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)

Noradrenaline inhibits in rat islets the stimulation of insulin secretion induced by glucose and its potentiation by palmitate, but the signalling system responsible remains unknown. We have tested the hypothesis that noradrenaline-induced inhibition is mediated by an elevation of cyclic GMP (cGMP) levels. The analogue 8-Br-cGMP decreases dose-dependently the potentiation by palmitate of glucose-induced insulin secretion, whereas it only slightly affects the proper effect of glucose. Similarly, it abolishes palmitate acceleration of glucose-induced 45Ca2+ uptake without modifying the sugar effect. Finally, 8-Br-cGMP completely inhibits the stimulation of the lipid synthesis de novo induced by palmitate, but not that caused by glucose alone. On the other hand, noradrenaline increases dose-dependently islet cGMP content, with alpha 2-adrenergic specificity. As noradrenaline-induced elevation of cGMP is sensitive to pertussis toxin, it probably results from alpha 2-adrenoceptor activation of islet guanylate cyclase through a guanine nucleotide regulatory protein. It is concluded that the elevated cGMP levels mediate noradrenaline inhibition of lipid synthesis de novo, and hence of acceleration by palmitate of 45Ca2+ uptake and insulin secretion in the presence of glucose.
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PMID:Does cyclic guanosine monophosphate mediate noradrenaline-induced inhibition of islet insulin secretion stimulated by glucose and palmitate? 165 40

Norepinephrine-induced responses in isolated perfused mesenteric vascular bed from normotensive and renovascular hypertensive rats were examined in the presence of adenosine diphosphate (ADP, 2 x 10(-6) M). Responses to norepinephrine were significantly greater in vessels from hypertensive rats. Norepinephrine-induced contractions increased after the removal of endothelium. N omega-Nitro-L-arginine (L-NOARG), a potent inhibitor of nitric oxide formation, similarly increased contractions. The greatest responses were obtained, however, after treatment of the vascular segments with methylene blue. The presence of ADP caused significant endothelium-dependent decreases in contractions. Although decreases caused by ADP in vessels with endothelium after treatment with L-NOARG were not statistically significant, a tendency to decreased responses seems to suggest that L-NOARG diminishes but does not completely prevent the effect of ADP in mesenteric vessels. Methylene blue partially reduced the endothelium-dependent ADP-induced relaxant effects in sham-operated nephrectomized rats. A tendency to increased contractions to norepinephrine was observed in the presence of ADP after removal of endothelium. Thus, in the mesenteric resistance arteries of the rat under stimulation by ADP, it appears that nitric oxide released from L-arginine and the activity of soluble guanylate cyclase account only in part for the endothelium-dependent decreased responses to norepinephrine. When nitric oxide formation or soluble guanylate cyclase activity are depressed simultaneously with endothelium damage, ADP released from platelets or red blood cells may be an important factor that acts synergically with vasoconstrictor stimuli.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Endothelium-dependent and endothelium-independent effects of adenosine diphosphate in renovascular hypertension. 173 85

In order to investigate the involvement of endothelium-derived vasoactive substances in deoxycorticosterone acetate (DOCA)-salt hypertension, the responses to noradrenaline, acetylcholine, sodium nitroprusside and papaverine were studied in the absence and presence of indomethacin. Noradrenaline was equally effective in evoking a constrictor response of aorta, with or without endothelium, isolated from DOCA-salt hypertensive rats, while in controls, noradrenaline induced higher submaximal responses in rubbed than in unrubbed preparations. A decreased response to acetylcholine, an endothelium-dependent vasodilator, was observed in aorta with endothelium which had been precontracted with noradrenaline isolated from hypertensive rats. The relaxant response was lost after removal of the endothelium in both control and DOCA-salt hypertensive groups. The response to sodium nitroprusside, an endothelium-independent agent, in aorta isolated from hypertensive rats as well as the response to papaverine, an agent partially dependent on the endothelium, was not altered. Indomethacin treatment altered the response to noradrenaline only in unrubbed aorta of hypertensive rats. In these preparations, a biphasic response to noradrenaline was observed. At lower concentrations noradrenaline induced the characteristic constrictor response, while at higher concentrations a relaxant response was obtained that was abolished by methylene blue, a guanylate cyclase inhibitor. This could indicate that noradrenaline induced the release of endothelium-derived relaxing factor (EDRF) in aorta of hypertensive rats. Furthermore, indomethacin treatment restored the decreased response to acetylcholine in aorta isolated from DOCA-salt hypertensive rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Indirect evidence for an endothelium-derived contracting factor release in aorta of deoxycorticosterone acetate-salt hypertensive rats. 215 57

The renal and vascular responses to atrial natriuretic factor (ANF) and glomerular and vascular ANF receptors were studied in adrenalectomized (ADR) rats with or without deoxycorticosterone (DOC) or dexamethasone (Dexa) replacement therapy. As expected, adrenalectomy elicited hypotension, hemoconcentration, and increased plasma renin activity, but no changes in plasma levels of either ANF-(1-98) or ANF-(99-126) were detected. Dexa treatment decreased both ANF-(1-98) and ANF-(99-126), whereas DOC treatment increased only ANF-(1-98). The acute renal response to ANF and furosemide was reduced in ADR rats and partially restored either by steroid replacement or by raising blood pressure. The blunted natriuretic response to ANF in ADR rats was associated with an increased density of glomerular receptors. Norepinephrine-precontracted vascular strips from ADR rats were more sensitive to ANF (ED50: 1.7 x 10(-8) M) than those from sham-operated animals (ED50: 1.5 x 10(-7) M). However, vascular ANF receptor density in mesenteric vessels from ADR animals was decreased. Dexa treatment restored vascular response to that observed in sham-operated animals without a concomitant change in vascular receptor density. Because the presence of guanylate cyclase-coupled and noncoupled ANF receptor subtypes have been described in different tissues, we conclude that the apparent lack of correlation between the biological response to ANF and total binding of ANF to glomeruli or mesenteric artery membranes in ADR rats may be in part caused by a differential regulation of both receptor subtype populations.
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PMID:Glomerular and vascular atrial natriuretic factor receptors in adrenalectomized rats. 254 13

In order to investigate the presence of alpha-adrenergic receptors in human thyroid, we have studied the effect of alpha-adrenergic agonists and antagonists on cGMP cellular content of human thyroid cells in primary culture. Epinephrine as well as TSH were not able to modify the cGMP cellular levels, while norepinephrine significantly increased cGMP accumulation already at 10 nM, a dose inactive on cAMP accumulation. A non selective alpha-adrenergic antagonist, phentolamine, significantly inhibited cGMP accumulation induced by norepinephrine. Norepinephrine-induced cGMP accumulation was unaffected by prazosin, an alpha 1-adrenergic antagonist, but was abolished by yohimbine, an alpha 2-adrenergic antagonist. Phenylephrine, an alpha-adrenergic agonist, produced an increase of cellular cGMP levels without modifying cAMP content. In the presence of TSH, the cGMP response to norepinephrine was not modified; however, the increase of cAMP levels was inhibited by norepinephrine at doses inactive on cAMP accumulation, but active on cGMP levels. The present results demonstrate the existence in human thyroid cells of alpha 2-adrenergic receptors, regulating the guanylate cyclase system. It may be postulated that the counter-regulation exerted by alpha-adrenergic agonists on the response to TSH operates on the TSH-dependent adenylate cyclase.
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PMID:Evidence for alpha-adrenergic receptors acting through the guanylate cyclase system in human cultured thyroid cells. 613 25

Previous research indicates that norepinephrine and dopamine stimulate release of luteinizing hormone (LH)-releasing hormone (LHRH), which then reaches the adenohypophysis via the hypophyseal portal vessels to release LH. Norepinephrine exerts its effect via alpha 1-adrenergic receptors, which stimulate the release of nitric oxide (NO) from nitricoxidergic (NOergic) neurons in the medial basal hypothalamus (MBH). The NO activates guanylate cyclase and cyclooxygenase, thereby inducing release of LHRH into the hypophyseal portal vessels. We tested the hypothesis that these two catecholamines modulate NO release by local feedback. MBH explants were incubated in the presence of sodium nitroprusside (NP), a releaser of NO, and the effect on release of catecholamines was determined. NP inhibited release of norepinephrine. Basal release was increased by incubation of the tissue with the NO scavenger hemoglobin (20 micrograms/ml). Hemoglobin also blocked the inhibitory effect of NP. In the presence of high-potassium (40 mM) medium to depolarize cell membranes, norepinephrine release was increased by a factor of 3, and this was significantly inhibited by NP. Hemoglobin again produced a further increase in norepinephrine release and also blocked the action of NP. When constitutive NO synthase was inhibited by the competitive inhibitor NG-monomethyl-L-arginine (NMMA) at 300 microM, basal release of norepinephrine was increased, as was potassium-evoked release, and this was associated in the latter instance with a decrease in tissue concentration, presumably because synthesis did not keep up with the increased release in the presence of NMMA. The results were very similar with dopamine, except that reduction of potassium-evoked dopamine release by NP was not significant. However, the increase following incubation with hemoglobin was significant, and hemoglobin, when incubated with NP, caused a significant elevation in dopamine release above that with NP alone. In this case, NP increased tissue concentration of dopamine along with inhibiting release, suggesting that synthesis continued, thereby raising the tissue concentration in the face of diminished release. When the tissue was incubated with NP plus hemoglobin, which caused an increase in release above that obtained with NP alone, the tissue concentration decreased significantly compared with that in the absence of hemoglobin, indicating that, with increased release, release exceeded synthesis, causing a fall in tissue concentration. When NO synthase was blocked by NMMA, the release of dopamine, under either basal or potassium-evoked conditions, was increased. Again, in the latter instance the tissue concentration declined significantly, presumably because synthesis did not match release. Therefore, the results were very similar with both catecholamines and indicate that NO acts to suppress release of both amines. Since both catecholamines activate the release of LHRH, the inhibition of their release by NO serves as an ultra-short-loop negative feedback by which NO inhibits the release of the catecholamines, thereby reducing the activation of the NOergic neurons and decreasing the release of LHRH. This may be an important means for terminating the pulses of release of LHRH, which generate the pulsatile release of LH that stimulates gonadal function in both male and female mammals.
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PMID:Nitric oxide inhibits the release of norepinephrine and dopamine from the medial basal hypothalamus of the rat. 747 83

Available studies indicate that the adrenergic stimulation of pineal cyclic GMP production involves stimulation of guanylyl cyclase activity by nitric oxide (NO) derived from arginine. This line of investigation was extended in the present study. Using a highly sensitive microassay, it was found that pineal NO synthase activity is present at levels approximately 30% of those in the cerebellum, that approximately 95% of enzyme activity is cytoplasmic, that the enzyme is Ca2+/calmodulin-dependent and that enzyme activity is inhibited by the arginine analog NG-nitro-L-arginine methyl ester (L-NAME). Norepinephrine treatment of intact glands in culture increased [3H]citrulline formation from [3H]arginine. This treatment also increased the formation of an NO-like compound, indicating that NO synthase activity in the intact gland is elevated by adrenergic stimulation. Studies on the effects of inhibition of NO synthase activity indicated that treatments known to inhibit NO synthase activity and the adrenergic stimulation of cyclic GMP accumulation did not inhibit adrenergic stimulation of pineal cyclic AMP, N-acetyltransferase activity or melatonin production. These observations support the hypothesis that NE stimulation of pineal cyclic GMP accumulation involves stimulation of a Ca2+/calmodulin-sensitive form of NO synthase, resulting in enhanced accumulation of NO; and, that although NO appears to play a role in the adrenergic stimulation of pineal cyclic GMP accumulation, it does not appear to play a critical role in the adrenergic stimulation of cyclic AMP, N-acetyltransferase activity or melatonin production.
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PMID:Pineal nitric oxide synthase: characteristics, adrenergic regulation and function. 752 30

The aim of this study was to examine the effects of endothelin-1 (ET-1) on sodium nitroprusside (SNP) induced relaxation and cyclic 3',5'-guanosine monophosphate (cGMP) accumulation in human pulmonary vessels. The basal levels of cGMP were similar in arteries (2.48 +/- 0.24 pmol/mg protein; n = 7) and veins (3.25 +/- 0.24 pmol/mg protein; n = 7). In tissues (n = 7) treated with N omega-nitro-L-arginine and indomethacin, cGMP values were significantly reduced (arteries, 1.30 +/- 0.24 pmol/mg protein and veins, 1.95 +/- 0.28 pmol/mg protein). In treated tissues, SNP (10 microM) increased the cGMP level by 10-fold in arteries and veins. ET-1 (0.02 and 0.2 microM) reduced significantly the cGMP increase in SNP-stimulated vessels. This inhibition was greater in veins (76%) when compared with arteries (34%). Norepinephrine (10 microM) did not affect the cGMP levels. The sensitivity and the maximal relaxation induced by SNP in veins contracted with ET-1 (0.2 microM) was significantly diminished (in comparison with norepinephrine; 10 microM). In arteries, SNP relaxations were not altered by ET-1 contraction. Inasmuch as 8-bromo-cyclic 3',5' guanosine monophosphate curves were not altered by ET-1 treatment in either arteries or veins, the relaxant mechanisms that are downstream of guanylate cyclase activation apparently are not affected. These results suggest that ET-1 may play a role in the control of muscle tone in the human pulmonary vascular bed by modifying cGMP levels associated with vasorelaxant agonist stimulation.
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PMID:Endothelin-1 modulates cyclic GMP production and relaxation in human pulmonary vessels. 763 61

To directly assess insulin-related venomotor changes objectively and quantitatively, we used a modified ultrasonographic technique to measure venous diameter. Ten healthy men and women were studied by use of an Acuson 128 XP ultrasonograph with a linear 7.5-MHz ultrasonographic transducer (sensitivity, +/- 0.1 mm). Venous diameter was measured with the arm kept at 30 degrees elevation and with a pneumatic cuff above the elbow inflated at 40 mm Hg for the last 2 minutes of each 5-minute observation period. Norepinephrine was infused at incremental concentrations of 12.5, 25, 50, and 100 ng/min (75, 150, 300, and 600 pmol/min, respectively) for 5 minutes each. Maximal venoconstriction was achieved by the dose of 100 ng/min norepinephrine, which was then combined with insulin doses of 8, 16, 24, and 32 microU/min (60, 120, 180, and 230 fmol/min, respectively) for 5 minutes each. In six different subjects, methylene blue, an inhibitor of guanylate cyclase, was infused simultaneously with 32 microU/min insulin and 100 ng/min norepinephrine. Mean resting diameter of the vein (1.8 +/- 0.6 mm [mean +/- SD]) increased (to 3.0 +/- 1.0 mm) after cuff inflation. Incremental doses of norepinephrine caused highly reproducible dose-dependent decrease in venous diameter (to 1.8 +/- 0.6 mm, P < .001). Incremental doses of insulin, when combined with the maximum dose of norepinephrine, caused highly reproducible dose-dependent increases in mean venous diameter (P < .001) compared with norepinephrine alone. Methylene blue, which had no independent effect on venous diameter, inhibited the venodilator effect of insulin (P < .05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Insulin attenuates norepinephrine-induced venoconstriction. An ultrasonographic study. 772 32

It has previously been shown that alcohol can suppress reproduction in humans, monkeys, and small rodents by inhibiting release of luteinizing hormone (LH). The principal action is via suppression of the release of LH-releasing hormone (LHRH) both in vivo and in vitro. The present experiments were designed to determine the mechanism by which alcohol inhibits LHRH release. Previous research has indicated that the release of LHRH is controlled by nitric oxide (NO). The proposed pathway is via norepinephrine-induced release of NO from NOergic neurons, which then activates LHRH release. In the present experiments, we further evaluated the details of this mechanism in male rats by incubating medial basal hypothalamic (MBH) explants in vitro and examining the release of NO, prostaglandin E2 (PGE2), conversion of arachidonic acid to prostanoids, and production of cGMP. The results have provided further support for our theory of LHRH control. Norepinephrine increased the release of NO as measured by conversion of [14C]arginine to [14C]citrulline, and this increase was blocked by the alpha 1 receptor blocker prazosin. Furthermore, the release of LHRH induced by nitroprusside (NP), a donor of NO, is related to the activation of soluble guanylate cyclase by NO since NP increased cGMP release from MBHs and cGMP also released LHRH. Ethanol had no effect on the production of NO by MBH explants or the increased release of NO induced by norepinephrine. Therefore, it does not act at that step in the pathway. Ethanol also failed to affect the increase in cGMP induced by NP. On the other hand, as might be expected from previous experiments indicating that LHRH release was brought about by PGE2, NP increased the conversion of [14C]arachidonic acid to its metabolites, particularly PGE2. Ethanol completely blocked the release of LHRH induced by NP and the increase in PGE2 induced by NP. Therefore, the results support the theory that norepinephrine acts to stimulate NO release from NOergic neurons. This NO diffuses to the LHRH terminals where it activates guanylate cyclase, leading to an increase in cGMP. At the same time, it also activates cyclooxygenase. The increase in cGMP increases intracellular free calcium, activating phospholipase A2 to provide arachidonic acid, the substrate for conversion by the activated cyclooxygenase to PGE2, which then activates the release of LHRH. Since alcohol inhibits the conversion of labeled arachidonic acid to PGE2, it must act either directly to inhibit cyclooxygenase or perhaps it may act by blocking the increase in intracellular free calcium induced by cGMP, which is crucial for activation of of both phospholipase A2 and cyclooxygenase.
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PMID:Ethanol inhibits luteinizing hormone-releasing hormone (LHRH) secretion by blocking the response of LHRH neuronal terminals to nitric oxide. 772 77


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