1 beta) suppresses the myocyte-beating rate, and TGF beta antagonizes this effect. We now show that TGF beta and IL-1 beta also have antagonistic effects on the secretion of nitric oxide (NO) by these myocytes, and that NO secretion, the activity of NO synthase (NOS), and expression of the inducible form of NOS correlate inversely with the effects of these two agents on the beating rate. Western blot analysis shows that treatment of myocytes with TGF beta antagonizes the induction of NOS after treatment with IL-1 beta. Release of NO, induced by IL-1 beta, is dependent upon the availability of the substrate, L-arginine, and is suppressed by a competitive inhibitor, NG-monomethyl-L-arginine. L-Arginine (> 0.25 mM) also suppresses, and NG-monomethyl-L-arginine (> 0.5 mM) enhances the myocyte-beating rate. Treatment with IL-1 beta, but not TGF beta, increases cellular cGMP, presumably by activation of guanylate cyclase by NO. Methylene blue, an inhibitor of guanylate cyclase, reverses the suppression of beating caused by IL-1 beta. Bacterial lipopolysaccharide, present in the serum-free medium, is a coinducer of NO secretion. The suppressive effects of NO on the beating rate can be overcome by altering either the set of cytokines employed to induce NO or the matrix on which the myocytes are cultured, demonstrating that additional parameters are also involved in regulation of the beating rate.
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PMID:Role of nitric oxide in antagonistic effects of transforming growth factor-beta and interleukin-1 beta on the beating rate of cultured cardiac myocytes. 128 74

Inducible nitric oxide (NO) synthase in vascular smooth muscle cells (SMCs) appears to play a major role for the diminished responsiveness to vasoconstrictors observed in endotoxemia. However, cardiovascular dysfunctions associated with septic shock are also observed in the absence of endotoxin (LPS). Similar hemodynamic changes are produced either by a gram-negative bacteria (Escherichia coli) or by a gram-positive bacteria (Staphylococcus aureus), a microorganism without LPS, suggesting a common pathway leading to cardiovascular abnormalities. In the present study, we describe the induction of NO synthase in vascular SMCs by lipoteichoic acid (LTA), a component of the membrane of gram-positive bacteria. In cultured vascular SMCs, a 24-h incubation with LTA produced an increase in intracellular cyclic GMP. This effect was inhibited by methylene blue (MB), an inhibitor of guanylate cyclase. Incubation with a specific inhibitor of L-arginine, i.e., NG-nitro-L-arginine methyl ester (L-NAME), or depletion of L-arginine attenuated the LTA-induced cGMP production. A 5-h incubation of endothelium-free rings of rat aorta in the presence of LTA induced a loss of tonicity to the contractile response of phenylephrine. The contractions were restored by MB and by L-NAME. The effect of L-NAME was reversed by L-arginine. These results show that LTA, like LPS, expresses NO synthase in vascular SMCs.
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PMID:Lipoteichoic acid: a new inducer of nitric oxide synthase. 128 52

The aim of the present experiments was to test the possible involvement of nitric oxide (NO) in cytokine-induced enhancement of tumor cell (TC) adhesion to endothelial cells (ECs). Exposure of EA hyb 926 cells to TNF (500 U/ml) plus IFN (100 U/ml) for 24 h significantly enhanced their adhesivity for the 51Cr-labeled GLC1 (small cell lung carcinoma) TCs. Conversely, exposure of TCs to cytokines did not result in an increased adhesion of these cells to ECs. TC-stimulated adhesion to EA hyb 926 was abrogated by the glucocorticoid dexamethasone (Dex, 10(-7) M), the NO synthase inhibitors N omega-nitro-L-arginine methyl ester (L-NAME, 10(-5) M) and NG-monomethyl-L-arginine (L-NMMA, 10(-5) M) and the protein synthesis inhibitor cycloheximide (Cex, 10(-6) M). Furthermore, GLC1-stimulated adhesion to EA hyb 926 was reversed following removal of L-arginine from the medium or pretreatment with the guanylate cyclase inhibitor methylene blue. TC-stimulated adhesion was also prevented when TCs were pretreated with the monoclonal antibody CD15 directed against the endothelial-leukocyte adhesion molecule (ELAM-1) ligand or following exposure of ECs to anti-ELAM-1 monoclonal antibody. Although suppressing TC-stimulated adhesion, L-NMMA failed to modify significantly cytokine-induced ELAM-1 expression in EA hyb 926. These results (a) provide evidence for the NO-inducible pathway contributing to cytokine-induced enhancement of tumor cell adhesion to the vascular endothelium and (b) demonstrate the involvement of the ELAM-1/CD15 adhesion system in tumor cell-stimulated adhesion to ECs.
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PMID:Involvement of nitric oxide in tumor cell adhesion to cytokine-activated endothelial cells. 128 56

The distribution of guanylate cyclase, phosphodiesterase, and NADPH-diaphorase [nitric oxide (NO) synthase] was studied in rat brain both at the light and electron microscopic level with special emphasis on the vascular system. We showed that the cGMP-generating enzyme is located in cells (glial cells and pericytes) surrounding cerebral vessels, but not in the endothelium. For NO synthase, a dual localization was observed. The enzyme is present in parts of the endothelium and in nerve endings apparently innervating larger brain vessels. We propose, therefore, that NO acts on guanylate cyclase both from a "synaptic" and endothelial source.
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PMID:Histochemistry of guanylate cyclase, phosphodiesterase, and NADPH-diaphorase (nitric oxide synthase) in rat brain vasculature. 128 93

Endothelin-1 is now known to synthesized in the kidney and influence the renal function. ET-1 mRNA was detected in glomerulus and inner medullary collecting ducts using RT-PCR technique. ETA receptor mRNA was detected only in glomerulus, vasa recta bundle, and arcuate artery. ETB receptor mRNA distributed mainly in glomerulus and collecting ducts. Endothelium derived relaxing factor (EDRF) was believed to be nitric oxide, was synthesized by nitric oxide (NO) synthase from L-arginine. NO stimulates soluble guanylate cyclase and increases cGMP level. NO synthase mRNA was detected in glomerulus and inner medulla. Soluble guanylate cyclase mRNA distributed widely along the nephron segments. NO and cGMP system seems to play some roles in modulating renal functions.
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PMID:[Endothelin, EDRF, CGRP]. 128 17

It is now well established that agonist activation of the PIP2/calcium cascade in the thyroid results in the enhancement of cGMP accumulation presumably by activation of the soluble guanylate cyclase. In many tissues the physiological signal controlling soluble guanylate cyclase is nitric oxide (NO) and its synthesis from arginine is controlled by the intracellular Ca2+. In this report we show results that suggest that NO may be the intermediate of the cGMP response to the activation of the PIP2/calcium cascade. In dog thyroid slices, incubation with carbamylcholine or A23187 increases significantly free intracellular Ca2+ levels and the cGMP content of the slices. NG-Monomethyl-L-arginine (NMMA), a competitive inhibitor of arginine for nitric oxide synthase, inhibited these cGMP responses but not the action of sodium nitroprusside which activates soluble guanylate cyclase directly. The inhibition was relieved by arginine. Methylene blue, which blocks the activation of soluble guanylate cyclase by NO, also decreased the three stimulatory effects. NMMA and methylene blue also decreased the basal levels of cGMP. NO may therefore be an important autocrine and paracrine factor in thyroid.
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PMID:Nitric oxide as a signal in thyroid. 128 93

Hepatocytes are known to synthesize nitric oxide (NO) from L-arginine via an inducible NO synthase. Studies were performed to determine the relationship between hepatocyte NO production and the stimulation of hepatocyte soluble guanylate cyclase. A combination of lipopolysaccharide (LPS), interferon-gamma, tumor necrosis factor, and interleukin-1 stimulates the biosynthesis of large quantities of nitrite and nitrate (NO2- + NO3-). Hepatocyte NO2- + NO3- production was associated with only small increases in intracellular guanosine 3',5'-cyclic monophosphate (cGMP) levels but much greater increases in extracellular cGMP release over an 18-h time period. This cGMP synthesis was dependent on the L-arginine concentration and was inhibited in a reversible manner by NG-monomethyl-L-arginine. The cytokines or LPS added alone induced small increases in nitrogen oxide production and concomitant minor elevations in cGMP release. Atrial natriuretic peptide also stimulated the release of cGMP by hepatocytes which appeared to be independent of the cytokine+LPS-induced cGMP release. The addition of probenecid reduced the cGMP release by 66%, while cell damage was excluded as a cause for the extracellular release. Addition of 3-isobutyl-1-methylxanthine, but not M&B 22948, increased hepatocyte intra- and extracellular cGMP levels after cytokine+LPS stimulation. Induction of nitrogen oxide synthesis by hepatocytes in vivo by injecting rats with killed Corynebacterium parvum resulted in increased cGMP levels in freshly isolated hepatocytes and increased cGMP release by the hepatocytes when placed in culture.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Association between synthesis and release of cGMP and nitric oxide biosynthesis by hepatocytes. 131 86

1. The possibility that transmission at some non-adrenergic, non-cholinergic (NANC) neuro-effector junctions is mediated by nitric oxide (NO) arose from the discoveries that NO mediated the effects of nitrovasodilator drugs and that endothelium-derived relaxing factor (EDRF) was NO or a NO-yielding substance. 2. NO donated by nitrovasodilator drugs or formed by endothelial cells activates soluble guanylate cyclase in smooth muscle and the consequent increase in cyclic guanosine monophosphate (cGMP) results in relaxation. The relaxations produced by stimulation of some NANC nerves are also due to a rise in cGMP. 3. The biosynthesis of NO by oxidation of a terminal guanidino nitrogen of L-arginine is inhibited by some NG-substituted analogues of L-arginine. These substances block EDRF formation by NO synthase and endothelium-dependent vasodilatation, and the blockade is overcome by L-arginine 4. NANC relaxations in some tissues are blocked by NG-substituted analogues of L-arginine and restored by L-arginine. Other agents that affect endothelium-dependent vasodilator responses produce corresponding changes in responses to stimulation of these NANC nerves. Such observations indicate that transmission is mediated by NO: we have termed this mode of transmission nitrergic. 5. There is evidence for nitrergic innervation of smooth muscle in the gastrointestinal tract, genito-urinary system, trachea and some blood vessels (penile and cerebral arteries). 6. The recognition of a mediator role for NO in neurotransmission calls for reconsideration of previously accepted generalizations about mechanisms of transmission. 7. Studies on nitrergic transmission will provide new insights into physiological control mechanisms and pathophysiological processes and may lead to new therapeutic developments.
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PMID:Nitrergic transmission: nitric oxide as a mediator of non-adrenergic, non-cholinergic neuro-effector transmission. 132 78

The involvement of nitric oxide (NO) in human GH-releasing hormone (hGHRH)-induced GH secretion was studied with freshly dissociated male rat pituitary cells. The cells were packed in a column of Bio-Gel-P2 and continuously perifused at 37 C. Hemoglobin (Hb; 10 microM), which is known to strongly bind NO, potentiated 0.01, 0.1, and 1 nM hGHRH-induced GH secretion by 73%, 52%, and 39%, respectively, without affecting the basal secretion of GH. As reported previously, 1-nM or higher concentrations of hGHRH elicit an increase in GH secretion during the application of hGHRH (on-response) and also a transient increase after the cessation of hGHRH application (off-response). It was found that Hb potentiated only the off-response in 1 nM hGHRH-induced GH secretion, and the same concentration of Hb had no effect on 10 nM hGHRH-induced GH secretion. N-Methyl-L-arginine (MeArg; 500 microM), a competitive inhibitor of NO synthase, also potentiated both the on- and off-responses of 1 nM hGHRH-induced GH secretion by 39% without affecting basal GH secretion. Since cAMP is thought to be an intracellular messenger of hGHRH action, the effects of Hb and MeArg on 1 mM (Bu)2AMP-induced GH secretion were examined. Their actions were found to be greater than those in hGHRH-induced GH secretion. Excess K+ (15 and 50 mM)-induced GH secretion, which does not involve cAMP, however, was not affected by either Hb or MeArg. In contrast, 3 mM sodium nitroprusside, which releases NO, suppressed the 1 nM hGHRH-induced off-response by 18%. The same concentration of sodium nitroprusside had no effect on excess K(+)-induced GH secretion. The effect of 8-bromo-cGMP on hGHRH-induced GH secretion was also examined, since NO is thought to exert its action through cGMP by activating guanylate cyclase in neural tissue. The application of 8-bromo-cGMP, however, did not affect 1 nM hGHRH-induced GH secretion. These observations suggest that hGHRH stimulates the synthesis of NO at least partly through cAMP, thereby partially inhibiting hGHRH-induced GH secretion.
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PMID:Involvement of nitric oxide in growth hormone (GH)-releasing hormone-induced GH secretion in rat pituitary cells. 133 Apr 92

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