Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.2 (guanylate cyclase)
 8,497 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. In the present study, we tested the hypothesis that the negative myocardial metabolic effects of nitric oxide (NO) were reduced in old hearts. 2. Studies were conducted in 17 young (approximately 6 months) and 18 old (> 36 months) New Zealand anaesthetized open-chest rabbits. Either vehicle or s-nitroso-N-acetylpenicillamine (SNAP; 10-4 mol/L; a NO donor) was applied to the epicardial surface of the left ventricle. Coronary blood flow (microspheres) and artero-venous (a-v) O2 difference (microspectrophotometry) were used to determine subepicardial (EPI) and subendocardial (ENDO) O2 consumption. Wall thickening was determined ultrasonically. Cyclic GMP and guanylyl cyclase activity were also determined. Myocardial a-v O2 difference, flow, O2 consumption and wall thickening were comparable in young and old hearts. 3. The EPI and ENDO O2 consumption of SNAP-treated young hearts decreased significantly (> 25%) compared with vehicle (saline). However, SNAP had no significant effects on the O2 consumption of old hearts. In addition, SNAP decreased the percentage wall thickening in young (from 18.0 +/- 1.7 to 13.4 +/- 1.6%), but not old (from 14.5 +/- 0.9 to 11.4 +/- 1.6%), hearts. Basal cGMP levels in old hearts were greater (approximately 70%) than those in young hearts (15.7 +/- 2.0 vs 9.0 +/- 0.8 pmol/g, EPI). s-Nitroso-N-acetylpenicillamine increased cGMP in EPI (13.7 +/- 1.8 pmol/g) and ENDO of young, but not old (18.7 +/- 2.3 pmol/g, EPI), hearts. Similar results were also obtained using another NO donor, namely sodium nitroprusside (SNP; 10-4 mol/L). Guanylyl cyclase activity was elevated in old rabbit hearts with 0.5 mmol/L SNP (131 +/- 12 vs 80 +/- 12 pmol/min per mg protein for old and young rabbits, respectively). 4. Thus, while older hearts had similar O2 consumption and wall thickening compared with young hearts, they responded less well to NO and had significantly elevated basal levels of myocardial cGMP.
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PMID:Ageing blunts the effects of nitric oxide on myocardial O2 consumption. 1220 73

We investigated the molecular mechanism of cyclic GMP-induced down-regulation of soluble guanylyl cyclase expression in rat aorta. 3-(5'-Hydroxymethyl-2'-furyl)-1-benzyl indazole (YC-1), an allosteric activator of this enzyme, decreased the expression of soluble guanylyl cyclase alpha(1) subunit mRNA and protein. This effect was blocked by the enzyme inhibitor 4H-8-bromo-1,2,4-oxadiazolo(3,4-d)benz(b-1,4)oxazin-1-one (NS2028) and by actinomycin D. Guanylyl cyclase alpha(1) mRNA-degrading activity was increased in protein extracts from YC-1-exposed aorta and was attenuated by pretreatment with actinomycin D and NS2028. Gelshift and supershift analyses using an adenylate-uridylate-rich ribonucleotide from the 3'-untranslated region of the alpha(1) mRNA and a monoclonal antibody directed against the mRNA-stabilizing protein HuR revealed HuR mRNA binding activity in aortic extracts, which was absent in extracts from YC-1-stimulated aortas. YC-1 decreased the expression of HuR, and this decrease was prevented by NS2028. Similarly, down-regulation of HuR by RNA interference in cultured rat aortic smooth muscle cells decreased alpha(1) mRNA and protein expression. We conclude that HuR protects the guanylyl cyclase alpha(1) mRNA by binding to the 3'-untranslated region. Activation of guanylyl cyclase decreases HuR expression, inducing a rapid degradation of guanylyl cyclase alpha(1) mRNA and lowering alpha(1) subunit expression as a negative feedback response.
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PMID:Post-transcriptional regulation of soluble guanylyl cyclase expression in rat aorta. 1244 54

Guanylyl cyclase C (GC-C) is a membrane-associated form of guanylyl cyclase and serves as the receptor for the heat-stable enterotoxin (ST) peptide and endogenous ligands guanylin, uroguanylin, and lymphoguanylin. The major site of expression of GC-C is the intestinal epithelial cell, although GC-C is also expressed in extraintestinal tissue such as the kidney, airway epithelium, perinatal liver, stomach, brain, and adrenal glands. Binding of ligands to GC-C leads to accumulation of intracellular cGMP, the activation of protein kinases G and A, and phosphorylation of the cystic fibrosis transmembrane conductance regulator (CFTR), a chloride channel that regulates salt and water secretion. We examined the expression of GC-C and its ligands in various tissues of the reproductive tract of the rat. Using reverse transcriptase and the polymerase chain reaction, we demonstrated the presence of GC-C, uroguanylin, and guanylin mRNA in both male and female reproductive organs. Western blot analysis using a monoclonal antibody to GC-C revealed the presence of differentially glycosylated forms of GC-C in the caput and cauda epididymis. Exogenous addition of uroguanylin to minced epididymal tissue resulted in cGMP accumulation, suggesting an autocrine or endocrine activation of GC-C in this tissue. Immunohistochemical analyses demonstrated expression of GC-C in the tubular epithelial cells of both the caput epididymis and cauda epididymis. Our results suggest that the GC-C signaling pathway could converge on CFTR in the epididymis and perhaps control fluid and ion balance for optimal sperm maturation and storage in this tissue.
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PMID:Expression of the receptor guanylyl cyclase C and its ligands in reproductive tissues of the rat: a potential role for a novel signaling pathway in the epididymis. 1244 76

Guanylyl cyclase activating proteins (GCAPs) are Ca2+-binding proteins of the EF-hand superfamily, through which the intracellular calcium regulates cGMP synthesis in vertebrate photoreceptors. GCAPs play an essential role in the calcium feedback mechanism that controls recovery and light adaptation of rods and cones. Moreover, mutations in at least one of the GCAPs have already been linked to two forms of congenital human retinal diseases. The GCAPs represent a separate small subfamily among the EF-hand proteins that are structurally similar to recoverin, but demonstrate a number of unique regulatory properties. When in the Ca2+-free conformation (as in light-adapted photoreceptors), GCAPs stimulate photoreceptor membrane guanylyl cyclase (retGC), but when the intracellular free Ca2+ concentrations ([Ca2+]free) rise (as in dark-adapted photoreceptors), GCAPs turn into retGC inhibitors. In GCAPs, site-directed mutagenesis has been successfully used to identify a number of structural elements that contribute to their specific function as guanylyl cyclase regulators. These elements include EF-hand Ca2+-binding loops and various other regions in the GCAP primary structure involved in multiple protein-protein interactions within the retGC/GCAP complex.
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PMID:Site-directed and natural mutations in studying functional domains in guanylyl cyclase activating proteins (GCAPs). 1259 28

Adenosine A1 receptor activation causes protein phosphatase 2a (PP2a) activation in ventricular myocytes. This attenuates beta-adrenergic functional effects in the heart (Liu Q and Hofmann PA. Am J Physiol Heart Circ Physiol 283: H1314-H1321, 2002). The purpose of the present study was to identify the signaling pathway involved in the translocation/activation of PP2a by adenosine A1 receptors in ventricular myocytes. We found that N6-cyclopentyladenosine (CPA; an adenosine A1 receptor agonist)-induced PP2a translocation was blocked by p38 MAPK inhibition but not by JNK inhibition. CPA increased phosphorylation of p38 MAPK, and this effect was abolished by pertussis toxin and inhibitors of the cGMP pathway. Moreover, CPA-induced PP2a translocation was blocked by inhibition of the cGMP pathway. Guanylyl cyclase activation mimicked the effects of CPA and caused p38 MAPK phosphorylation and PP2a translocation. Finally, CPA-induced dephosphorylations of troponin I and phospholamban were blocked by pertussis toxin and attenuated by p38 MAPK inhibition. These results suggest that adenosine A1 receptor-mediated PP2a activation uses a pertussis toxin-sensitive Gi protein-guanylyl cyclase-p38 MAPK pathway. This proposed, novel pathway may play a role in acute modulation of cardiac function.
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PMID:Modulation of protein phosphatase 2a by adenosine A1 receptors in cardiomyocytes: role for p38 MAPK. 1264 78

Guanylyl cyclase-B (GC-B) is a single transmembrane receptor that binds C-type natriuretic peptide (CNP). The ligand/receptor appears critical in the regulation of cell proliferation and differentiation where it acts as an adversary of mitogenic signaling pathways. We have isolated three guanylyl cyclase-B isoforms generated from a single gene by alternative splicing and termed them GC-B1, GC-B2, and GC-B3. GC-B1 is full-length and responds maximally to CNP, GC-B2 contains a 25-amino acid deletion in the protein kinase homology domain, and GC-B3 only retains a part of the extracellular ligand-binding domain. GC-B2 binds CNP, but the ligand fails to activate the cyclase, while GC-B3 fails to bind ligand. When GC-B2 or GC-B3 is expressed coincident with GC-B1, they act as dominant negative isoforms by virtue of blocking formation of active GC-B1 homodimers. Relative expression levels of GC-B1, GC-B2, and GC-B3 vary across tissues and as a function of in vitro culture; the relative amount of GC-B2 to GC-B1 is repressed in cultured smooth muscle cells relative to endogenous ratios in the medial layer cells of the aorta. Thus, GC-B isoform levels can be independently regulated. Given that the splice variants serve as dominant negative forms, these will serve as regulators of the full-length GC-B.
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PMID:Regulation of the guanylyl cyclase-B receptor by alternative splicing. 1451 78

Natriuretic peptides mediate their physiologic effects through activation of membrane-bound, guanylyl cyclase-coupled receptors (NPRs). Receptor dimerization is an important feature of signal transduction. This study was aimed at characterizing structurally important residues of the extracellular ligand-binding domain of NPR-B for receptor dimerization and cGMP generation. Deletion mutagenesis was used to replace cysteine residues at positions 53 (C53S), 417 (C417S), and 426 (C426S) by serine. Receptor expression, dimerization, whole-cell cGMP response, and guanylyl cyclase activity of membrane fractions were determined in stably transfected COS-7 cells. C53S, C417S, and C426S mutants were expressed and found to form disulfide-bridged covalent dimers. In contrast to NPR-B and C53S, C417S and C426S mutants displayed constitutive activity in whole cells (C417S, 146+/-12%, P<0.01; C426S, 153+/-7% of ligand-independent NPR-B cGMP generation, P<0.01). The cGMP response of C417S and C426S mutants in whole cells was dose dependent and approximately 4 times lower than that in NPR-B, whereas it was blunted in C53S-transfected cells (1 micromol/L CNP, NPR-B 2868+/-436%; C53S, 206+/-16% of control, P<0.001 vs NPR-B, C417S, and C426S). Guanylyl cyclase assay in transfected cells confirmed the constitutive activity of C417S and C426S mutants. These data suggest that receptor dimerization by covalent disulfide bridges alters ligand-independent as well as ligand-dependent receptor activity. Localization of the crosslink in relation to the cell membrane is important for configuration of the extracellular domain and the consecutive signal transduction.
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PMID:Forced homodimerization by site-directed mutagenesis alters guanylyl cyclase activity of natriuretic peptide receptor B. 1469 Nov 98

Guanylyl cyclase-activating proteins (GCAP) are EF-hand Ca(2+)-binding proteins that activate photoreceptor guanylyl cyclase (RetGC) in the absence of Ca(2+) and inhibit RetGC in a Ca(2+)-sensitive manner. The reported data for the RetGC inhibition by Ca(2+)/GCAPs in vitro are in disagreement with the free Ca(2+) levels found in mammalian photoreceptors (Woodruff, M. L., Sampath, A. P., Matthews, H. R., Krasnoperova, N. V., Lem, J., and Fain, G. L. (2002) J. Physiol. (Lond.) 542, 843-854). We have found that binding of Mg(2+) dramatically affects both Ca(2+)-dependent conformational changes in GCAP-1 and Ca(2+) sensitivity of RetGC regulation by GCAP-1 and GCAP-2. Lowering free Mg(2+) concentrations ([Mg](f)) from 5.0 mm to 0.5 mm decreases the free Ca(2+) concentration required for half-maximal inhibition of RetGC ([Ca]((1/2))) by recombinant GCAP-1 and GCAP-2 from 1.3 and 0.2 microm to 0.16 and 0.03 microm, respectively. A similar effect of Mg(2+) on Ca(2+) sensitivity of RetGC by endogenous GCAPs was observed in mouse retina. Analysis of the [Ca]((1/2)) changes as a function of [Mg](f) in mouse retina shows that the [Ca]((1/2)) becomes consistent with the range of 23-250 nm free Ca(2+) found in mouse photoreceptors only if the [Mg](f) in the photoreceptors is near 1 mm. Our data demonstrate that GCAPs are Ca(2+)/Mg(2+) sensor proteins. While Ca(2+) binding is essential for cyclase activation and inhibition, Mg(2+) binding to GCAPs is critical for setting the actual dynamic range of RetGC regulation by GCAPs at physiological levels of free Ca(2+).
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PMID:Guanylyl cyclase-activating proteins (GCAPs) are Ca2+/Mg2+ sensors: implications for photoreceptor guanylyl cyclase (RetGC) regulation in mammalian photoreceptors. 1499 24

Guanylyl cyclase C (GC-C), the receptor for guanylin, uroguanylin, and the heat-stable enterotoxin, regulates fluid balance in the intestine and extraintestinal tissues. The receptor has an extracellular domain, a single transmembrane spanning domain, and an intracellular domain that harbors a region homologous to protein kinases, followed by the C-terminal guanylyl cyclase domain. Adenine nucleotides can regulate the guanylyl cyclase activity of GC-C by binding to the intracellular kinase homology domain (KHD). In this study, we have tested the effect of several protein kinase inhibitors on GC-C activity and find that the tyrphostins, known to be tyrosine kinase inhibitors, could inhibit GC-C activity in vitro. Tyrphostin A25 (AG82) was the most potent inhibitor with an IC(50) of approximately 15 microM. The mechanism of inhibition was found to be noncompetitive with respect to both the substrate MnGTP and the metal cofactor. Interestingly, the activity of the catalytic domain of GC-C (lacking the KHD) expressed in insect cells was also inhibited by tyrphostin A25 with an IC(50) of approximately 5 microM. As with the full-length receptor, inhibition was found to be noncompetitive with respect to MnGTP. Inhibition was reversible, ruling out a covalent modification of the receptor. Structurally similar proteins such as the soluble guanylyl cyclase and the adenylyl cyclases were also inhibited by tyrphostin A25. Evaluation of a number of tyrphostins allowed us to identify the requirement of two vicinal hydroxyl groups in the tyrphostin for effective inhibition of cyclase activity. Therefore, our studies are the first to report that nucleotide cyclases are inhibited by tyrphostins and suggest that novel inhibitors based on the tyrphostin scaffold can be developed, which could aid in a greater understanding of nucleotide cyclase structure and function.
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PMID:Tyrphostins are inhibitors of guanylyl and adenylyl cyclases. 1520 21

Guanylyl cyclase-activating proteins (GCAPs) are Ca2+-binding proteins that activate guanylyl cyclase when free Ca2+ concentrations in retinal rods and cones fall after illumination and inhibit the cyclase when free Ca2+ reaches its resting level in the dark. Several forms of retinal dystrophy are caused by mutations in GUCA1A, the gene coding for GCAP1. To investigate the cellular mechanisms affected by the diseased state, we created transgenic mice that express GCAP1 with a Tyr99Cys substitution (Y99C GCAP1) found in human patients with a late-onset retinal dystrophy (Payne et al., 1998). Y99C GCAP1 shifted the Ca2+ sensitivity of the guanylyl cyclase in photoreceptors, keeping it partially active at 250 nM free Ca2+, the normal resting Ca2+ concentration in darkness. The enhanced activity of the cyclase in the dark increased cyclic nucleotide-gated channel activity and elevated the rod outer segment Ca2+ concentration in darkness, measured by using fluo-5F and laser spot microscopy. In different lines of transgenic mice the magnitude of this effect rose with the Y99C GCAP1 expression. Surprisingly, there was little change in the rod photoresponse, indicating that dynamic Ca2+-dependent regulation of cGMP synthesis was preserved. However, the photoreceptors in these mice degenerated, and the rate of the cell loss increased with the level of the transgene expression, unlike in transgenic mice that overexpressed normal GCAP1. These results provide the first direct evidence that a mutation linked to congenital blindness increases Ca2+ in the outer segment, which may trigger the apoptotic process.
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PMID:The Y99C mutation in guanylyl cyclase-activating protein 1 increases intracellular Ca2+ and causes photoreceptor degeneration in transgenic mice. 1524 Jul 99


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