EC:4.6.1.2 - FACTA Search

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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 activity of soluble guanylate cyclase (GC) and its regulation in the platelets and heart of normal rats and rats with experimental acute myocardial ischemia provoked by coronary ligation was examined. There was a synchronous reduction in platelet and heart GC activity immediately following 15 minutes after surgery along with a drastically marked drop in genuine baseline activity (with Mg2+) to 19 and 40% in the platelets and heart (both ischemic and intact areas), respectively. Following 24 hours, GC activity insignificantly rose (up to 35.5%) in the platelets with Mg2+, that with Mn2+ remained unchanged; in the ischemic area it decreased much more (to 30%), whereas in the intact area it partially restored (up to 70%). The stimulating effect of DTT on platelet GC activity 15 minutes after the surgery drastically rose (from 2.8 to 8), then returning to normal 24 hours later. The findings show an enhancement in free radical processes typical of ischemia and indicate their high response of platelet GC at the earliest stages. Sodium nitroprusside-induced activation of myocardial GC diminished in the ischemic area in 15 minutes and virtually lacked in 24 hours. There was a less pronounced decrease in GC activation in the intact area. It is suggested that lower enzymatic activatibility is associated with heme loss. The absence of sodium nitroprusside-induced stimulation of platelet GC both in health and in the abnormality under question may be due to primary heme enzymatic deficiency.
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PMID:[Soluble guanyl cyclase of blood platelets and heart of rats with experimental myocardial ischemia]. 135 20

Adenine nucleotides activate basal particulate guanylate cyclase in rat lung membranes. Activation is specific for adenine and not guanine, cytidine or uridine nucleotides. The concentration of adenine nucleotides yielding half-maximum activation of particulate guanylate cyclase is 0.1 mM and this nucleotide activates the enzyme by increasing maximum velocity 11-fold without altering affinity for substrate. Activation is specific for particulate guanylate cyclase, since soluble enzyme is inhibited by adenine nucleotides. Similarly, activation is specific for magnesium as the enzyme substrate cation cofactor, since adenine nucleotides inhibit particulate guanylate cyclase when manganese is used. Adenine nucleotide regulation of particulate guanylate cyclase may occur by a different molecular mechanism compared to other activators, since the effects of these nucleotides are synergistic with those of detergent, hemin and atrial natriuretic peptides. Cystamine inhibits adenine nucleotide activation of particulate guanylate cyclase at concentrations having minimal effects on basal enzyme activity suggesting a role for critical sulfhydryls in mechanisms underlying nucleotide regulation of particulate guanylate cyclase. Purification and quantitative recovery of particulate guanylate cyclase by substrate affinity chromatography results in the loss of adenine nucleotide regulation. These data suggest that adenine nucleotides may be important in the regulation of basal and activated particulate guanylate cyclase and may be mediated by an adenine nucleotide-binding protein which is separate from that enzyme.
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PMID:Adenine nucleotide regulation of particulate guanylate cyclase from rat lung. 167 12

The 'second messenger' of certain atrial natriuretic factor (ANF) signals is cyclic GMP. One type of ANF receptor linked to the synthesis of cyclic GMP is a transmembrane protein which contains both the ANF-binding and guanylate cyclase activities. The consensus is that the maximal activity of this guanylate cyclase is observed in the presence of ATP. We now show that depending upon the cofactors Mg2+ or Mn2+, ATP stimulates or inhibits the ANF-dependent guanylate cyclase activity in the testicular plasma membranes: stimulation in the presence of Mg2+ and inhibition in the presence of Mn2+. With Mg2+ as cofactor neither ATP nor ANF stimulate the cyclase activity--it is only when the two are together that the enzyme is activated. Furthermore, this investigation for the first time demonstrates binding of ATP to the ANF receptor guanylate cyclase, suggesting that ATP-mediated responses could occur by direct ATP binding to the cyclase.
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PMID:Dual regulation of atrial natriuretic factor-dependent guanylate cyclase activity by ATP. 167 3

Light activation of cyclic GMP hydrolysis in rod outer segments is mediated by a G-protein which is active in the GTP-bound form. Substitution of GTP with a nonhydrolyzable GTP analogue is thought to leave the G-protein in a persistently activated state, thereby prolonging the hydrolysis of cyclic GMP. Restoration of cyclic GMP concentration in the cell also depends upon GTP since it is the substrate for guanylate cyclase, but little is known about the effects of GTP analogues on this enzyme. We report here the effects of the analogues of GTP and ATP as inhibitors and substrates of rod disk membrane guanylate cyclase. The rate of cyclic GMP synthesis from GTP in rod disk membranes was about 50 pmol min-1 (nmol of rhodopsin)-1. Analogues of GTP and adenine nucleotides competitively inhibited the cyclase activity. The order of inhibition, with magnesium as metal cofactor, was ATP greater than GMP-PNP greater than AMP-PNP approximately GTP-gamma-S; with manganese, AMP-PNP was more inhibitory than GTP-gamma-S. The inhibition constants, with magnesium as cofactor, were 0.65-2.0 mM for GTP-gamma-S, 0.4-0.8 mM for GMP-PNP, 1.5-2.3 mM for AMP-PNP, and 0.07-0.2 mM for ATP. The fraction of cyclase activity inhibited by analogues was similar at 1 and 0.03 microM calcium. Besides inhibition of cyclase, the analogues also served as its substrates. GTP-gamma-S substituted GTP with about 85% efficiency while GMP-PNP and ATP were about 5 and 7% as efficient, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Interactions of nucleotide analogues with rod outer segment guanylate cyclase. 167 98

We characterized in membranes from the human neuroblastoma cell line NB-OK-1, an ANP-R1 receptor (Mr 130 kDa) for the atrial natriuretic peptide (ANP). This receptor recognized biologically active forms of ANP with high affinity but showed no affinity for truncated ANP forms. It was functional in that binding correlated with guanylate cyclase activation (a 2-fold increase in Vmax) with the following rank order of potency: rat ANP-(99-126) greater than human ANP-(99-126) greater than human ANP-(102-126) greater than porcine BNP (brain natriuretic peptide). The enzyme required free Mn2+ in addition to the Mn-GTP substrate (Km of about 0.3 mM for both basal and ANP-stimulated activity). In the presence of dithiothreitol, the dose-response curve of guanylate cyclase activation was shifted rightward by a factor of 30. ANP-R1 receptors were upregulated through protein synthesis in cells exposed to 1 mM carbamylcholine or 1 mM dibutyryl cyclic AMP for 8-24 h (ANP was ineffective).
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PMID:Characterization and regulation of atrial natriuretic peptide (ANP)-R1 receptors in the human neuroblastoma cell line NB-OK-1. 168 Jul 22

Peptide hormones can stimulate cyclic GMP synthesis through either of two general mechanisms: some peptides activate the cytoplasmic form of guanylate cyclase via a coupling factor called EDRF (endothelium-derived relaxation factor), while others activate the membrane form by interacting directly with an extracellular binding domain of the cyclase molecule itself. We have investigated the mechanism(s) by which crustacean hyperglycemic hormone (CHH), a neuropeptide that regulates energy metabolism in crustaceans, elevates cyclic GMP levels in lobster muscle. Phosphodiesterase inhibitors potentiate the response in intact tissue. This indicates that the primary effect of the peptide is to activate a cyclase rather than inhibit a phosphodiesterase. Methylene blue, a specific inhibitor of the EDRF pathway, does not block the actions of CHH. In addition, nitroprusside, an agent that directly activates the EDRF pathway in vertebrate animals, does not activate guanylate cyclase either in intact or homogenized lobster muscle. This indicates that the EDRF pathway, although prominent in vertebrate muscle, is not found in crustaceans and further suggests that the membrane cyclase is the most likely target of CHH. Membrane and soluble cyclases can be isolated from homogenates of lobster muscle (in a 3.5:1 ratio), and both are stimulated by Mn2+ and inhibited by Ca2+. CHH has no effect on the soluble enzyme. Coupling of CHH receptors to the particulate cyclase, however, remains intact in isolated membranes, thus providing a new model system for the study of receptor/cyclase interactions.
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PMID:Activation of membrane guanylate cyclase by an invertebrate peptide hormone. 170 Jul 84

In spite of its pivotal role in visual transduction, very little is known about guanylate cyclase of retinal photoreceptor cells. The enzyme has not yet been purified principally because of the difficulty in solubilizing it. We report here a simple method for solubilization of 67% of the cyclase activity from the retinal rod disk membranes (RDM). With Nonidet P-40 as detergent, the solubilization of cyclase is favored by a high concentration of KCl and exclusion of manganese. The solubilized and the residual insoluble enzymes are both highly unstable but could be partially stabilized by dithiothreitol. They were both insensitive to calcium, calmodulin, and atrial natriuretic factor. They also responded similarly to varying the manganese concentration in the assay. For the activity in both fractions, the Km for GTP was about 230 microM, Line-weaver-Burk plots showed that substrate binding was cooperative, and Hill plots suggested that there are two substrate binding sites. Cumulatively, these observations showed that while the entire activity could not be solubilized, the solubilized and the residual insoluble activities probably belonged to the same enzyme. Partial purification resolved the solubilized enzyme into two activities refered to as enzymes 1 and 2. Both had substrate saturation kinetics similar to the solubilized enzyme and were inhibited competitively by inorganic pyrophosphate, one of the products of the cyclase reaction. The Ki for PPi for enzyme 1 was 70-100 microM and 150-200 microM for enzyme 2. cGMP at concentrations up to 800 microM had no influence on the activity of either enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Guanylate cyclase from bovine rod outer segments: solubilization, partial purification, and regulation by inorganic pyrophosphate. 197 Nov 84

The stereochemical course of the reaction catalyzed by guanylate cyclase from bovine retinal rod outer segments was investigated using phosphorothioate analogs of GTP as chiral probes. (Sp)-Guanosine 5'-O-(1-thiotriphosphate) (Sp-GTP alpha S) is a substrate, whereas (Rp)-GTP alpha S is a competitive inhibitor (K1 = 0.1 mM), but not a substrate. (Sp)-GTP alpha S is converted into (Rp)-guanosine 3':5'-monophosphorothioate, showing that the reaction proceeds with inversion of configuration at the alpha-phosphorus atom. Km and Vmax for (Sp)-GTP alpha S (at low [Ca2+], 20 nM) are 3.7 mM and 1.1 nmol/min/mg of rhodopsin, respectively, compared with 1.1 mM and 23.1 nmol/min/mg of rhodopsin for GTP. Vmax for the cyclization of (Sp)-GTP alpha S, as for GTP, increases 10-20-fold when the calcium level is lowered. This activity change is centered at approximately 90 nM and has a Hill coefficient of 4.8. The configuration of the metal-substrate complex was determined by measuring the effectiveness of the Sp and Rp isomers of GTP alpha S and guanosine 5'-O-(2-thiotriphosphate) (GTP beta S) in the presence of Mg2+ or Mn2+. (Sp)-GTP alpha S is a substrate with either Mg2+ or Mn2+, whereas (Rp)-GTP beta S is a substrate with only Mn2+. These findings suggest that the substrate is a metal-beta, gamma-bidentate complex with delta screwsense. We also found that the cyclization reaction catalyzed by the membrane-bound guanylate cyclase from sea urchin sperm proceeds with inversion of configuration at the alpha-phosphorus atom. The stereochemical course of the reactions catalyzed by all prokaryotic and eukaryotic adenylate cyclases and guanylate cyclases studied thus far is the same.
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PMID:Stereochemical course of the reaction catalyzed by guanylate cyclase from bovine retinal rod outer segments. 197 55

Soluble guanylyl cyclase was purified from bovine lung by an immunoaffinity chromatographic method using IgG fractions of antisera against a synthetic peptide of the C-terminus of the 70-kDa subunit of the enzyme. After anion-exchange chromatography, the enzyme was bound to an immunoaffinity column and was eluted with the synthetic peptide. This method allowed the convenient isolation of 2 mg of apparently homogeneous enzyme from 40 g cytosolic proteins. The enzyme had an apparent molecular mass of about 150 kDa and consisted of two subunits (70 kDa and 73 kDa) as determined by gel permeation fast protein liquid chromatography and SDS/PAGE. The basal activities determined in the presence of Mg2+ and Mn2+ were 10-20 nmol.min-1.mg-1 and 80-100 nmol.min-1.mg-1, respectively. The enzyme exhibited an ultraviolet-visible absorption spectrum typical for hemoproteins, with a Soret band at 430 nm. The purified enzyme was stimulated by NO-containing compounds. Maximal enzyme activities measured in the presence of sodium nitroprusside were 1.2-2.4 mumol.min-1.mg-1 (half-maximal effect of sodium nitroprusside at 1.3-1.9 microM) and 0.9-1.8 mumol.min-1.mg-1 (half-maximal effect at 0.28-0.41 microM sodium nitroprusside) in the presence of Mg2+ and Mn2+, respectively. The method developed for the large-scale purification of soluble guanylyl cyclase by immunoaffinity chromatography, using synthetic peptides for the elution of the enzyme, appears to be superior to previously described methods. As antibodies against synthetic peptides corresponding to deduced amino acid sequences of the respective protein are easily obtained, the described method may be suitable for a convenient large-scale purification of various proteins.
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PMID:Purification of soluble guanylyl cyclase from bovine lung by a new immunoaffinity chromatographic method. 197 95

A guanylate cyclase was identified in cilia from rat and pig olfactory epithelia. Enzyme activities were 200-250 and 90-100 pmol/min.mg-1, respectively. Activity required the presence of non-ionic detergents, e.g., 0.1% Lubrol PX. MnGTP, not MgGTP was used as a substrate. Furthermore, 0.9 mM free Mn2+ was necessary for optimal activity indicating a regulatory site for a divalent cation. The guanylate cyclase displayed sigmoidal Michaelis-Menten kinetics suggesting cooperativity between MnGTP and enzyme. S0.5 was 160 microM MnGTP. The Hill coefficient of 1.7 indicates that more than one class of substrate-binding sites interact in a positive cooperative manner. ATP inhibited the enzyme and linearized plots of substrate kinetics with MnGTP. SH-Blocking agents reversibly inhibited enzyme activity. Sodium azide and nitroprusside were without effect as were several odorants. A guanylate cyclase activity in cilia from tracheal tissue had properties similar to the olfactory enzyme.
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PMID:Guanylate cyclase in olfactory cilia from rat and pig. 197 67

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