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)

1. In airway epithelium, nitric oxide (NO) is synthesized in the setting of inflammation by inducible nitric oxide synthase (iNOS). Although the role of epithelial derived NO in the regulation of human airways is unknown, prostaglandin E2 (PGE2) is recognised as an important inhibitory mediator in human airways. Cyclo-oxygenase (COX) is the rate limiting enzyme in the production of prostanoids and since inflammatory pathways enhance the expression of an inducible COX (COX-2), both COX-2 and iNOS may be co-expressed in response to an inflammatory stimulus. Although regulation of the COX-2 pathway by NO has been demonstrated in animal models, its potential importance in human airway epithelium has not been investigated. 2. The effect of endogenous and exogenous NO on the COX-2 pathway was investigated in the A549 human airway epithelial cell culture model. Activity of the COX-2 pathway was assessed by PGE2 EIA, and iNOS pathway activity by nitrite assay. A combination cytokine stimulus of interferon gamma (IFNgamma) 100 u ml(-1), interleukin-1beta (IL-1beta) 1 u ml(-1) and lipopolysaccharide (LPS) 10 microg ml(-1) induced nitrite formation which could be inhibited by the competitive NOS inhibitor N(G)-nitro-L-arginine-methyl-ester (L-NAME). IL-1beta alone (1-50 u ml(-1) induced PGE2 formation without significant nitrite formation, a response which was inhibited by the COX-2 specific inhibitor nimesulide. Submaximal stimuli used for further experiments were IFNgamma 100 u ml(-1), IL-1beta 1 u ml(-1) and LPS 10 microg ml(-1) to induce both the iNOS and COX-2 pathways, and IL-1beta 3 u ml(-1) to induce COX-2 without iNOS activity. 3. Cells treated with IFNgamma 100 u ml(-1), IL-1beta I u ml(-1) and LPS 10 microg ml(-1) for 48 h either alone, or with the addition of L-NAME (0 to 10(-2) M), demonstrated inhibition by L-NAME of PGE2 (3.61 +/- 0.55 to 0.51 +/- 0.04 pg/l0(4) cells; P<0.001) and nitrite (34.33 +/- 8.07 to 0 pmol/10(4) cells; P<0.001) production. Restoration of the PGE2 response (0.187 +/- 0.053 to 15.46 +/- 2.59 pg/10(4) cells; P<0.001) was observed after treating cells with the same cytokine stimulus and L-NAME 10(-6) M, but with the addition of the NOS substrate L-arginine (0 to 10(-5) M). 4. Cells incubated with IL-1beta 3 u ml(-1) for 6 h, either alone or with addition of the NO donor S-nitroso-acetyl-penicillamine (SNAP) (0 to 10(-4) M), demonstrated increased PGE2 formation (1.23 +/- 0.03 to 2.92 +/- 0.19 pg/10(4) cells; P< 0.05). No increase in PGE2 formation was seen when the experiment was repeated in the presence of the guanylate cyclase inhibitor methylene blue (50 microM). Cells treated with SNAP alone did not demonstrate an increased PGE2 formation. Cells incubated with IL-1beta 3 u ml(-1) for 6 h in the presence of dibutyryl cyclic guanylate monophosphate (0 to 10(-3) M) also demonstrated an increased PGE2 response (2.56 +/- 0.21 to 4.53 +/- 0.64 pg/10(4) cells; P<0.05). 5. These data demonstrate that in a human airway epithelial cell culture system, both exogenous and endogenous NO increase the activity of the COX-2 pathway in the setting of inflammatory cytokine stimulation, and that this effect is likely to be mediated by guanylate cyclase. This suggests a role for NO in the regulation of human airway inflammation.
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PMID:Regulation of the inducible cyclo-oxygenase pathway in human cultured airway epithelial (A549) cells by nitric oxide. 925 31

Acute lung injury (ALI) is characterized by pulmonary hypertension. Although the pathophysiology of ALI is complex, cytokine production, especially tumor necrosis factor-alpha (TNF-alpha), is known to mediate histologic lung injury. Pentoxifylline (PTX) is known to inhibit the expression of many cytokines, including TNF-alpha. The purpose of this study was to determine the effect of PTX treatment on endotoxin-induced impairment of endothelium-dependent mechanisms of pulmonary vasorelaxation. Mechanisms of endothelium-dependent relaxation were studied with the muscarinic receptor agonist, acetylcholine (ACh), and the receptor-independent calcium ionophore, A23187. Endothelium-independent pulmonary vasorelaxation was examined by direct stimulation of smooth muscle guanylate cyclase with the nitric oxide donor, sodium nitroprusside (SNP). Five rats received PTX (50 mg/kg) and endotoxin (20 mg/kg), endotoxin alone, or saline ip. After 6 hr, dose-response curves to ACh, A23187, and SNP were determined in isolated pulmonary artery rings preconstricted with phenylephrine (PE). PTX attenuated but did not eliminate endotoxin-induced impairment of endothelium-dependent and -independent pulmonary vasorelaxation. These data suggest that PTX may offer a therapeutic modality for the treatment of pulmonary hypertension in ALI.
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PMID:Pentoxifylline treatment attenuates pulmonary vasomotor dysfunction in acute lung injury. 929 83

Gonadal function is known to be controlled by many factors, including locally acting cytokines like tumor necrosis factor alpha (TNF alpha). One of the ways this cytokine acts is via the nitric oxide (NO)-cGMP pathway. Since we have shown that in the ovary theca cells are a target of TNF alpha's action, it was of interest to determine whether TNF alpha stimulates the NO-cGMP pathway in these cells and whether such a mechanism can be implicated in the observed TNF alpha-mediated inhibition of LH-stimulated prorenin synthesis and secretion. Treatment of isolated theca cells with TNF alpha resulted in a dose- and time-dependent increase in cGMP production. This increase was not detectable until 6 h after the addition of TNF alpha and was totally abolished by the protein synthesis inhibitor cycloheximide. Addition of either L-N6-nitroarginine methyl ester (L-NAME), an inhibitor of all three NO synthase (NOS) isoforms or 2-amino-5,6-dihydro-6-methyl-4H-1,3-thiazine (AMT), a specific inhibitor of the inducible isoform of the enzyme, likewise reversed the action of TNF alpha on cGMP formation. Finally, addition of 1H-[1,2,4]oxadiazolo [4,3-a] quinoxalin 1-one (ODQ), an inhibitor of NO-sensitive soluble guanylate cyclase, resulted in a concentration-dependent reduction of TNF alpha-stimulated cGMP formation. In contrast, the TNF alpha-mediated inhibition of LH-stimulated prorenin secretion was not affected by either L-NAME, AMT, or ODQ. Also the addition of stimulators of soluble guanylate cyclase, sodium nitroprusside, and S-nitroso-N-acetylpenicillamine, or 8 bromo-cGMP had no effect on the action of LH on theca cells. We conclude that although TNF alpha is able to stimulate cGMP formation in theca cells by inducing the expression of inducible NOS, the mechanism underlying the TNF alpha-mediated inhibition of LH-stimulated prorenin production is independent of its ability to induce cGMP formation.
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PMID:Stimulation of nitric oxide-cyclic guanosine monophosphate pathway in bovine ovarian theca cells by tumor necrosis factor alpha (TNF alpha). Is this pathway implicated in the TNF alpha-induced inhibition of luteinizing hormone-stimulated prorenin production? 931 69

It is now just 10 years since it was first appreciated that NO is endogenously synthesized in mammals. In this period, two constitutive and one inducible isoform of NOS have been isolated, sequenced, and characterized with respect to their protein chemistry and catalytic mechanism. A wide variety of NOS inhibitors, most targeted to the arginine binding site in the oxygenase domain, have been synthesized and used to elucidate the physiological and pathophysiological roles of NO. It is now clear that NO is involved in signal transduction (e.g., in neurotransmission and blood pressure homeostasis), and that these roles are mediated by low concentrations of NO synthesized by nNOS or eNOS. The NO receptor is the heme cofactor of soluble isoform of guanylyl cyclase. Higher amounts of NO, typically but not always synthesized by iNOS, are often cytotoxic. At a minimum, high concentrations of NO derange the signal transduction pathways normally served by nNOS or eNOS. In addition, NO or its nitrosative products (RSNO, N2O3, or ONOO-) inhibit or damage cellular constituents, interfering with DNA synthesis, energy metabolism, and the structural integrity of the cell. Such cytotoxicity can be beneficial to the host if pathogens or tumor cells are destroyed, but is detrimental to the host if it results in inappropriate inflammation, hypotension, or immunosuppression. Therapeutic utility of NOS inhibitors has been demonstrated in sepsis and cytokine-induced hypotension; additional applications are being identified in a treatment of inflammatory and autoimmune disorders.
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PMID:Design of nitric oxide synthase inhibitors and their use to reverse hypotension associated with cancer immunotherapy. 938 71

The thick ascending limb of Henle's loop (TAL) is involved in the urinary dilution/concentration process by actively reabsorbing NaCl through a complex mechanism. Some years ago, compelling evidence was provided that cAMP stimulates NaCl reabsorption through the activation of adenylyl cyclase by several hormones other than antidiuretic hormone (ADH). Synthesis of cyclic AMP is inhibited by prostaglandin E2 (PGE2) and arachidonic acid per se, via the pertussis toxin-sensitive protein Gi activation. Cyclic GMP cascade down-regulates NaCl reabsorption, through activation of both guanylyl cyclase receptors (by ANF and urodilatin), and soluble guanylyl cyclase (by nitric oxide, NO). In TAL, NO is produced by the cytokine-inducible form of NO synthase, but not by the constitutive one. Agonists known to activate protein kinase C (PKC) in TAL elicit opposite effects on NaCl reabsorption. Five PKC isoforms belonging to the conventional, novel, and atypical enzyme subclasses have been recently defined in TAL and might differently regulate NaCl flux. Increments in intracellular calcium ([Ca2+]i) inhibit NaCl reabsorption via three pathways: (i) a possible direct effect on ion channels, (ii) a PLA2-mediated production of arachidonic acid derivatives (20-HETE), and (iii) inhibition of the ADH-induced cAMP accumulation. This last effect results from activation of phosphodiesterase (common to the agents that increase [Ca2+]i), and inhibition of adenylyl cyclase (only elicited by Ca2+c). Finally, the apical localization of some agonists effects is documented.
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PMID:Transducing pathways involved in the control of NaCl reabsorption in the thick ascending limb of Henle's loop. 955 29

1. The role of the L-arginine-nitric oxide (NO) pathway on the formation of prostaglandin E2 (PGE2) by human cultured astroglial cells incubated with interleukin-1beta (IL-1beta) and tumour necrosis factor-alpha (TNF-alpha) was investigated. 2. Incubation of T 67 astroglial cell line with IL-beta (10 ng ml(-1)) and TNF-alpha (500 u ml(-1)) produced a significant (P<0.05) increase of both nitrite (the breakdown product of NO), cyclic GMP and PGE2 levels in cell supernatants. N omega-nitro-L-arginine methyl ester (L-NAME; 20-300 microM), an inhibitor of NO synthase (NOS), inhibited the increase of cyclic GMP and nitrite levels found in supernatants of cytokine-treated astroglial cells and reduced the release of PGE2. The latter effect showed that the enhanced arachidonic acid (AA) metabolism subsequent to stimulation of astroglial cells with IL-1beta and TNF-alpha was, at least in part, induced by NO. This occurred also when sodium nitroprusside (SNP; 120 microM), an NO donor, was incubated with astroglial cells, an effect antagonized by oxyhaemoglobin (OxyHb; 10 microM). 3. The inhibition elicited by L-NAME on PGE2-release by cytokine-treated astroglial cells was reversed by adding AA (40 microM), showing that the effect of NO on cytokine-dependent PGE2 release occurred at the cyclo-oxygenase (COX) level. Furthermore, the release of PGE2 in cytokine-treated astroglial cells was inhibited by indomethacin (10 microM), a COX inhibitor as well as by preincubating cells with dexamethasone (20 microM), an inhibitor of inducible enzymes, showing that the inducible isoform of COX (COX-2) was involved. 4. On the other hand, pretreating astroglial cells with methylene blue (MB; 10 microM), an inhibitor of NO biological activity acting at the guanylate cyclase level, failed to affect PGE2 release in cytokine-treated astroglial cells, leading to the conclusion that cyclic GMP changes related to NO formation are not involved in the generation of AA metabolites. 5. The present experiments demonstrated that the release of PGE2 by astroglial cells pretreated with IL-1beta and TNF-alpha is due to enhanced COX-2 activity via activation of the L-arginine-NO pathway, and this may be relevant to the understanding of the pathophysiological mechanisms underlying neuroimmune disorders.
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PMID:The effect of nitric oxide on cytokine-induced release of PGE2 by human cultured astroglial cells. 969 Aug 66

Gonadotropin secretion by the pituitary gland is under the control of luteinizing hormone-releasing hormone (LHRH) and the putative follicle-stimulating hormone-releasing factor (FSHRF). Lamprey III LHRH is a potent FSHRF in the rat and appears to be resident in the FSH controlling area of the rat hypothalamus. It is an analog of mammalian LHRH and may be the long-sought FSHRF. Gonadal steroids feedback at hypothalamic and pituitary levels to either inhibit or stimulate the release of LH and FSH, which is also affected by inhibin and activin secreted by the gonads. Important control is exercised by acetylcholine, norepinephrine (NE), dopamine, serotonin, melatonin and glutamic acid (GA). Furthermore, LH and FSH also act at the hypothalamic level to alter secretion of gonadotropins. More recently, growth factors have been shown to have an important role. Many peptides act to inhibit or increase release of LH, and the sign of their action is often reversed by estrogen. A number of cytokines act at the hypothalamic level to suppress acutely the release of LH but not FSH. NE, GA and oxytocin stimulate LHRH release by activation of neural nitric oxide synthase (nNOS). The pathway is as follows: oxytocin and/or GA activate NE neurons in the medial basal hypothalamus (MBH) that activate NOergic neurons by alpha1 receptors. The NO released diffuses into LHRH terminals and induces LHRH release by activation of guanylate cyclase (GC) and cyclooxygenase. NO not only controls release of LHRH bound for the pituitary, but also that which induces mating by actions in the brain stem. An exciting recent development has been the discovery of the adipocyte hormone, leptin, a cytokine related to tumor necrosis factor-alpha (TNF-alpha). In the male rat, leptin exhibits a high potency to stimulate FSH and LH release from hemipituitaries incubated in vitro, and increases the release of LHRH from MBH explants by stimulating the release of NO. LHRH and leptin release LH by activation of NOS in the gonadotropes. The NO released activates GC that releases cyclic GMP which induces LH release. Leptin induces LH release in conscious, ovariectomized estrogen-primed female rats, presumably by stimulating LHRH release. At the effective dose of estrogen to activate LH release, FSH release is inhibited. Leptin may play an important role in induction of puberty and control of LHRH release in the adult as well.
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PMID:Hypothalamic control of FSH and LH by FSH-RF, LHRH, cytokines, leptin and nitric oxide. 973 Jun 86

Gonadotropin secretion by the pituitary gland is under the control of luteinizing hormone-releasing hormone (LHRH) and the putative follicle stimulating hormone-releasing factor (FSHRF). Lamprey III LHRH is a potent FSHRF in the rat and seems to be resident in the FSH controlling area of the rat hypothalamus. It is an analog of mammalian LHRH and may be the long sought FSHRF. Gonadal steroids feedback at hypothalamic and pituitary levels to either inhibit or stimulate the release of LH and FSH, which is also affected by inhibin and activin secreted by the gonads. Important control is exercised by acetylcholine, norepinephrine (NE), dopamine, serotonin, melatonin, and glutamic acid (GA). Furthermore, LH and FSH also act at the hypothalamic level to alter secretion of gonadotropins. More recently, growth factors have been shown to have an important role. Many peptides act to inhibit or increase release of LH and the sign of their action is often reversed by estrogen. A number of cytokines act at the hypothalamic level to suppress acutely the release of LH but not FSH. NE, GA, and oxytocin stimulate LHRH release by activation of neural nitric oxide synthase (nNOS). The pathway is as follows: oxytocin and/or GA activate NE neurons in the medial basal hypothalamus (MBH) that activate NOergic neurons by alpha, (alpha 1) receptors. The NO released diffuses into LHRH terminals and induces LHRH release by activation of guanylate cyclase (GC) and cyclooxygenase. NO not only controls release of LHRH bound for the pituitary, but also that which induces mating by actions in the brain stem. An exciting recent development has been the discovery of the adipocyte hormone, leptin, a cytokine related to tumor necrosis factor (TNF) alpha. In the male rat, leptin exhibits a high potency to stimulate FSH and LH release from hemipituitaries incubated in vitro, and increases the release of LHRH from MBH explants. LHRH and leptin release LH by activation of NOS in the gonadotropes. The NO released activates GC that releases cyclic GMP, which induces LH release. Leptin induces LH release in conscious, ovariectomized estrogen-primed female rats, presumably by stimulating LHRH release. At the effective dose of estrogen to activate LH release, FSH release is inhibited. Leptin may play an important role in induction of puberty and control of LHRH release in the adult as well.
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PMID:Hypothalamic control of gonadotropin secretion by LHRH, FSHRF, NO, cytokines, and leptin. 978 37

Nitric oxide (NO) is known to have antiatherogenic and anti-inflammatory properties, but its effects on the cytokine-induced nuclear factor-kappa B (NF-kappaB) activation pathway in relation to the regulation of inducible nitric oxide synthase (iNOS) gene in vascular smooth muscle cells (VSMCs) remain elusive. To elucidate the roles of NO in the regulation of cytokine-induced NF-kappaB activation and consequent iNOS gene expression, we studied the effects of NO donors [(+/-)-(E)-ethyl-2-[(E)-hydroxyamino]-5-nitro-3-hexeneamide (NOR3) and sodium nitroprusside] on interleukin (IL)-1beta-induced NF-kappaB activation and IkappaB-alpha degradation and subsequent iNOS expression in rat VSMCs. Northern blot and Western blot analyses demonstrated that NO donors decreased IL-1beta-induced iNOS mRNA and protein expression. Electrophoretic mobility shift assay using synthetic oligonucleotide corresponding to the downstream NF-kappaB site of rat iNOS promoter as a probe showed that NOR3 inhibited IL-1beta-induced NF-kappaB activation and its nuclear translocation, as demonstrated with immunocytochemical study. These effects were independent of guanylate cyclase activation; an inhibitor of soluble guanylate cyclase (1H-oxadiazolo-1,2,4-[4,3-alpha]quinoxaline-1-one) had no effect on NOR3-induced inhibition of NF-kappaB activation or iNOS mRNA expression by IL-1beta, and a cGMP derivative (8-bromo-cGMP) failed to mimic the effects of NO donors. Western blot analysis using anti-IkappaB-alpha and anti-phospho-IkappaB-alpha antibodies revealed that IL-1beta induced a transient degradation of IkappaB-alpha preceded by a rapid appearance of phosphorylated IkappaB-alpha, both of which were completely blocked by NOR3. A proteasome inhibitor (MG115) blocked IL-1beta-induced transient degradation of IkappaB-alpha and stabilized the appearance of phosphorylated IkappaB-alpha stimulated by IL-1beta. NOR3 inhibited the appearance of IL-1beta-induced phosphorylated IkappaB-alpha even in the presence of MG115. Our results indicate that an inhibitory action by NO on cytokine-induced NF-kappaB activation and iNOS gene expression is due to its direct blockade on phosphorylation and subsequent degradation of IkappaB-alpha via the cGMP-independent pathway in rat VSMCs.
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PMID:NO inhibits cytokine-induced iNOS expression and NF-kappaB activation by interfering with phosphorylation and degradation of IkappaB-alpha. 981 20

The soluble isoform of guanylate cyclase (sGC) is activated by nitric oxide (NO) to form guanosine 3':5'-cyclic monophosphate (cGMP). Cyclic GMP levels cause smooth muscle relaxation and regulate vascular tone to various vascular beds, including the lung. Under conditions of cytokine excess the inducible synthesis of NO may result in cGMP overproduction, generalized vasodilation, and septic shock. In the pulmonary bed the opposite response may occur, pulmonary hypertension. We hypothesized that sGC activity becomes downregulated in the face of Escherichia coli lipopolysaccharide (LPS). We tested the effects of LPS on alpha1-subunit sGC mRNA abundance, Western analysis, and enzyme activity in cultured rat pulmonary artery smooth muscle cells. LPS increased extracellular cGMP production by pulmonary artery smooth muscle cells, with increased levels being first detectable at 3-6 h (10 microg/ml LPS) and exceeding 140 pmol/ml by 24 h (P < 0.05). The response was inhibited by 0.05 mM l-NG-monomethyl-l-arginine (l-NMA) and, in turn, restored by 1 mM l-arginine, indicating a NO synthase-dependent response. Pretreating cells with LPS for >/= 3 h inhibited subsequent cGMP synthesis in response to 10(-4) M SNAP for 60 min. Coincubating cells with 0.05 mM l-NMA also reversed this effect. Soluble GC enzyme activity in cells exposed to basal medium alone measured 0.74 pmol cGMP/ml per minute; activity in cells exposed to 10 microg/ml LPS for 24 h decreased to 0.04 pmol cGMP/ml per minute (P < 0.05). LPS pretreatment decreased sGC mRNA abundance and protein mass, but did not totally eliminate them. It is concluded that LPS affects cGMP synthesis at the level of enzyme activity, enzyme mass, and mRNA abundance. Over the short term (<24 h) LPS causes the synthesis of large amounts of cGMP. As the duration of exposure progresses (>/=3 h), mechanisms come into play that decrease cGMP production significantly and include decreases in mRNA abundance, enzyme mass, and enzyme activity.
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PMID:Escherichia coli lipopolysaccharide downregulates soluble guanylate cyclase in pulmonary artery smooth muscle. 987 30

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