Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Although prostaglandin E1 is used to dilate the constricted ductus arteriosus in infants with cyanotic heart disease, the mechanism is unknown. To test the hypothesis that the cyclic nucleotides adenosine 3',5'-monophosphate (cAMP) and guanosine 3',5'-monophosphate (cGMP) play a role in relaxation, isolated rings of the ductus arteriosus of fetal lambs were studied. Tension of isometric contraction was measured by force displacement transducers. After contraction with oxygen, a control group was compared with rings in which the stimulus for relaxation was either nitrogen gas, prostaglandin E1 (PGE1), nitroglycerin (NTG), or nitroprusside (NPS). During relaxation, tissue was frozen at 30 seconds and at 1, 2, and 5 minutes and analyzed for cAMP and cGMP. PGE1 (10(-6) mol/L) decreased tension by 33% compared with 70% for nitrogen gas, 81% for NTG (10(-5) mol/L), and 92% for NPS (10(-5) mol/L). The maximal relaxation induced by PGE1 was associated with an 11-fold increase in cAMP; PGE1 had no significant effect on cGMP tissue levels. Nitrogen gas, NTG, and NPS produced similar increases in cAMP, and eight-, 25-, and nine-fold increases in cGMP, respectively. These results suggest that the patency of the ductus arteriosus is dependent on activation of both guanylate cyclase and adenylate cyclase and that the nitrovasodilators may be clinically useful in maintaining patency of the ductus arteriosus.
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PMID:Role of cyclic nucleotides in relaxation of fetal lamb ductus arteriosus. 303 77

Endothelium-derived relaxing factor (EDRF) is a labile humoral agent released by vascular endothelium that mediates the relaxation induced by some vasodilators, including acetylcholine and bradykinin. EDRF also inhibits platelet aggregation, induces disaggregation of aggregated platelets, and inhibits platelet adhesion to vascular endothelium. These actions of EDRF are mediated through stimulation of the soluble guanylate cyclase and the consequent elevation of cyclic guanosine 3',5'-monophosphate. EDRF has been identified as nitric oxide (NO). The pharmacology of NO and EDRF is indistinguishable; furthermore, sufficient NO is released from endothelial cells to account for the biological activities of EDRF. Organic nitrates exert their vasodilator activity following conversion to NO in vascular smooth muscle cells. Thus, NO may be considered the endogenous nitrovasodilator. NO is synthesized by vascular endothelium from the terminal guanido nitrogen atom(s) of the amino acid L-arginine. This indicates the existence of an enzymic pathway in which L-arginine is the endogenous precursor for the synthesis of NO. The discovery of the release of NO by vascular endothelial cells, the biosynthetic pathway leading to its generation, and its interaction with other vasoactive substances opens up new avenues for research into the physiology and pathophysiology of the vessel wall.
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PMID:The discovery of nitric oxide as the endogenous nitrovasodilator. 304 40

Recent studies have suggested that cyclic GMP accumulation in platelets mediates the antiaggregatory effects of certain nitrogen oxide-containing agents such as sodium nitroprusside, nitric oxide, nitrosoguanidines, and related agents. The vasodilator effect of these agents may involve the formation of S-nitrosothiol intermediates which relax vascular smooth muscle, elevate tissue levels of cyclic GMP, and activate guanylate cyclase. The purpose of this study was to investigate the effects of various synthetic S-nitrosothiols on human platelet aggregation. The S-nitroso derivatives of N-acetylpenicillamine, cysteine, and beta-D-thioglucose inhibited human platelet aggregation in a concentration-dependent fashion when ADP, collagen, U46619, or sodium arachidonate was employed as the aggregating agent. The antiaggregatory effects of the S-nitrosothiols were associated with a rapid and marked increase in intracellular platelet cyclic GMP levels, whereas cyclic AMP levels remained unchanged. Additionally, S-nitrosothiols disaggregated platelets which had been aggregated while concomitantly elevating platelet cyclic GMP levels. Moreover, guanylate cyclase, partially purified from the soluble fraction of human platelets, was markedly activated by S-nitrosothiols in a heme-dependent manner. Methemoglobin, a hemoprotein with a high affinity for nitric oxide, partially reversed the antiaggregatory effects, attenuated the accumulation of cyclic GMP, and inhibited the activation of guanylate cyclase by S-nitrosothiols. These data are consistent with the hypothesis that S-nitrosothiols could serve as active intermediates in the inhibitory action of sodium nitroprusside, nitric oxide, and related nitrogen oxides on platelet aggregation.
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PMID:Inhibition of human platelet aggregation by S-nitrosothiols. Heme-dependent activation of soluble guanylate cyclase and stimulation of cyclic GMP accumulation. 613 48

Alterations of the chemical structure of protoporphyrin IX markedly altered the activation of soluble guanylate cyclase purified from bovine lung. Hydrophobic side chains at positions 2 and 4 and vicinal propionic acid residues at positions 6 and 7 of the porphyrin ring (protoporphyrin IX, mesoporphyrin IX) were essential for maximal enzyme activation (Ka = 7-8 nM; Vmax = 6-8 mumol of cGMP/min/mg). Substitution of hydrophobic with polar groups (hematoporphyrin IX, coproporphyrin III), or with hydrogen atoms ( deuteroporphyrin IX), and methylation of propionate residues resulted in decreased enzyme stimulation. Stimulatory porphyrins increased the Vmax and the apparent affinities of enzyme for MgGTP and uncomplexed Mg2+. An open central core in the porphyrin ring was essential for enzyme activation. The pyrrolic nitrogen adduct, N-phenylprotoporphyrin IX, was inhibitory and competitive with protoporphyrin IX (KI = 73 nM). Similarly, metalloporphyrins inhibited enzymatic activity and ferro-protoporphyrin IX (KI = 350 nM), zinc-protoporphyrin IX (KI = 50 nM) and manganese-protoporphyrin IX (KI = 9 nM) were competitive with protoporphyrin IX. Inhibitory porphyrins and metalloporphyrins also prevented enzyme activation by S-nitroso-N- acetylpenicillamine and NO. Guanylate cyclase reconstituted with such porphyrins required higher concentrations of protoporphyrin IX for further activation and were not activated by NO. Thus, porphyrins, metalloporphyrins, and NO appeared to interact at a common binding site on guanylate cyclase. This common site is likely that which normally binds heme and, therefore, NO-heme when the heme-containing enzyme is exposed to NO. Thus, NO and nitroso compounds may react with enzyme-bound heme to generate a modified porphyrin which structurally resembles protoporphyrin IX in its interaction with guanylate cyclase.
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PMID:Regulation of soluble guanylate cyclase activity by porphyrins and metalloporphyrins. 614 76

The role of cyclic nucleotides in the regulation of lymphocyte growth and differentiation remains controversial, as an adequate characterization of the key enzymes, adenylate cyclase and guanylate cyclase, in the plasma membrane of lymphocytes is still lacking. In this study, calf thymus lymphocytes were disrupted by nitrogen cavitation and various cellular fractions were isolated by differential centrifugation and subsequent sucrose density ultracentrifugation. As revealed by the chemical composition and the activities of some marker enzymes, the plasma membrane fraction proved to be highly purified. Nucleotide cyclases were present in the plasma membranes in high specific activities, basal activities of adenylate cyclase being 13.7 pmol/mg protein per min and 34.0 pmol/mg protein per min for the guanylate cyclase, respectively. Adenylate cyclase could be stimulated by various effectors added directly to the enzyme assay, including NaF, GTP, 5'-guanylyl imidodiphosphate, Mn2+ and molybdate. Addition of beta-adrenergic agonists only showed small stimulating effects on the enzyme activity in isolated plasma membranes. Basal activity of adenylate cyclase as well as activities stimulated by NaF or 5'-guanylyl imidodiphosphate exhibited regular Michaelis-Menten kinetics. Activation by both agents only marginally affected the Km values, but largely increased Vmax. The activity of the plasma membrane-bound guanylate cyclase was about 10-fold enhanced by the nonionic detergent Triton X-100 and high concentrations of lysophosphatidylcholine, but was slightly decreased upon addition of the alpha-cholinergic agonist carbachol. Basal guanylate cyclase indicated to be an allosteric enzyme, as analyzed by the Hill equation with an apparent Hill coefficient close to 2. In contrast, Triton X-100 solubilized enzyme showed regular substrate kinetics with increasing Vmax but unaffected Km values. Thus the lymphocyte plasma membrane contains both adenylate cyclase and guanylate cyclase at high specific activities, with properties characteristic for hormonally stimulated enzymes.
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PMID:Characterization and subcellular localization of nucleotide cyclases in calf thymus lymphocytes. 614 2

Several lines of evidence suggest that nitric oxide (NO), generated through nitric oxide synthase (NOS) by cleavage of terminal guanidino nitrogen from L-arginine, mediates tumor cell killing by mononuclear phagocytes. Natural killer (NK) cells are cytotoxic effector cells that lyse a variety of tumor and virus-infected cells in a MHC-unrestricted manner. NK cells cultured with interleukin 2 proliferate and acquire the ability to lyse a wide range of targets, including NK-resistant tumor cells (LAK activity). The present study was designed to investigate whether a NOS pathway exists in fresh or IL-2-activated NK cells and to assess the importance of NO synthesis in their activation and cytotoxic functions. NKR-P1 triggering, which is known to induce NK cell activation and mediate reverse ADCC, was able to induce arginine metabolism with consequent increase of nitrite and citrulline levels. Moreover, stimulated NO synthesis leads to guanylate cyclase activity with consequent cGMP generation. We also report that cytotoxic activities of fresh or IL-2-activated NK cells appear to be dependent on arginine levels in medium. Tumoricidal activity of both these effector cells, assessed against YAC-1 and P815 target cells, respectively, was indeed significantly reduced when cytotoxic assays were performed in arginine-free medium or in the presence of the L-arginine analog L-N-monomethyl-arginine, which inhibits nitroxide formation from L-arginine. Normal levels of cytotoxic activities could be restored by addition of exogenous L-arginine. NO generation by NK and LAK cells, determined as nitrite, citrulline, and cGMP synthesis, correlated well with their cytotoxic activities. Moreover, NOS activity gradually increased during the LAK generation and correlated well with the increasing capability of IL-2-activated NK cells to lyse NK-resistant targets, such as P815.
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PMID:Induction of the nitric oxide-synthesizing pathway in fresh and interleukin 2-cultured rat natural killer cells. 751 50

Nitric oxide synthase-containing cells were visualized in the anterior pituitary gland by immunocytochemistry. Consequently, we began an evaluation of the possible role of NO in the control of anterior pituitary function. Prolactin is normally under inhibitory hypothalamic control, and in vitro the gland secretes large quantities of the hormone. When hemipituitaries were incubated for 30 min in the presence of sodium nitroprusside, a releaser of NO, prolactin release was inhibited. This suppression was completely blocked by the scavenger of NO, hemoglobin. Analogs of arginine, such as NG-monomethyl-L-arginine (NMMA, where NG is the terminal guanidino nitrogen) and nitroarginine methyl ester, inhibit NO synthase. Incubation of hemipituitaries with either of these compounds significantly increased prolactin release. Since in other tissues most of the actions of NO are mediated by activation of soluble guanylate cyclase with the formation of cyclic GMP, we evaluated the effects of cyclic GMP on prolactin release. Cyclic GMP (10 mM) produced an approximately 40% reduction in prolactin release. Prolactin release in vivo and in vitro can be stimulated by several peptides, which include vasoactive intestinal polypeptide and substance P. Consequently, we evaluated the possible role of NO in these stimulations by incubating the glands in the presence of either of these peptides alone or in combination with NMMA. In the case of vasoactive intestinal polypeptide, the significant stimulation of prolactin release was augmented by NMMA to give an additive effect. In the case of substance P, there was a smaller but significant release of prolactin that was not significantly augmented by NMMA. We conclude that NO has little effect on the stimulatory action of these two peptides on prolactin release. Dopamine (0.1 microM), an inhibitor of prolactin release, reduced prolactin release, and this inhibitory action was significantly blocked by either hemoglobin (20 micrograms/ml) or NMMA and was completely blocked by 1 mM nitroarginine methyl ester. Atrial natriuretic factor at 1 microM also reduced prolactin release, and its action was completely blocked by NMMA. In contrast to these results with prolactin, luteinizing hormone (LH) was measured in the same medium in which the effect of nitroprusside was tested on prolactin release, there was no effect of nitroprusside, hemoglobin, or the combination of nitroprusside and hemoglobin on luteinizing hormone release. Therefore, in contrast to its inhibitory action on prolactin release NO had no effect on luteinizing hormone release. Immunocytochemical studies by others have shown that NO synthase is present in the folliculostellate cells and also the gonadotrophs of the pituitary gland. We conclude that NO produced by either of these cell types may diffuse to the lactotropes, where it can inhibit prolactin release. NO appears to play little role in the prolactin-releasing action of vasoactive intestinal polypeptide and substance P, but mediates the prolactin-inhibiting activity of dopamine and atrial natriuretic factor.
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PMID:Role of nitric oxide in control of prolactin release by the adenohypophysis. 752 11

Ultraviolet A (UVA) irradiated human squamous cell carcinoma (SCC-13) releases nitrogen oxides, i.e. nitric oxide (NO), peroxynitrite (ONOO-), nitrosocompounds, ammonia (NH3) and hydroxylamine (H2NOH) formed from L-arginine. Formation and/or release of these nitrogen oxides was time and concentration-dependently stimulated by UVA and decreased by N-monomethyl-L-arginine (L-NMMA), a compound that inhibits NO synthase activity. UVA irradiation of SCC-13 cells resulted in concomitant increase in soluble guanylate cyclase (sGC) which was inhibited by L-NMMA. The increased NO and ONOO- production evoked by dibutyryl cGMP and 3-isobutyl-l-methyl-xanthine (IBMX) represents an additional positive feedback mechanism that could serve to maintain NO and ONOO- release for extended periods following UVA radiation. Using an in vitro chemical model system, it was demonstrated that oxidation of NH3 to NO by hydroxyl radical (.OH) at physiological pH is chemically feasible. UVA irradiated SCC-13 cells induced a luminol-enhanced chemiluminescence signal that reaches a peak within 1 min. The modulation of this signal by ebselen is consistent with a rate-determining step corresponding to the disproportionation of a luminol-superoxide (O2-) complex. UVA irradiated SCC-13 cells promptly increased malondialdehyde (MDA) production with subsequent decrease of plasma membrane fluidity. Desferrioxamine tested in UVA irradiated SCC-13 cells showed a concentration dependent decrease in MDA production with subsequent restoration of the membrane fluidity to the normal level. Furthermore, it was shown that squamous cell carcinoma possesses higher NO synthase and sGC activity as compared to normal keratinocytes. Such an increase in NO production may be directly related to the poor prognosis of squamous cell carcinoma.
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PMID:Nitric oxide, peroxynitrite and nitroso-compounds formation by ultraviolet A (UVA) irradiated human squamous cell carcinoma: potential role of nitric oxide in cancer prognosis. 754 92

The mechanisms by which two nitrogen monoxide (NO) generators, hydroxylamine and S-nitroso-L-cysteine (NO-CYS), induce hippocampal [3H]norepinephrine ([3H]NE) release was investigated. Neither hydroxylamine- nor NO-CYS-induced release was affected by the guanylate cyclase inhibitors, methylene blue or LY 83,583. The effect of hydroxylamine was completely dependent on extracellular Ca++ and reduced by 40% in the presence of omega-conotoxin GVIA, an N-type Ca(++)-channel antagonist; however it was unaffected by Ni++, nifedipine, caffeine or thapsigargin. The stimulatory effect of hydroxylamine on hippocampal cyclic GMP formation was not significantly affected by removal of extracellular Ca++, indicating that Ca(++)-dependent release is not due to inhibition of NO formation from hydroxylamine. However, the response to NO-CYS was reduced by 35 to 50% in either nominally Ca(++)-free or 10 mM MgSO4-containing buffer. Interestingly, buffer containing ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid dramatically enhanced the formation of NO from NO-CYS and potentiated the NO-CYS response. Both NO-CYS- and hydroxylamine-induced [3H]NE release was inhibited by NE transport blockers, indicating a prominent role for reverse transport. NO-CYS completely inhibited synaptosomal uptake of [3H]NE (IC50 approximately, 300 microM). NO generator-induced [3H]NE release has a glutamate-dependent component (see accompanying article). Inhibition of glutamate-evoked [3H]NE release by mazindol, an inhibitor of NE transport, suggests that the glutamate-dependent component also involves reversal of the NE transporter. These data suggest that NO produced from hydroxylamine or NO-CYS evoke both vesicular and nonvesicular release of hippocampal [3H]NE. Putative NO target molecules and the role of extracellular Ca++ are discussed.
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PMID:Characterization of nitric oxide generator-induced hippocampal [3H]norepinephrine release. II. The role of calcium, reverse norepinephrine transport and cyclic 3',5'-guanosine monophosphate. 756 42

Pretreatment of rat hepatocytes with low-dose nitrogen oxide (addition of SNAP in vitro or induction of nitric oxide synthase in vitro or in vivo) imparts resistance to killing and decrease in aconitase and mitochondrial electron transfer from a second exposure to a higher dose of SNAP. Induction of this resistance is prevented by cycloheximide, indicating upregulation of protective protein(s). Ferritin levels are increased as are non-heme iron-NO EPR signals. Tin-protoporphyrin (SnPP) prevents protection, suggesting involvement of hsp32 (heme oxygenase) and/or guanylyl cyclase (GC). Cross-resistance to H2O2 killing is also observed, which is also prevented by cycloheximide and SnPP. Thus, hepatocytes possess inducible protective mechanisms against nitrogen oxide and reactive oxygen toxicity.
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PMID:Nitrogen oxide-induced autoprotection in isolated rat hepatocytes. 758 41


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