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)

We studied the activation and inactivation of recombinant guanylyl cyclase (GC) C stably expressed in human kidney 293 cells. Activation of GC-C by heat-stable enterotoxin (STa), Cd2+, hemin, or the detergent Triton X-100 was followed by a rapid inactivation of the enzyme. Adenine nucleotides were found to prevent the inactivation process in native membranes, as well as following enzyme solubilization and immunopurification. Inactivation of GC-C was not associated with dephosphorylation. However, the phosphorylation of GC-C was promoted by phorbol esters, known activators of protein kinase C. The activation of purified GC-C by STa required the presence of a nonspecific factor as exemplified by bovine serum albumin. When immunopurified GC-C, stabilized by ATP and bovine serum albumin, was analyzed by SDS-polyacrylamide gel electrophoresis under nonreducing conditions, proteins with almost twice the molecular mass (220 and 245 kDa) of the monomer were observed. The mobility of these high M(r) GC-C forms was reduced by STa, suggesting that STa induces a conformation change in a preexisting GC-C dimer. These results indicate that ATP interacts directly with GC-C, stabilizing its active conformation and that the activation of GC-C may occur in the absence of other specific regulatory factors.
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PMID:Heat-stable enterotoxin activation of immunopurified guanylyl cyclase C. Modulation by adenine nucleotides. 810 20

This communication examines the possibility that nitric oxide (NO) production by endothelial cells results from changes in cell membrane fluidity. Lysophosphatidylcholine (LPC) alters fluidity of the endothelial cell membranes causing vascular relaxation. Through membrane alterations LPC influences function of a number of membrane receptors and modulates enzyme activity. As a result of detergent action, lysophosphatidylcholine (LPC) causes activation of guanylate cyclase, stimulates sialyltransferase and regulates protein kinase C activity. It has already been demonstrated that ionic detergents, such as Triton X-100 also cause vascular relaxation, possibly induced by NO production from endothelial cells. It is postulated that production of nitric oxide results from changes in membrane viscosity; this may represent a mechanism for its regulation in biological systems.
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PMID:Membrane function and vascular reactivity. 839 7

This study was undertaken to characterize the enzymatic properties of the particulate guanylyl cyclase previously shown to be present at a high level of activity in purified rat brain myelin. Significant activation was achieved by both Lubrol-PX and Triton X-100, the latter being somewhat more effective. A pH optimum of 7.8 was observed, compared to 7.4 for microsomes. Employing 1.2 mM GTP with 1% Triton X-100, linearity of response was observed up to 60 min and approximately 1.2 mg of myelin protein. Kinetic analysis revealed Km values of 0.258mM and 0.486mM for myelin and microsomes, respectively, similar values being obtained by Lineweaver-Burke analysis or Direct Linear Plot. Vmax values were 20 and 266 pmol/mg protein/min for myelin and microsomes, respectively. Washing of the myelin with 0.5 M NaCl or 0.1% Na taurocholate did not remove a significant amount of guanylyl cyclase activity, indicating the enzyme to be intrinsic to the myelin sheath.
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PMID:Characterization of guanylyl cyclase in purified myelin. 873 39

Mutation of an invariant glutamate residue found within the catalytic domain of guanylyl cyclases resulted in a dramatic 14-fold increase in the activity of the guanylyl cyclase-A receptor. Even in the presence of Mn2+/Triton X-100, a treatment previously thought to yield hormone-independent and maximum cyclase activity, the mutant enzyme remained 7-fold more active; to our knowledge, this is the first example of a protein modification or of an added agent that significantly increases cyclase activity in the presence of Mn2+/Triton X-100. Intracellular concentrations of cGMP in cells expressing the mutant (E974A) cyclase were only marginally elevated by the addition of atrial natriuretic peptide, and in broken-cell preparations, the mutant enzyme also was relatively insensitive to ligand/regulatory nucleotide. The marked increase in cyclase activity was not due to a relief of protein kinase domain inhibition, since the point mutation caused 7- to 13-fold elevations in guanylyl cyclase-A activity when the protein kinase homology domain was deleted. The E974A mutation also altered the kinetics from positive cooperative to linear with respect to MnGTP, suggesting disruption of subunit-subunit interactions. Thus, a single point mutation within the catalytic domain of a guanylyl cyclase results in a constitutively hyperactive enzyme that is independent of protein kinase domain regulation.
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PMID:A mutation of the atrial natriuretic peptide (guanylyl cyclase-A) receptor results in a constitutively hyperactive enzyme. 901 5

In photoreceptor outer segments, particulate guanylyl cyclase (RetGC) is stimulated at low intracellular Ca2+ concentrations by guanylyl cyclase activating protein (GCAP), a Ca2+-sensitive activator, to resynthesize light-depleted cGMP. In washed outer segment membranes, we find that GCAP-stimulable RetGC is rapidly inactivated at physiological temperatures (30-37 degrees C). Under the same conditions, RetGC remains competent for stimulation by S-100 protein preparations or Mn2+/Triton X-100, indicating that the cyclase catalytic domain remains functional. GCAPs and adenine nucleotides protect against inactivation. Protection by GCAPs is independent of Ca2+ concentration, suggesting that there is a Ca2+-independent interaction between GCAP and RetGC. Protection by ATP (EC50 = 150 microM) is not due to phosphorylation, since the nonhydrolyzable analogue adenylyl imidodiphosphate (AMP-PNP) protects equally well. In addition to their roles in protection, ATP and AMP-PNP also slowly stimulate cyclase activity. In parallel with the functional change in RetGC at physiological temperatures, we also observe a structural change. A 62-kDa intracellular fragment of RetGC-1 becomes more sensitive to cleavage by trypsin after preincubation at 30 degrees C unless ATP, AMP-PNP, or GCAP is present. Adenine nucleotides and GCAPs thus protect RetGC structurally, as well as functionally.
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PMID:Domain-specific stabilization of photoreceptor membrane guanylyl cyclase by adenine nucleotides and guanylyl cyclase activating proteins (GCAPs). 930 94

C-type natriuretic peptide (CNP) binds the guanylyl cyclase-linked natriuretic peptide receptor B (NPR-B) and stimulates marked elevations of the intracellular signaling molecule, cGMP. Here, the essential role of phosphorylation in the hormonal activation and deactivation of this receptor is described. Exposure of NIH3T3 fibroblasts overexpressing NPR-B (3T3-NPR-B) to CNP resulted in time-dependent decreases in both subsequent CNP-dependent cGMP elevations in whole cells and hormone-dependent guanylyl cyclase activity assayed in crude membranes. NPR-B isolated from resting 3T3-NPR-B cells was phosphorylated on serine and threonine residues, and exposure to CNP resulted in a time-dependent dephosphorylation and desensitization of the receptor. Immunoblot analysis and guanylyl cyclase activity assayed with the general activators Mn2+ and Triton X-100 indicated that these reductions were not due to receptor degradation. Tryptic phosphopeptide mapping analysis suggested that CNP treatment caused a complete dephosphorylation of approximately one-half of the NPR-B population. In vitro dephosphorylation of crude 3T3-NPR-B membranes with purified protein phosphatase 2A was highly correlated with losses in CNP- but not Mn2+- and Triton X-100-dependent guanylyl cyclase activity. Taken together, these data indicate that the catalytic activity of NPR-B is tightly coupled to its phosphorylation state and that dephosphorylation is a mechanism of desensitization.
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PMID:Phosphorylation-dependent regulation of the guanylyl cyclase-linked natriuretic peptide receptor B: dephosphorylation is a mechanism of desensitization. 948 90

In the current concept of phototransduction, the concentration of cGMP in retinal rod outer segments is controlled by the balance of two enzyme activities: cGMP phosphodiesterase (PDE) and guanylyl cyclase (GC). However, no protein directly mediates these two enzyme systems. Here we show that RGS9, which is suggested to control PDE activity through regulation of transducin GTPase activity (He, W., Cowan, C. W., and Wensel, T. G. (1998) Neuron 20, 95-102), directly interacts with GC. When proteins in the Triton X-100-insoluble fraction of bovine rod outer segments were isolated by two-dimensional gel electrophoresis and binding of GC to these proteins was examined using a GC-specific antibody, proteins (55 and 32 kDa) were found to interact with GC. However, the activity of GC bound to the 55-kDa protein was not detected. This observation was elucidated by the finding that the 55-kDa protein inhibited GC activity in a dose-dependent manner. Amino acid sequence showed that five peptides derived from the 55-kDa protein were identical to corresponding peptides of RGS9. Together with other biochemical characterization of the 55-kDa protein, these observations indicate that the 55-kDa protein is RGS9 and that RGS9 inhibits GC. RGS9 may serve as a mediator between the PDE and GC systems.
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PMID:A possible role of RGS9 in phototransduction. A bridge between the cGMP-phosphodiesterase system and the guanylyl cyclase system. 971 27

An aspartate-to-alanine point mutation in the catalytic domain (D853A) of guanylyl cyclase-C (GC-C), the heat-stable enterotoxin (STa) receptor, rendered the enzyme catalytically inactive. Mn2+/Triton X-100-stimulated guanylyl cyclase activity was detected in membranes from COS7 cells overexpressing GC-C but not GC-CD853A. STa treatment of paired cells resulted in cGMP production in those transiently expressing GC-C but not GC-CD853A. GC-C and GC-CD853A showed similar Bmax and Kd values for [125I]STa binding in these cells, indicating that the lack of catalytic activity in the latter was not due to differing expression levels or reduced binding affinity. The involvement of the catalytic domain in aldosteronogenesis was studied in human adrenocortical H295R cells. COS7 and H295R cells infected with vaccinia virus-expressing GC-C and GC-CD853A (VVGC-CD853A) had [125I]STa-binding characteristics akin to those in transfected cells. Immunoblot confirmed that both GC-C and GC-CD853A formed similar higher order oligomers in infected cells. Virus-mediated expression of GC-C in H295R cells revealed concentration-dependent STa-stimulated cGMP formation that was undetectable in VVGC-CD853A-infected cells. STa decreased angiotensin II-stimulated human aldosterone generation in a concentration-dependent manner in vaccinia virus-expressing GC-C-infected cells but not in those infected with VVGC-CD853A. These results demonstrate that a catalytically active guanylyl cyclase is required for the inhibition of aldosteronogenesis.
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PMID:Functionally active catalytic domain is essential for guanylyl cyclase-linked receptor mediated inhibition of human aldosterone synthesis. 980 11

The aim of the present study was to perform the partial characterization of the enzyme guanylyl cyclase (GC) in bovine thyroid. The results obtained showed the presence of two types of GC: one is soluble and comprises around 79% of total activity, while the other is particulate. Treatment with 1% Triton X-100 increased both activities. When the kinetics of the enzyme was analyzed, using the complex MnGTP as a substrate, the results showed a Michaelis type kinetics for the soluble enzyme, with a Km of 0.037 mM, whereas the particulate GC showed a positive allosteric behavior with a S0.5 of 0.214 mM and a Hill coefficient of 1.9, indicating that the enzyme has at least two binding sites for the substrate. When the influence of different Mn2+ concentrations was studied, a positive allosteric behavior for the soluble GC was found, with a S0.5 of 1.2 mM and a Hill coefficient of 2.2. The kinetics of the particulate enzyme under similar conditions was of Michaelis type, with a Km of 0.752 mM. Although the enzyme is highly dependent on Mn2+, it was of interest to investigate the possible effects of other divalent cations, such as Ca2+ and Mg2+. The replacement of Mn2+ for Mg2+ caused a complete disappearance of the particulate enzyme activity, while the soluble activity decreased by 85%. Addition of Ca2+ had no effect on either GC. However, with suboptimum. concentrations of Mn2+, high Ca2+ concentration caused an increase in soluble activity, but it comprised only 20% of maximum activity with optimum Mn2+ concentrations. With the particulate enzyme a slight but significant inhibition was observed.
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PMID:Partial characterization of guanylyl cyclase activity in calf thyroid. 1038 83

Nothing is known about the effects of nitric oxide (NO) on cardiac performance in fish. Using an in vitro working heart preparation that generates physiological values of output pressure, cardiac output and ventricular work and power, we assessed the effects of NO on the cardiac performance of the eel Anguilla anguilla. We examined basal cardiac performance (at constant preload, afterload and heart rate), the effects of cholinergic stimulation and the Frank-Starling response (preload-induced increases in cardiac output at constant afterload and heart rate). The NO synthase (NOS) inhibitors NG-monomethyl-L-arginine (L-NMMA) and L-N5(1-iminoethyl)ornithine (L-NIO), the guanylate cyclase inhibitor 1H-(1,2,4)oxadiazolo-(4,3-a)quinoxalin-1-one (ODQ) and Triton X-100, a detergent that damages the endocardial endothelium, all increased stroke volume (VS) and stroke work (WS). In contrast, the endogenous NOS substrate L-arginine, tested before and after treatment with haemoglobin, the NO donor 3-morpholinosydnonimine, tested with and without the superoxide scavenger superoxide dismutase, and the stable cGMP analogue 8-bromoguanosine 3',5'-cyclic monophosphate (8-Br-cGMP) decreased VS and WS. Acetylcholine chloride produced a biphasic effect. At nanomolar concentrations, in 34 % of the preparations, it induced a NO-cGMP-dependent positive inotropism that required the integrity of the endocardial endothelium. Pretreatment with Triton X-100 or with NO-cGMP pathway inhibitors (L-NMMA, L-NIO, NG-nitro-l-arginine methyl ester, Methylene Blue and ODQ) abolished the positive effect of acetylcholine. In contrast, at micromolar concentrations, acetylcholine produced a negative effect that involved neither the endocardial endothelium nor the NO-cGMP pathway. Pre-treatment with L-arginine (10(-6 )mol x l(-1)) was without effect, whereas L-NIO (10(-5 )mol x l(-1)) significantly reduced the Frank-Starling response. Taken together, these three experimental approaches provide evidence that NO modulates cardiac performance in the eel heart.
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PMID:Nitric oxide modulates cardiac performance in the heart of Anguilla anguilla. 1131 92

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