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)

A soluble, sodium-nitroprusside-stimulated guanylate cyclase as been purified from bovine lung by DEAE-cellulose chromatography, ammonium sulfate precipitation, chromatography on Blue Sepharose CL-6B and preparative gel electrophoresis. Apparent homogeneity was obtained after at least 7000-fold purification with a yield of 3%. A single stained band (Mr 72000) was observed after gel electrophoresis in the presence of sodium dodecyl sulfate. The purified enzyme migrated as one band also under non-denaturing conditions in acrylamide gels (5-12%). The mobility of this band corresponded to an Mr of 145000. The enzyme sedimented on sucrose gradients with an S20, w of 7.0 S. Gel filtration yielded a Stokes' radius of 4.6 nm. These data suggest that the enzyme has an Mr of approximately 150000 and consists of two, presumably identical, subunits of Mr 72000. Sodium nitroprusside stimulated the purified enzyme 15-fold and 140-fold to specific activities of 8.5 and 15.7 mumol of cGMP formed min-1 mg-1 in the presence of Mn2+ and Mg2+, respectively. Formation of cGMP was proportional to the incubation time and to the amount of enzyme added. The stimulatory effect of sodium nitroprusside was half-maximal at about 2 microM, was observed immediately after addition and could be reversed either by dilution or by removal of sodium nitroprusside on a Sephadex G-25 column. The purified enzyme in the absence of catalase was stimulated by sodium nitroprusside, N-methyl-N'-nitro-N-nitrosoguanidine and 3-morpholino-sydnonimine and in the presence of catalase by sodium nitrite and sodium azide. In the presence of Mn2+ and sodium nitroprusside, the purified enzyme catalyzed the formation of cAMP from ATP at a rate of 0.6 mumol min-1 mg-1.
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PMID:Purification of a soluble, sodium-nitroprusside-stimulated guanylate cyclase from bovine lung. 611 59

Guanylate cyclase activity was purified to apparent homogeneity from rat liver (7700-fold) and bovine lung (8600-fold) soluble fractions by ammonium sulfate precipitation, DEAE-cellulose chromatography, agarose gel filtration and isoelectric focussing. The purified enzymes did not contain heme and did not respond to NO, nitroprusside or NO-cysteine in the absence of exogenous hematin. By contrast, preformed NO-hemoglobin increased enzyme activity 10-12-fold or 60-80-fold when 4 mM MnCl2 or 4 mM MgCl2, respectively, were employed as the metal ion co-factor. Addition of hematin to the enzyme preparations restored responsiveness to NO, nitroprusside or NO-cysteine to levels seen with NO-hemoglobin. Partial purification of guanylate cyclase from the soluble fraction of bovine lung (2400-fold) by ammonium sulfate precipitation, DEAE-cellulose chromatography, agarose gel filtration and high pressure liquid chromatography (HPLC) resulted in a preparation which contained endogenous heme as indicated by absorbance at 436 nm and responded to NO, nitroprusside and NO-cysteine in the absence of added hematin. By contrast, guanylate cyclase purified from the hepatic supernatant by the identical procedure, did not contain detectable absorption due to heme and did not respond or responded poorly to NO, nitroprusside or NO-cysteine in the absence of exogenous hematin. Analogous to hepatic guanylate cyclase purified by isoelectric focussing, the HPLC purified hepatic enzyme was activated 14-fold by NO-hemoglobin in assays which contained 4 mM MnCl2 and 60-fold in assays with 4 mM MgCl2. Further, addition of hematin to the HPLC purified enzyme restored responsiveness to NO, nitroprusside and NO-cysteine to levels seen with NO-hemoglobin. These effects of hematin were specific for hematin and were not mimicked by albumin, sucrose or dithiothreitol. Moreover, the failure to observe stimulation of purified hepatic guanylate cyclase was not explained by a shift in the concentration response relationship between NO and guanylate cyclase activity. Several observations indicated that neither NO-thiol complexes nor [Fe(CN)5NO]-3 were the proximate moieties responsible for activation of guanylate cyclase by nitroprusside and related agents, as has been previously suggested. These results strongly support the proposal that activation of guanylate cyclase by NO and related agents specifically requires formation of an NO-heme complex.
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PMID:Requirement for heme in the activation of purified guanylate cyclase by nitric oxide. 613 53

The particulate form of guanylate cyclase from sea urchin spermatozoa was purified to apparent homogeneity by chromatography on GTP-Sepharose and DEAE-Sepharose and by preparative gel electrophoresis. The sedimentation coefficient (S20,w) was 6.8 and the Stokes radius was 5.1 nm, from which a native molecular weight of 157,000 was calculated. A single protein or periodic acid-Schiff staining band of 135,000 Da was observed after Na dodecyl SO4 gel electrophoresis. Antibody was produced to guanylate cyclase and was shown by electrophoretic transfer experiments (Western blot) to interact with only the Mr = 135,000 band in cases where all of the detergent-extracted protein from spermatozoa was added to the Na dodecyl SO4 gels. Although guanylate cyclase was normally bound to concanavalin A-Sepharose, after endoglycosidase H treatment it failed to bind. Treatment of the enzyme with endoglycosidase H did not alter guanylate cyclase activity, but the apparent size of the enzyme decreased to 72,000 Da on Na dodecyl SO4 gels. An analysis of carbohydrate composition indicated that the oligosaccharides contained N-acetylglucosamine, mannose, galactose, and 2-aminoerythritol in molar ratios (1:3:0.75:2); after endoglycosidase H treatment the enzyme contained essentially no carbohydrate. Major amino acids in the enzyme were aspartic (Asn) and glutamic (Gln) which accounted for approximately 25 mol % of the enzyme amino acid composition. The purified enzyme displayed linear kinetics on double reciprocal plots and had a KMnGTP = 133 microM, KM2+ = 138 microM, KiMnGTP = 122 microM, KiMn2+ = 127 microM, and a V max in excess of 15 mumol of cyclic GMP formed/min/mg of protein at 30 degrees C. Sodium nitroprusside did not stimulate the enzyme in either the presence or absence of added hemeproteins. These results indicate that the particulate form of guanylate cyclase from sea urchin spermatozoa is a glycoprotein which is distinctly different than the soluble form of the enzyme found in mammalian tissues.
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PMID:Purification and characterization of particulate guanylate cyclase from sea urchin spermatozoa. 613 28

The existence of Ca2+-activated, phospholipid-dependent protein kinase (protein kinase C), the effect of gastrin on phospholipid metabolism and guanylate cyclase activity were investigated to elucidate the cellular mechanism of action of gastrin on the corporal mucosa of the canine stomach. Protein kinase activity was determined by measuring the incorporation of [32P] into calf thymus H1-histone from [32P]-ATP. One unit of protein kinase was defined as the amount of enzyme which incorporated 1 pmol of phosphate from ATP into H1-histone. Protein kinase C was found in 100,000xg supernatant of homogenate fractionated by a DEAE-cellulose column chromatography. Characteristics of further purified protein kinase C, such as dependency on divalent cations and phospholipids, were in agreement with those of previously reported protein kinase C in other tissues. Furthermore, the gastric corporal mucosa was found to contain protein kinase C in large quantities. The specific activity of protein kinase C was 26,000 units/mg protein. The phospholipid metabolism was evaluated by the incorporation of [14C]-glycerol-3-phosphate and the change of the radioactivity of [32P] in individual phospholipids. Each phospholipid was extracted from the gastric corporal mucosa and isolated by thin layer chromatography. Guanylate cyclase activity was determined by measuring the cGMP produced, using radioimmunoassay. Gastrin significantly increased the incorporation of [14C]-glycerol-3-phosphate into phosphatidylethanolamine in the presence of acetylcholine (Ach). Ach increased the uptake of the tracer into phosphatidylinositol significantly, and the increase was enhanced by the simultaneous addition of gastrin. In the experiments with [32P]-labeled phospholipids, gastrin increased the incorporation of [32P] into phosphatidylethanolamine significantly. The significant increase of the radioactivity in phosphatidylinositol by Ach failed to be enhanced by gastrin, but that of phosphatidylethanolamine by Ach was enhanced by gastrin. No stimulation of guanylate cyclase activity by gastrin was detected in the dispersed gastric corporal mucosal cells. These results indicate that gastric corporal mucosa was one of the most abundant tissues in which protein kinase C was contained, when compared with various mammalian tissues previously reported by Minakuchi, Nishizuka, et al. Nishizuka et al, recently proposed the novel hypothesis that phosphatidylinositol turnover activated by cAMP-independent agonists will be essentially required to activate protein kinase C. Our results suggest that gastrin can provoke phospholipids turnover including phosphatidylinositol turnover in gastric corporal mucosa. Therefore, our data indicate the possibility that the protein kinase C system plays an important role in the cellular mechanism of action of gastrin on gastric corporal mucosa.
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PMID:[The cellular mechanism of action of gastrin on the corporal mucosa of the canine stomach. (2) Ca2+-activated, phospholipid-dependent protein kinase and phospholipid turnover--possible mediator of gastrin action]. 613 23

The effect of mepacrine (DL-quinacrine-HCI), a specific inhibitor of phospholipase C, on cyclic-GMP levels in human platelets was investigated. The concentrations of mepacrine producing 50% inhibition of human platelet aggregation induced by 5 microM ADP and 3 micrograms/ml of collagen were 50 +/- 8 and 70 +/- 15 microM, respectively. Addition of mepacrine to human platelet suspension resulted in increases in cyclic GMP. In contrast to cyclic-GMP levels, cyclic-AMP content was not affected by mepacrine. Mepacrine did not stimulate guanylate cyclase, but did specifically inhibit human platelet cyclic-GMP phosphodiesterase, separated from cyclic-AMP phosphodiesterase or other forms of phosphodiesterase on DEAE-cellulose columns. Stimulation by cyclic GMP of human platelet cyclic-GMP-stimulated cyclic-AMP phosphodiesterase activity was not inhibited by mepacrine. The IC50 value of the drug for cyclic-GMP phosphodiesterase was 40 microM, and IC50 for cyclic-AMP phosphodiesterase was 1.2 mM. Mepacrine was 30-times more potent as an inhibitor of human platelet cyclic GMP than of cyclic-AMP phosphodiesterase. Mepacrine blocks arachidonate release from human platelets by inhibiting phosphatidylinositol-specific phospholipase C. The increase in cyclic-GMP levels produced by addition of mepacrine will explain part of the pharmacological action of this drug.
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PMID:Mepacrine-induced inhibition of human platelet cyclic-GMP phosphodiesterase. 614 62

A new type of cyclic GMP binding protein was recently identified in our laboratory (Hamet, P. and Coquil, J.-F. (1978) J. Cyclic Nucleotide Res. 4, 281--290). The binding, recovered in the supernatant fractions, is highly specific for cyclic GMP and is clearly distinct from the binding to cyclic GMP-dependent protein kinase. Chromatography on DEAE-Sepharose separated the cyclic GMP binding protein from cyclic AMP binding, cyclic AMP-dependent kinase activities, and from guanylate cyclase. The optimal binding occurs at high pH and in the presence of thiol reagents. Several phosphodiesterase inhibitors increase the affinity of binding (Kd was 353 +/- 60 nM in the absence and 13.4 +/- 1.5 nM in the presence of 1-methyl-3-isobutyl-xanthine). The molecular weight of the binding protein was determined to be about 176,000 and the sedimentation coefficient was 6.4 S. While the binding and phosphodiesterase activities co-migrated on DEAE-Sepharose, gel filtration and sucrose gradients, certain treatments (such as increasing the concentrations of salt and heating) were able to influence one activity while having no effect on the other. Hence, the binding activity may be involved in the regulation of the activity of cyclic GMP phosphodiesterase. Since the binding protein appears to be the only 'receptor' for cyclic GMP detectable in platelets, this protein and/or its relation to cyclic GMP phosphodiesterase may play a role in the mechanism of action of cyclic GMP in platelets.
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PMID:Characteristics of a new binding protein distinct from the kinase for guanosine 3':5'-monophosphate in rat platelets. 624 89

In retinal rods light triggers a cascade of enzymatic reactions that increases cGMP hydrolysis and generates an electrical signal by causing closure of cGMP-gated ion channels in the photoreceptor outer segment. This leads to a decrease in internal Ca, which activates guanylate cyclase and promotes photoresponse recovery by stimulating the resynthesis of cGMP. We report here that the activation of guanylate cyclase by low Ca is mediated by an approximately 20-kDa protein purified from bovine rod outer segments by using DEAE-Sepharose, hydroxylapatite, and reverse-phase chromatographies. In a reconstituted system, this protein restores the Ca-sensitive regulation of guanylate cyclase and when dialyzed into functionally intact lizard rod outer segment decreases the sensitivity, time to peak, and recovery time of the flash response.
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PMID:Purification and physiological evaluation of a guanylate cyclase activating protein from retinal rods. 790 9

Soluble guanylate cyclase (sGC) is a heterodimeric hemoprotein composed of alpha1 and beta1 subunits. sGC is activated by nitric oxide (NO) and therefore plays a central role in NO signal transduction. Activation of sGC by NO is believed to be mediated by the interaction between NO and the heme of sGC. Spectroscopic and kinetic studies have shown that the heme of sGC is in a unique environment. Characterization of the heme environment is critical to the understanding of the mechanism of NO activation. To approach this goal, the beta1 N-terminal fragment consisting of residues 1-385 [beta1(1-385)] of sGC was expressed in E. coli. beta1(1-385) was then purified to homogeneity in two steps by DEAE ion exchange and gel filtration chromatography. Purified beta1(1-385) was found to contain a stoichiometric amount of heme. The UV-visible spectrum of beta1(1-385) is almost identical to that of the native heterodimeric sGC purified from bovine lung. beta1(1-385) binds both NO and CO, leading to a shift in the Soret maximum from 431 nm to 398 and 423 nm, respectively. These spectral shifts are identical to those observed with heterodimeric sGC purified from bovine lung. These results suggest that the heme in the beta1(1-385) is similar to that in the heterodimeric sGC. Therefore, for the first time, the heme binding region of sGC has been unambiguously localized to the N-terminal region of the beta1 subunit. Our data also suggest that the N-terminal region of the beta1 subunit of sGC is itself sufficient for heme binding.
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PMID:Localization of the heme binding region in soluble guanylate cyclase. 939 30

Sustained increases in intracellular cGMP concentrations ([cGMP]i) inhibit cell growth and induce apoptosis. We now report that a cGMP-specific phosphodiesterase, PDE5, plays a dominant role in regulating [cGMP]i transitions that inhibit cell growth and control susceptibility to apoptosis in pulmonary endothelium. Atrial natriuretic peptide (ANP) activates guanylyl cyclase A/B and induces a rapid [cGMP]i rise 2-5 min after its application, in both pulmonary arterial endothelial cells (PAECs) and pulmonary microvascular endothelial cells (PMVECs). However, increased [cGMP]i in PAECs is transient and decays within 10 min due to cytosolic PDE5 hydrolytic activity. Increased [cGMP]i in PMVECs is sustained for >3 h due to the absence of PDE5. Indeed, at any ANP concentration, the sustained (30 min) [cGMP]i rise is greater in PMVECs than in PAECs, unless PAECs are also treated with the PDE5 inhibitor zaprinast. Using RT-PCR, Western blot analysis, immunoprecipitation, and DEAE chromatography, we resolved the expression and activity of PDE 5A1/A2 only in PAECs. Similarly, PDE5 expression was restricted to extra-alveolar endothelium in vivo. ANP induced growth inhibition and apoptosis in PMVECs, but similar effects were not seen in PAECs unless ANP treatment was combined with zaprinast. ANP blocked the VEGF-induced proliferation and migration in PMVECs. Collectively, these data suggest that PDE5-regulated [cGMP]i controls endothelial cell growth and apoptosis, representing a mechanism of heterogeneity between two endothelial phenotypes.
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PMID:Cyclic GMP-specific phosphodiesterase 5 regulates growth and apoptosis in pulmonary endothelial cells. 1579 63

Soluble guanylate cyclase (sGC), the main target of nitric oxide (NO), is a cytosolic, heme-containing, heterodimeric enzyme that catalyzes the conversion of guanosine 5'-triphosphate (GTP) to 3,5'-cyclic guanosine monophosphate (cGMP) and pyrophosphate (PPi) in the presence of Mg2+. Cyclic GMP is then involved in transmitting the NO activating signals to a variety of downstream effectors such as cyclic-nucleotide-gated channels, protein kinases, and phosphodiesterases. In this work, sGC has been purified from bovine lung. The lungs were subjected to grinding and extraction with buffer at physiological pH followed by centrifugation. The resulting solution was subjected to successive column chromatography on DEAE- and Q-Sepharose, Ceramic Hydroxyapatite, Resource Q, and GTP-agarose. The purified enzyme migrated as a two-band protein on SDS-PAGE corresponding to sGC subunits alpha (M(r)=77,532) and beta (M(r)=70,500) and had an A(280 nm)/A(430 nm) of approximately 1 indicating one heme per heterodimer. The yield of enzyme was 8-10mg from 4 to 5 kg bovine lungs. V(max) and K(m) of non-stimulated sGC were 22 nmol/mg/min and 180 microM, respectively. Upon stimulation with the NO donor 3-ethyl-3-(ethylaminoethyl)-1-hydroxy-2-oxo-1-triazene, the V(max) increased to 1330 nmol/mg/min while the K(m) dropped to 43 microM. The quality and quantity of enzyme make it suitable for studies to probe the structure and catalytic mechanism of this enzyme and for research related to drug discovery.
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PMID:High yield purification of soluble guanylate cyclase from bovine lung. 1843 May 86


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