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)

Rod outer segments from bovine retina contain a higher level of intracellular inorganic pyrophosphatase (EC 3.6.1.1) activity than has been found in any other mammalian tissue; the specific activity in extracts of soluble outer segment proteins is more than 6-fold higher than in extracts from bovine liver and more than 24-fold higher than in skeletal muscle extracts. This high activity may be necessary to keep inorganic pyrophosphate concentrations low in the face of the high rates of pyrophosphate production that accompany the cGMP flux driving phototransduction. We have begun to explore the role of inorganic pyrophosphatase in photoreceptor cGMP metabolism by 1) studying the kinetic properties of this enzyme and its interactions with divalent metal ions and anionic inhibitors, 2) purifying it and studying its size and subunit composition, and 3) examining the effects of pyrophosphate on rod outer segment guanylyl cyclase. Km for magnesium pyrophosphate was 0.9-1.5 microM, and the purified enzyme hydrolyzed > 885 mumol of PPi min-1 mg-1. The enzyme appears to be a homodimer of 36-kilodalton subunits when analyzed by gel electrophoresis and density gradient centrifugation, implying that kcat = 10(3) s-1, and kcat/Km = 0.7-1 x 10(9) M-1 s-1. The enzyme was inhibited by Ca2+ at submicromolar levels: 28% inhibition was observed at 138 nM [Ca2+], and 53% inhibition at 700 nM [Ca2+]. Imidodiphosphate acted as a competitive inhibitor, with Ki = 1.2 microM, and fluoride inhibited half-maximally approximately 20 microM. Inhibition studies on rod outer segment guanylyl cyclase confirmed previous reports that pyrophosphate inhibits guanylyl cyclase, suggesting an essential role for inorganic pyrophosphatase in maintaining cGMP metabolism.
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PMID:Inorganic pyrophosphatase from bovine retinal rod outer segments. 136 11

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

Products of the reactions catalyzed by highly purified preparations of soluble guanylate cyclase [GTP pyrophosphate-lyase (cyclizing), EC 4.6.1.2] from rat liver were identified and quantified with 31P NMR spectroscopy. Utilization of this technique necessitated modification of the standard assay conditions; higher concentrations of enzyme and substrate (2 mM), Mg2+ instead of Mn2+, and longer incubation times (up to 46 hr) at 30 degrees C were used. Revision of our reported procedure for purificaton of guanylate cyclase [Tsai, S-C., Manganiello, V. C. & Vaughan, M. (1978) J. Biol. Chem. 253, 8452-8457] to include chromatography on Ultrogel AcA34 and agarose-hexane-GTP provided an enzyme with specific activity higher than in our earlier preparations. 31P NMR spectra obtained during incubation of this enzyme showed that the rates of GTP disappearance and cyclic GMP (cGMP) accumulation were constant for approximately 16 hr. They indicated, however, that the preparations were contaminated with inorganic pyrophosphatase. This was removed by preparative electrophoresis, yielding enzyme with specific activities (900-1300 nmol/min per mg of protein) higher than those reported for guanylate cyclases from rat liver or lung. With this preparation, cGMP and PPi were the only products of GTP detected, consistent with the assumption that the guanylate and adenylate cyclase reactions are analogous.
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PMID:Products of reaction catalyzed by purified rat liver guanylate cyclase determined by 31p NMR spectroscopy. 610 59

cGMP and Ca2+ are intracellular messengers in vertebrate rod photoreceptors. cGMP is the excitatory messenger, while intracellular free Ca2+ has been implied to be (one of) the messenger(s) in the process of light adaptation in vertebrate rod photoreceptors. The enzyme guanylyl cyclase (GC, EC 4.6.1.2.) catalyzes the reaction GTP-->cGMP + PPi. Bovine retinal rod outer segments (ROS) contain a particulate GC which is inhibited by an increase in free Ca2+ in the submicromolar range, although the precise molecular mechanism underlying this inhibition is unclear. We have developed an optical enzyme-coupled assay to study regulation of the particulate GC endogenous to bovine ROS. The particulate GC exhibited a Ca(2+)-inhibited (IC50 83-144 nM) activity of 13-23 nmol of PPi/(min-(mg of rhodopsin)). ATP increased the maximal velocity of GC by about 2-fold, and this increase was inhibited by the specific PKC inhibitors chelerythrine and the pseudosubstrate-based peptide inhibitor PKC R10-31N. When the factor that mediated the ATP-dependent increase in GC rate was removed by washing, the ATP-dependent increase in GC rate could be reestablished by addition of purified, constitutively active PKC.
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PMID:Activation by PKC of the Ca(2+)-sensitive guanylyl cyclase in bovine retinal rod outer segments measured with an optical assay. 771 73

Soluble guanylate cyclase (sGC) was isolated from bovine lung, and its resonance Raman (RR) spectra were investigated for the reduced, CO-bound (CO-sGC), NO-bound (NO-sGC), oxidized, and oxidized NO-bound forms in the presence and absence of GTP. The enzyme was purified by more than 12 000-fold in terms of specific activity than the supernatant of homogenates, and the heme content was determined with the pyridine hemochoromogen method and Bradford's protein assay to be 0.8 per heterodimer (alpha, Mr = 74 000; beta, Mr = 69 000). The RR spectra of sGC and CO-sGC including the Fe-His stretch at 203 cm-1 and the Fe-CO stretch at 473 cm-1 were unaltered by binding of GTP and cGMP, but apparent RR spectra of NO-sGC in the presence of GTP changed with time and concentrations of GTP. In the absence of GTP, the RR bands of the N-O stretch (nuNO) and the Fe-NO stretch (nuFe-NO) were observed at 1681 and 521 cm-1, respectively. In its presence, however, two nuNO bands were observed at 1700 and 1681 cm-1, which exhibited 15NO isotopic frequency shifts of 32 and 34 cm-1, respectively. Similar Raman spectral changes were observed with the same amount of cGMP but not with PPi or GTP analogues including ATP, GMPPNP, and GTPgammaS. This suggests that GTP or cGMP binds to the distal side of the heme in the proximity of bound NO, possibly regulating NO binding.
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PMID:Effects of GTP on bound nitric oxide of soluble guanylate cyclase probed by resonance Raman spectroscopy. 925 12

Guanylyl cyclases catalyze the formation of cGMP from GTP. This family of enzymes includes soluble (sGC) and particulate guanylyl cyclases (pGC). The sGC are heterodimers containing one active catalytic site and one inactive pseudo-site. They are activated by nitric oxide. The pGC are homodimers whose activity is notably regulated by peptide binding to the extracellular domain and by ATP binding to the intracellular kinase homology domain (KHD). The catalytic mechanism of the pGC is still not well understood. Homology modeling of the structure of the homodimeric guanylyl cyclase domain, based on the crystal structure of adenylyl cyclase, suggests the existence of two functional sites for the substrate GTP. We used a purified and fully active recombinant catalytic domain from mammalian pGC, to document its enzyme kinetics properties in the absence of the KHD. The enzyme presents positive cooperativity with the substrate Mg-GTP. However, a heterodimeric catalytic domain mutant (GC-HET) containing only one active catalytic site is non-cooperative and is more similar to sGC. Structure-activity studies of purine nucleoside analogs indicate that 2'd3'GMP is the most potent inhibitor of pGC tested. It displays mixed non-competitive inhibition properties that are potentiated by the second catalytic product inorganic pyrophosphate (PPi). It appears to be equivalent to purinergic site (P-site) inhibitors characterized on particulate adenylyl cyclase. Inhibition of pGC by 2'd3'GMP in the presence of PPi is accompanied by a loss of cooperative enzyme kinetics. These results are best explained by an allosteric dimer model with positive cooperativity for both the substrate and inhibitors.
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PMID:Biochemical and pharmacological characterization of P-site inhibitors on homodimeric guanylyl cyclase domain from natriuretic peptide receptor-A. 1719 75

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