EC:4.6.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

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

Nitric oxide is a newly recognized cell messenger for the activation of soluble guanylate cyclase and is produced from L-arginine by the enzyme nitric oxide synthase in a wide variety of tissues, including vascular endothelium and brain. Inhalational anesthetics inhibit nitric oxide production from vascular endothelium and also decrease resting cyclic guanosine monophosphate content in multiple brain regions. Halothane has been shown to depress neurotransmission by L-glutamate and N-methyl-D-aspartate. These amino acid neurotransmitters are known to increase neuronal cyclic guanosine monophosphate content by stimulation of nitric oxide production. To investigate the possible involvement of the L-arginine-to-nitric oxide pathway in the anesthetic state, the effect of a specific nitric oxide synthase inhibitor, nitroG-L-arginine methyl ester, on the minimum alveolar concentration (MAC) for halothane anesthesia was determined in Sprague-Dawley rats. Bolus injection of nitroG-L-arginine methyl ester at 0, 1, 5, 10, 20, and 30 mg/kg resulted in a dose-dependent reduction in MAC for halothane of 0 +/- 0, 2.3 +/- 0.4, 21.5 +/- 3.9, 30.5 +/- 2.4, 51.0 +/- 7.8, and 26.0 +/- 2.8%, respectively. NitroG-L-arginine methyl ester had no effect on MAC for halothane. Bolus infusion of L-arginine 300 mg/kg after MAC reduction by nitroG-L-arginine methyl ester 10 mg/kg resulted in an immediate and complete reversal of the MAC reduction. No reversal was observed after infusion of D-arginine 300 mg/kg.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nitric oxide synthase inhibitor dose-dependently and reversibly reduces the threshold for halothane anesthesia. A role for nitric oxide in mediating consciousness? 138 99

1. Relaxant responses to nitroprusside were examined on U46619-contracted pulmonary artery ring preparations from rats exposed to hypoxia, in chambers containing 10% oxygen, for 1, 3, or 14 days, or for 14 days followed by 12 days in room air. Control rats were housed in room air. 2. After 3 days of hypoxia (but not 1 day), rats had elevated pulmonary artery pressure, right ventricular hypertrophy and polycythemia. After 14 days of hypoxia there was, in addition, hypertrophy of the pulmonary artery. In rats returned to room air for 12 days after 14 days of hypoxia, there was still some right ventricular and vascular hypertrophy but no increase in pulmonary artery pressure or polycythemia. 3. The potency (neg log EC50) of nitroprusside on pulmonary arteries taken from rats after 3 or 14 days of hypoxia was significantly less than on preparations from control rats (3 and 11 fold, respectively). This was not seen after 1 day of hypoxia or after 14 days of hypoxia followed by 12 days in room air. Removal of the endothelium from the preparations had no effect on the potency of nitroprusside in control or hypoxic rats (14 days). 4. In preparations from hypoxic, but not control, rats (14 days), the maximum response to nitroprusside was > 100% (177% reversal of the U46619 contraction) in the absence, but not in the presence, of the endothelium, indicating that pulmonary arteries from hypoxic rats had inherent tone which could be counteracted by a relaxing factor from the endothelium. 5. Exposure of rats to hypoxia (14 days) did not affect the potency of nitroprusside on aorta or trachea.6. It is concluded that exposure of rats to hypoxia results in reversible desensitization of the vascular smooth muscle of pulmonary artery to nitroprusside. The time course of this desensitization suggests that it is probably associated with the elevated pulmonary artery pressure or maintained hypoxaemia rather than with the vascular hypertrophy.7. It is postulated that the increase in pulmonary artery pressure and/or the maintained hypoxaemia may cause chronic release of nitric oxide from the pulmonary vascular endothelium or smooth muscle resulting in desensitization of soluble guanylate cyclase to the action of nitroprusside.
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PMID:Reduced relaxant potency of nitroprusside on pulmonary artery preparations taken from rats during the development of hypoxic pulmonary hypertension. 142 89

The vascular endothelium plays an essential role in regulating the contractility of the adjacent smooth muscle cell through its secretory and metabolic properties. One of these well known properties is the conversion of angiotensin I into angiotensin II. But the endothelium also secretes at least three compounds able to diffuse to the smooth muscle cell and exerting a paracrine action: these are the prostacyclin (PGI2), the endothelium derived relaxing factor (EDRF) and the endothelin 1. The secretion of these different vasoactive compounds by endothelial cells is triggered by mechanical events, such as the shear stress, or by the effect of several humoral factors locally released, for example from platelets. The compound NO (nitric oxide) is produced by the endothelial enzyme NO synthase from its precursor L-arginine, and is responsible for the vasodilatory and antiplatelets properties of EDRF. NO, by activating the soluble guanylate cyclase in the smooth muscle cell, is responsible for the endothelium dependent vasodilatation. We observed in an isolated perfused rat kidney that the compound L-NAME (NG-monomethyl-L-arginine methyl ester), a competitive inhibitor of NO synthase blocking the production of NO, induces renal vasoconstriction and inhibits renin release. This suggests that not only the renal vasoconstriction but also the renal vasodilatation are active processes, permanently regulated by vasoactive compounds such as EDRF. It seems also that EDRF plays an important role in maintaining the secretion of renin. It can be hypothetized that an abnormality in the release or fate of EDRF might perhaps contribute to high blood pressure, by both a direct effect on the vascular tone and an indirect effect on the release of renin, which in turn regulates also the renal and systemic hemodynamics.
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PMID:[Control of vascular tone by the endothelium: the coupling active vasodilation in the kidney to renin secretion]. 163 4

1. Perfusion of the kidney with methylene blue, a soluble guanylate cyclase inhibitor, significantly enhanced the vasoconstrictor effects of angiotensin II, noradrenaline and phenylephrine but significantly reduced the vasodilator effect of acetylcholine without altering that of iloprost. 2. In the kidneys, which were perfused with Triton X-100 to remove endothelium, acetylcholine-induced vasodilation was completely abolished and angiotensin II-, noradrenaline- and phenylephrine-induced vasoconstriction was greatly reduced. 3. The vasodilator effect of iloprost was unchanged after perfusion of kidney with Triton X-100. 4. Neither methylene blue nor Triton X-100 significantly altered urine volume form normal and angiotensin II induced increase of urine volume. 5. These results were taken as evidence for the involvement of renal vascular endothelium originated EDRF in the responses of various vasoactive agents in the rabbit isolated perfused kidney.
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PMID:Possible involvement of endothelium in the responses of various vasoactive agents in rabbit isolated perfused kidney. 169 98

Left kidneys obtained from male Wistar rats were perfused with Tyrode solution; the perfusion pressure was measured continuously and taken as an index of vascular resistance in the kidneys. 5-Hydroxytryptamine (5-HT; 3-50 nmol) caused dose-dependent dilator responses in kidneys preconstricted with noradrenaline (0.6 microM) and pretreated with ritanserin (10 nM) and ICS 205930 (10 nM). The 5-HT1 agonist 5-carboxamidotryptamine (5-CT; 16-64 nmol) also caused renal dilatations under similar conditions. The dilator responses to both 5-HT and 5-CT were antagonized by the non-selective 5-HT receptor antagonist metergoline (0.2 microM) and by the selective 5-HT1A receptor antagonist BMY 7378 (0.4 microM). The guanylate cyclase inhibitor methylene blue (30 microM) and the nitric oxide (NO) synthase inhibitor nitro-L-arginine (L-NNA; 100 microM) significantly attenuated the dilator responses to 5-HT and 5-CT. The 5-HT1A agonist 8-hydroxy-2-(di-n-propylamino)tetralin (8-OH-DPAT; 0.5-16 nmol) also caused dose-dependent dilator responses in preconstricted rat kidneys. These responses were antagonized by metergoline and BMY 7378 and significantly attenuated by the NO inhibitors hemoglobin (10 microM) and L-NNA. The renal dilator responses noted with the beta-adrenoceptor blocker tertatolol (1-32 nmol) were also antagonized by metergoline and BMY 7378 and significantly reduced by L-NNA and hemoglobin. Both 8-OH-DPAT and tertatolol (1-30 microM) significantly reduced the vasoconstrictor responses to angiotensin II (20 pmol). Our data indicate that 5-HT receptors located on the vascular endothelium of the renal circulation are involved in the dilator actions of 5-HT, 5-CT, 8-OH-DPAT and tertatolol, and suggest that these receptors resemble the 5-HT1A subtype.
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PMID:5-Hydroxytryptamine-induced vasodilatation in the isolated perfused rat kidney: are endothelial 5-HT1A receptors involved? 183 83

The osteoclast is unique in its ability to resorb bone, and excessive osteoclastic activity has been implicated in osteoporosis, Paget disease of bone, rheumatoid arthritis, and the growth of metastases in bone. The activity of this cell is controlled by the main circulating inhibitor, calcitonin, in association with locally produced modulators. We show that nitric oxide (NO) may be an important member of the latter group. NO is produced by the vascular endothelium and nervous system and is involved in both neurotransmission and the regulation of blood pressure. However, our results show that the autocoid is also a potent inhibitor of osteoclast function. NO (30 microM) produced a decrease to approximately 50% of the original osteoclast spread area. Similar effects were also produced by 3-morpholinosydnonimine or sodium nitroprusside, reagents that spontaneously release NO. These shape changes were associated with a reduction of bone resorption after a 24-hr incubation of isolated osteoclasts on devitalized bone slices. NO is thought to act by stimulating guanylate cyclase, with a consequent increase in cyclic GMP, but a different mode of action is likely in the osteoclast since dibutyryl or 8-bromo cyclic GMP have no effect. It should be noted that calcitonin can produce similar changes in shape and activity but is associated with an increase in osteoclast intracellular calcium and cessation of membrane movement; neither of these is produced by NO, suggesting that its mode of action is different. The abundance of NO-producing endothelial cells in bone marrow and their proximity to osteoclasts suggests that marrow endothelial cells may play a physiological role in the regulation of osteoclastic activity.
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PMID:Osteoclastic inhibition: an action of nitric oxide not mediated by cyclic GMP. 184 81

Key discoveries in the past decade revealed that the endothelium can modulate the tone of underlying vascular smooth muscle by the synthesis/release of potent vasorelaxant (endothelium-derived relaxing factors; EDRF) and vasoconstrictor substances (endothelium-derived contracting factors; EDCF). It has become evident that the synthesis and release of these substances contribute to the multitude of physiological functions the vascular endothelium performs. Accumulating evidence suggests that at least one of the EDRFs is identical with nitric oxide (NO) or a labile nitroso compound, which is produced from L-arginine by an NADPH- and Ca(2+)-dependent enzyme, arginine oxidase. The existence of more than one chemically distinct EDRF has been proposed, including an endothelium-derived hyperpolarizing factor (EDHF). The target of EDRF (NO) is soluble guanylate cyclase (increase in cyclic GMP) while EDHF appears to activate a K(+)-channel in vascular smooth muscle. Recent data suggest that muscarinic receptor subtypes selectively mediate the release of EDRF(NO) (M2) and EDHF (M1). EDRF(NO) affects not only the underlying vascular smooth muscle, but also platelets, inhibiting their aggregation and adhesion to the endothelium. The antiaggregatory effect of EDRF is synergistic with prostacyclin, so their combined release may represent a physiological mechanism aimed at preventing thrombus formation. An additional proposed biological function of EDRF(NO) is cytoprotection by virtue of scavenging superoxide radicals. The endothelium can also mediate vasoconstriction by the release of a variety of endothelium-derived contracting factors (EDCF). Other than the unique peptide endothelin, the nature of EDCFs has not yet been firmly established. Autoregulation of cerebral and renal blood flow and hypoxic pulmonary vasoconstriction may represent the physiological role of endothelium-dependent vasoconstriction. Growing evidence indicates that the endothelium can serve as a unique mechanoreceptor, sensing and transducing physical stimuli (e.g., shear forces, pressure) into changes in vascular tone by the release of EDRFs or EDCFs. In physiological states, a delicate balance exists between endothelium-derived vasodilators and vasoconstrictors. Alterations in this balance can result in local (vasospasm) and generalized (hypertension) increase in vascular tone and also in facilitated thrombus formation. Endothelial dysfunction may also contribute to the pathophysiology of angiopathies associated with hypercholesterolemia and atherosclerosis.
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PMID:Endothelium-derived relaxing and contracting factors. 187 96

Since thrombin causes an endothelium-dependent relaxation of precontracted pig coronary arteries, the ability of thrombocytin, a serine proteinase from the venom of the common lancehead, Bothrops atrox, to induce endothelium-dependent changes in the vascular tone was investigated. Relaxation of pig coronary rings did not appear in vessels denuded of the endothelium. Thrombocytin (0.1-2.0 micrograms/ml) caused an endothelium-dependent, reversible, transient relaxation of PGF2 alpha-precontracted arteries which could be blocked by heparin and relatively high concentrations of alpha-NAPAP, a synthetic competitive thrombin inhibitor. Indomethacin and hirudin did not influence the relaxant effect. Both the thrombocytin- and bradykinin-induced relaxation were diminished by the guanylate cyclase inhibitor methylene blue and by NG-monomethyl-L-arginine. The thrombocytin-induced relaxation was absent in de-endothelialized vessels. Thrombocytin was able to induce aggregation of human blood platelets in Tyrode's solution at the same concentration range as used for the relaxation. Batroxobin neither relaxed precontracted arteries nor aggregated human blood platelets in vitro. The present studies show that the serine proteinase thrombocytin is not only able to aggregate platelets but may also release endothelium-derived relaxing factor from the vascular endothelium.
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PMID:Endothelium-dependent relaxant effect of thrombocytin, a serine proteinase from Bothrops atrox snake venom, on isolated pig coronary arteries. 192 73

1. Interactions between the synthesis of myo-inositol 1,4,5-trisphosphate (IP3) and guanosine 3':5'-cyclic monophosphate (cyclic GMP) in the smooth muscle cells of the rabbit aorta were investigated. 2. In the presence or absence of vascular endothelium, noradrenaline (NA; 5 microM) consistently reduced the amount of phosphatidylinositol 4,5-bisphosphate (PI-P2) and increased both phosphatidic acid (PA) and IP3. 3. In the presence or absence of endothelium, acetylcholine (ACh; 100 microM but not 5 microM) slightly increased the amount of IP3, but exposure to ACh (100 microM) 4 min after application of NA did not modify NA-induced synthesis of IP3. 4. ACh (100 microM) markedly enhanced the synthesis of cyclic GMP in the presence of endothelium but not in the endothelium-denuded tissues. 5. Prazosin (5 microM) but not dibutyryl cyclic GMP (db-cyclic GMP; 100 microM) blocked the hydrolysis of PI-P2 induced by 5 microM NA. Synthesis of IP3 induced by NA, as estimated with [3H]-inositol was not modified by application of 100 microM db-cyclic AMP or db-cyclic GMP. 6. alpha-Human atrial natriuretic peptide (alpha-hANP; 0.1 microM) increased cyclic GMP in the presence or absence of endothelium. alpha-hANP (0.1 microM) consistently inhibited the hydrolysis of PI-P2 induced by 5 microM NA. 7. The results indicate that synthesis of IP3 is inhibited neither by the synthesis of cyclic GMP in the cytosol nor by cyclic GMP itself. However, synthesis of IP3 through hydrolysis of PI-P2 may be inhibited by an interaction between some steps in the IP3 synthetic process and by the activation of the alpha-hANP-guanylate cyclase process at the sarcolemma.
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PMID:Inhibitory action of alpha-human atrial natriuretic peptide on noradrenaline-induced synthesis of myo-inositol 1,4,5-trisphosphate in the smooth muscle cells of rabbit aorta. 197 Apr 98

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