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)

Recent in vivo and in vitro studies suggest that nitric oxide or a nitric-oxide-like substance mediates nonadrenergic, noncholinergic relaxation of trabecular smooth muscle through activation of the cyclic guanosine monophosphate (cGMP) pathway. In 60 Sprague-Dawley rats, we investigated the effect of intracavernous administration of different drugs known to act at different levels of the cyclic adenosine monophosphate (cAMP) and cGMP pathways. Neither cAMP nor drugs that stimulate adenylate cyclase activity (vasoactive intestinal peptide, prostaglandin E1, calcitonin gene-related peptide) provoked any change in the basal intracavernous pressure. N-ethylmaleimide, an inhibitor of the enzyme adenylate cyclase, did not modify the response to electrostimulation of the cavernous nerve, indicating that the cAMP pathway does not play a significant role in penile erection in rats. However, intracavernous administration of methylene blue, a guanylate cyclase inhibitor, significantly reduced the response to electrostimulation (p = 0.001). Direct intracavernous injection of cGMP caused a statistically significant, dose-dependent increase in intravenous pressure that was not significantly inhibited by methylene blue. Sodium nitroprusside, a nitric oxide releaser and therefore a guanylate cyclase activator, caused a dose-dependent increase in intracavernous pressure (p < 0.05) that was inhibited almost completely by methylene blue (p = 0.002), supporting the theory that nitric oxide activates the synthesis of cGMP and that cGMP causes cavernous smooth muscle relaxation. Papaverine elicited an intracavernous pressure increase that was not affected by methylene blue or N-ethylmaleimide, indicating that papaverine acts through an independent pathway.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cyclic guanosine monophosphate mediates penile erection in the rat. 790 62

The modulatory actions of nitric oxide on sensory nerves were investigated on dilator responses of the perfused rat mesentery to transmural nerve stimulation. N omega-nitro-L-arginine methyl ester (L-NAME), an inhibitor of nitric oxide synthesis, caused a significant augmentation of vasodilator responses to transmural nerve stimulation, an effect which was abolished by L-arginine. L-NAME had no effect on vasodilator responses to exogenous calcitonin gene-related peptide. In preparations without endothelium L-NAME still caused potentiation of vasodilator responses to transmural nerve stimulation. Methylene blue, an inhibitor of guanylate cyclase, also significantly enhanced vasodilator responses to transmural nerve stimulation. After pretreatment with diethyldithiocarbamate to inhibit superoxide dismutase, vasodilator responses to transmural nerve stimulation were also potentiated. This response was abolished by exogenous superoxide dismutase. These findings suggest that endogenous nitric oxide modulates, in an inhibitory fashion, the actions of sensory nerves in the rat mesentery. The results also suggest that endogenous superoxide dismutase may participate in the regulation of the actions of sensory nerves via control of cellular superoxide anion level.
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PMID:Nitric oxide modulates responses to sensory nerve activation of the perfused rat mesentery. 822 87

This study was designed to explore the effect of ginsenosides, saponins from Panax ginseng, on the vasodilator nerve actions in the rat perfused mesentery and the mechanism of this effect. In the rat perfusion mesentery, when adrenergic nerves were blocked by guanethidine (5 x 10(-6) M) and vascular muscle tone was increased with methoxamine (5 x 10(-6)-10(-5) M), transmural field stimulation produced a frequency-dependent vasodilator response, which is due to the release of calcitonin gene-related peptide; ginsenosides significantly suppressed this vasodilator response in a concentration-dependent manner (3-30 micrograms mL-1). After pretreatment with saponin (50 micrograms mL-1, 3 min) to damage endothelial cells, this suppressing effect of ginsenosides was unaltered. However, the effect was abolished by N omega-nitro-L-arginine methyl ester (L-NAME) (10(-4) M), an inhibitor of nitric oxide synthesis and addition of L-arginine (3 x 10(-4) M) restored this suppressing effect. Methylene blue (10(-5) M), an inhibitor of guanylate cyclase, also abolished the suppressing effect of ginsenosides. However, ginsenosides did not alter the relaxation responses caused by exogenous calcitonin gene-related peptide administration. We conclude that ginsenosides can produce an inhibitory effect on the vasodilator response prejunctionally in the rat perfused mesentery and that this effect of ginsenosides may be mediated by nitric oxide released from non-adrenergic, non-cholinergic nerves.
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PMID:Effects of ginsenosides on vasodilator nerve actions in the rat perfused mesentery are mediated by nitric oxide. 856 31

Levels of calcitonin gene-related peptide (CGRP), a vasodilator peptide present in nerves and airway endocrine cells of the rat respiratory tract, are increased in hypoxic lung and decreased in plasma, suggesting impaired CGRP release. We wanted to determine whether there was an adaptive functional response to reduced CGRP levels in hypoxia. Density of binding sites for CGRP were compared with its vascular actions following hypoxia, and with binding following administration of the sensory neurotoxin capsaicin to deplete neural CGRP. Autoradiography of lung sections incubated with 125I-labelled CGRP and other vasoactive peptides was used to quantify their binding sites, in male Wistar rats exposed to periods of hypoxia (inspiratory oxygen fraction (FI,O2) = 0.1) ranging 0-10 days (n = 5 each), in controls, and in rats treated neonatally with capsaicin. Relaxation to CGRP was compared in pulmonary artery of control and hypoxic rats. CGRP binding was seen in the vascular endothelium and was significantly elevated after 5 days of hypoxia (mean +/- SEM: control 4.6 +/- 0.4 versus hypoxic 16.6 +/- 2.4 amol.mm-2). CGRP-induced (5 x 10(-7)M) relaxation of pulmonary artery was reduced, compared with controls, following 8 and 21 days of hypoxia (mean +/- SEM) percentage of relaxation to phenylephrine: 78 +/- 3, 36 +/- 5 and 32 +/- 3, respectively) and was abolished by removal of endothelium. Capsaicin treatment also significantly elevated vascular CGRP binding. Atrial natriuretic peptide (ANP) binding levels were decreased in smooth muscle of all blood vessels after 7 days of hypoxia, but endothelin-1 (ET-1) and vasoactive intestinal peptide (VIP) binding was unchanged. We conclude that the vasodilator effects of CGRP are endothelium-dependent and, whilst they are reduced in hypoxic lung, this is not due to reduction in receptors, thereby implicating alterations in the nitric oxide guanylyl cyclase system. Furthermore, adaptive responses in some peptide binding sites occur in hypoxia, which may be due to changes in endogenous peptide levels.
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PMID:Decreased endothelium-dependent pulmonary vasodilator effect of calcitonin gene-related peptide in hypoxic rats contrasts with increased binding sites. 866 97

Cerebral vasodilator responses are often impaired following subarachnoid hemorrhage (SAH). Because depolarization of vascular muscle may occur after SAH, we tested in vivo the hypothesis that SAH may augment dilatation in response to hyperpolarization due to activation of K+ channels. Anesthetized rats were studied two days after injection of saline or autologous blood into the cisterna magna. Diameter of the basilar artery in vivo was 224 +/- 5 microns (mean +/- SE) in saline-treated rats and 201 +/- 6 microns in SAH rats (P < 0.05). In control rats, acetylcholine (ACh), sodium nitroprusside (SNP), aprikalim and calcitonin gene-related peptide (CGRP; both activators of ATP-sensitive K+ channels), papaverine, 8-bromoguanosine 3',5'-cyclic monophosphate (8-BrcGMP), and brain natriuretic peptide (BNP; an activator of particulate guanylate cyclase) produced concentration-dependent dilatation. In SAH rats, vasodilatation was impaired in response to ACh and SNP. In contrast, vasodilator responses to aprikalim and CGRP were augmented in SAH, rats (by two- to fourfold). Vasodilator responses to 8-BrcGMP, papaverine, and BNP were similar in both groups. Thus responses mediated by activation of soluble guanylate cyclase are selectively impaired by SAH, but responses to guanosine 3',5'-cyclic monophosphate are normal. Vasodilator responses to activation of ATP-sensitive K+ channels are augmented by SAH.
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PMID:Effect of subarachnoid hemorrhage on dilatation of rat basilar artery in vivo. 876 Jan 67

Sensory C-fibers have been implicated in the control of vascular tone and are believed to be predominantly arteriolar in the microvasculature. There have been no direct investigations into the effects of C-fiber activation in venous microvessels. Therefore, we have investigated the effects of neuropeptides and activation of sensory C-fibers in rat small mesenteric veins. Small second- or third-order veins were dissected from the rat mesentery and mounted in a tension myograph for measurement of reactivity. Neither substance P or calcitonin gene-related peptide (CGRP) relaxed precontracted veins. However, substance P caused a concentration-dependent contraction. The curve was shifted to the right in a concentration-dependent manner by the tachykinin neurokinin1 receptor antagonist RP 67,580 (0.1-1 microM). To activate sensory C-fibers, capsaicin was applied. Capsaicin had no contractile activity in these vessels but caused concentration-dependent relaxation. This response was significantly attenuated in veins taken from animals in which C-fibers had been largely destroyed (P < .001, n = 5) and in vessels that had been pretreated with the vanilloid receptor blocker ruthenium red (P < .01, n = 5). Endothelial denudation (n = 6) also abolished the response, but the nitric oxide synthase inhibitor N(G)-monomethyl-L-arginine (100 microM, n = 5) did not inhibit the response; N(omega)-nitro-L-arginine methyl ester (100-300 microM, n = 4) did inhibit the response. The guanylyl cyclase inhibitor 1H-[1,2,4]oxadiazolo[4,3-a]quinoxalin-1-one also significantly attenuated the response (n = 5). The cyclooxygenase inhibitor indomethacin (5 microM, n = 5) and the CGRP receptor antagonist CGRP(8-37) (1 microM) were without effect. These results demonstrate that capsaicin, a selective C-fiber activator, relaxes small veins in an endothelium-dependent but CGRP- and substance P-independent manner, and they demonstrate that the venous side of the microcirculation responds directly to sensory stimulation.
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PMID:Evidence for functional responses to sensory nerve stimulation of rat small mesenteric veins. 910 74

In isolated monkey lingual arteries denuded of the endothelium and contracted with prostaglandin F2alpha, transmural electrical stimulation produced a contraction that was reduced by prazosin and reversed to a relaxation by additional treatment with alpha,beta-methylene ATP. The relaxation thus induced was abolished by tetrodotoxin and N(G)-nitro-L-arginine (L-NNA), a nitric oxide (NO) synthase inhibitor, and L- but not D-arginine restored the response in the L-NNA-treated arteries. Under treatment with prazosin and alpha,beta-methylene ATP, the arterial strips responded to nicotine with a relaxation that was not influenced by atropine and timolol but was abolished by hexamethonium, oxyhemoglobin, and methylene blue. The nicotine-induced relaxation was abolished by L-NNA but not by N(G)-nitro-D-arginine and was reversed by L-arginine. Relaxations to exogenously applied NO (acidified NaNO2 solution) were not influenced by L-NNA but were abolished by oxyhemoglobin and methylene blue. The response was not affected in the strips made unresponsive to vasoactive intestinal polypeptide and calcitonin gene-related peptide by desensitization. Histochemical study demonstrated the presence of perivascular neurons containing neuronal NO synthase. It is concluded that monkey lingual arteries are innervated by vasoconstrictor nerves liberating norepinephrine and possibly ATP and also by nonadrenergic noncholinergic vasodilator nerves liberating NO as a neurotransmitter to activate soluble guanylate cyclase. Vasoactive intestinal polypeptide and calcitonin gene-related peptide do not appear to be involved in the neurogenic vasodilatation.
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PMID:Nitric oxide-mediated neurogenic vasodilatation in isolated monkey lingual arteries. 913 39

In arteries, adrenomedullin (ADM) causes relaxations of rings with and without endothelium by stimulating accumulation of cyclic nucleotides resulting from activation of the ADM and calcitonin gene-related peptide (CGRP) receptors. Experiments were designed to determine the mechanism(s) of relaxation to ADM in veins. Rings of canine femoral vein with and without endothelium were suspended in organ chambers for measurement of isometric force. Rings were contracted with prostaglandin F2alpha (2 x 10(-6) M), and cumulative dose-responses to ADM (10(-11) to 10(-7) M) were obtained in the absence or presence of indomethacin (10(-5) M), indomethacin + N(G)-monomethyl-L-arginine (10(-4) M), methylene blue (10(-5) M), particulate guanylate cyclase inhibitor HS-142-1 (10(-5) M), tetraethylammonium (TEA, 10(-2) M), CGRP-receptor antagonist (CGRP 8-37, 10(-6) M), ADM-receptor antagonist (ADM 26-52, 10(-6) M), diphenhydramine (10(-6) M), 8-phenyltheophylline (3 x 10(-6) M), or superoxide dismutase (150 U/ml) plus catalase (1,200 U/ml). ADM produced concentration-dependent relaxations only in veins with endothelium. Relaxations to ADM in rings with endothelium were significantly inhibited only by methylene blue and HS-142-1. In separate experiments, incubation of rings with ADM (10(-8) M) and 3-isobutyl-1-methyl-xanthine (10(-4) M) for 3 min did not significantly affect the accumulation of cyclic guanosine monophosphate (cGMP) and cyclic adenosine monophosphate (cAMP). These data suggest that ADM-mediated relaxation in veins is endothelium dependent and is not associated with activation of CGRP receptors or currently defined ADM receptors. Further, relaxations are not mediated by nitric oxide, indomethacin-sensitive prostanoids, TEA-sensitive hyperpolarizing factors, oxygen free radicals, or accumulation of cyclic nucleotides.
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PMID:Adrenomedullin-mediated relaxations in veins are endothelium-dependent and distinct from arteries. 938 54

During fetal life and the transition to extra-uterine air breathing, pulmonary vascular tone is regulated by a complex, interactive group of mechanisms. Arachidonic acid metabolites play an important role in this regulation. Although prostaglandins may not be central to regulation of the resting fetal pulmonary circulation, PGI2 acts to modulate tone and thereby maintain pulmonary vascular resistance relatively constant. PGI2 also may play an important role as one of the components involved in the major changes that occur with the onset of air breathing. Leukotrienes, also metabolites of arachidonic acid and potent smooth muscle constrictors, may play an active role in maintaining the normally high fetal pulmonary vascular resistance, because leukotriene receptor blockade or synthesis inhibition increases pulmonary blood flow about eight-fold; the presence of leukotrienes in fetal tracheal fluid further supports this. In addition to PGI2, vascular endothelial cells produce other vasoactive factors. These include potent vasodilators, such as endothelium-derived relaxing factor (EDRF). EDRF, known to be nitric oxide (NO) and often called endothelium-derived nitric oxide (EDNO), is produced by endothelial cells in response to varied stimuli, generally involving specific receptors and the activation of endothelial NO synthetase (eNOS); subsequent smooth muscle relaxation is produced by a NO/guanylyl cyclase/cGMP-mediated mechanism. NO clearly is involved in regulation of vascular tone in the fetal pulmonary circulation, although it plays a far more important role in the postnatal transition to air breathing. Superfused fetal sheep pulmonary arteries release NO when stimulated with bradykinin. In fetal lambs the vasodilating effects of bradykinin are attenuated by methylene blue and resting tone falls with N(omega)-nitro-L-arginine, an inhibitor of NO synthesis, suggesting that a NO/cGMP-dependent mechanism continuously modulates or offsets the increased tone of the resting fetal pulmonary circulation. Inhibition of NO synthesis blocks the pulmonary vasodilation with oxygenation of fetal lungs in utero. Shear stress-induced NO production as well as the relationship of oxygenation to NO production further support the important function of NO in the transition. Although endothelin-1 (ET-1) has potent vasoactivity as well as ontogenetic differences in effect on pulmonary vascular resistance, its exact physiological role has not been defined. Adrenomedullin and calcitonin gene-related peptide (CGRP), two additional vasoactive substances, have profound, and prolonged, vasodilating effects in the fetal pulmonary circulation. Their physiological roles have not yet been established.
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PMID:Control of the pulmonary circulation in the fetus and during the transitional period to air breathing. 1042 35

Recent data support a role for nitric oxide (NO) in pain processing at the level of the spinal cord, possibly via regulation of neuropeptide release. The goal of this study was to determine whether capsaicin, which selectively activates primary afferent neurons and evokes neuropeptide release, acts in an NO-dependent manner. Our results indicate that capsaicin (1 microM)-evoked release of immunoreactive calcitonin gene-related peptide (iCGRP) is significantly reduced in the presence of the NO synthase inhibitor, L-NAME (10-400 nM; F(3,45)=68.38; P<0.001) and, the selective nNOS inhibitor, 3-bromo-7-nitroindazole (170-680 nM; F(5,48)=56.2; P<0. 01). D-NAME (200 nM) had no effect on capsaicin-evoked iCGRP release. Hemoglobin (an extracellular scavenger of NO; 3 mg/ml) significantly reduced the effect of capsaicin on the release of iCGRP (F(1,8)=9.12; P<0.05). The NOS substrate, L-arginine, effectively reversed the inhibitory effect of 3-bromo-7-nitroindazole on capsaicin-evoked iCGRP release. To determine whether the NO-mediated release was NMDA-driven, we superfused spinal cord slices with competitive and non-competitive NMDA antagonists in the presence and absence of capsaicin. MK-801 (0. 1-10 microM; F(4,33)=8.49; P<0.0001) and AP-5 (0.01-10 microM; F(4, 38)=3.34; P<0.05) reduced capsaicin-evoked iCGRP release. CNQX, an AMPA/kainate antagonist (10 nM-10 microM), significantly decreased capsaicin-evoked release of iCGRP (F(6,42)=8.76; P<0.01) in a dose-dependent fashion. Additionally, our results demonstrate that while capsaicin-evoked release is significantly reduced in the presence of LY-83583 (10 microM; F(2,18)=3.46; P<0.01; a cyclic GMP lowering agent), there is no effect of ODQ (a potent and selective inhibitor of guanylate cyclase). Moreover, the application of a cell permeable analog of cyclic GMP (8-bromo-cGMP; 0.01-1000 microM) is without effect on both basal and evoked iCGRP release. Finally, we observed no colocalization of immunoreactive neuronal NOS (nNOS) with CGRP in the dorsal horn. In summary, these data indicate that capsaicin evokes the release of iCGRP, in part, via the production of NO which enters the extracellular space prior to having an effect. Moreover, iCGRP and nNOS are produced in distinct populations of neurons within the dorsal horn. We conclude that capsaicin-evoked release involves the activation of the NMDA receptor but is also modified by the activation of AMPA or kainate receptors. Finally, these data suggest that while capsaicin-evoked iCGRP release is modified by NO, this release does not require the activation of guanylate cyclase and subsequent production of cyclic GMP.
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PMID:Capsaicin-evoked release of immunoreactive calcitonin gene-related peptide from the spinal cord is mediated by nitric oxide but not by cyclic GMP. 1076 Apr 83


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