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)

We have prepared an atrial natriuretic peptide analog, ANP[13-27][1-12], in which the connectivity of the disulfide-linked ring has been reversed by formally cleaving the ring and cyclizing the N- and C-terminal tails. This analog, which retains many of the spatial relationships of the native molecule, binds to both ANP-A and ANP-C receptor subtypes, and triggers the production of cyclic-GMP by ANP-A. ANP-C binding of ANP[13-27][1- 12] is roughly equipotent to that of ANP itself, although the ring cleavage falls within the putative ANP-C binding domain. ANP[13-27][1-8], a truncated analog in which much of this binding domain has been removed, surprisingly maintains a high affinity for ANP-C; however, this peptide has lost the ability to activate the ANP-A-linked guanylate cyclase.
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PMID:A ring-reversed analog of atrial natriuretic peptide retains receptor binding, guanylate cyclase stimulation. 131 47

After the description in the past 5 years of BNP and CNP, interest in the natriuretic peptide family has dramatically increased. Molecular characterization of the receptors for this hormone family has identified a heterogeneity in the receptor subtypes not previously alluded to by pharmacological or biochemical studies. Much has been published on the physiology of ANP, but the major roles for BNP and CNP remain to be elucidated. Some experiments indicate that ANP and BNP may act synergistically, especially during cardiac stress; however, the high level of structural diversity of BNP among species and the ability of porcine BNP, but not human BNP, to activate human NPR-B suggest that an as yet unidentified receptor may exist that specifically recognizes BNP. Localization studies have implied that CNP is the most prominent neuropeptide in the natriuretic peptide family, and the restriction of its receptor, NPR-B, to the nervous system suggests that CNP and NPR-B may act in the brain to coordinate the central aspects of body fluid homeostasis. Of the three known NPRs, two, NPR-A and NPR-B, are capable of synthesizing their own second messenger, cGMP. The domain within these receptors that has high homology to protein kinases has been demonstrated to be essential for regulating this activity. No kinase activity has been measured in these proteins, but it is possible that this region is important for ATP regulation of guanylyl cyclase activity. This possibility raises interesting parallels with receptor-mediated cAMP signaling within cells. Seven transmembrane receptors, once activated by ligand, associate with G proteins to affect the activity of adenylyl cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Molecular biology of the natriuretic peptides and their receptors. 132 79

1. The possible roles of the L-arginine-NO pathway and of guanosine 3':5'-cyclic monophosphate (cyclic GMP) in regulating the prejunctional release of noradrenaline and neurogenic vasoconstriction were investigated in the perfused rat tail artery. 2. In the presence of N omega-nitro-L-arginine methyl ester (L-NAME; 30 microM), an inhibitor of NO formation, the vasoconstrictor responses to perivascular nerve stimulation (24 pulses at 0.4 Hz, 0.3 ms, 200 mA) and to exogenous noradrenaline (1 microM) were significantly enhanced, whereas the stimulation-evoked tritium overflow from [3H]-noradrenaline preloaded arteries was not modified. The vasoconstriction enhancing effect of L-NAME was prevented by L-arginine (1 mM) but not D-arginine (1 mM) and was abolished by removal of the endothelium. 3. The NO donor, 3-morpholinosydnonimine-N-ethylcarbamide (SIN-1; 0.1-30 microM), and the cyclic GMP phosphodiesterase inhibitor, zaprinast (0.1-30 microM) both induced a concentration-dependent inhibition of the electrical field stimulation-induced vasoconstriction, while atrial natriuretic peptide (ANP; 100 nM) produced only a slight decrease of the vasoconstrictor response. Methylene blue (3 microM), a known inhibitor of soluble guanylate cyclase increased the electrical field stimulation-induced vasoconstriction. SIN-1 and methylene blue when administered simultaneously, antagonized each others effect. None of the compounds tested (SIN-1, zaprinast, ANP or methylene blue) had any significant effect on the stimulation-evoked [3H]-noradrenaline overflow. 4. 8-Bromo-cyclic GMP, a potent activator of cyclic GMP-dependent protein kinase, markedly and concentration-dependently (3-300 microM) increased [3H]-noradrenaline overflow but decreased field stimulation-induced vasoconstriction. Dibutyryl-cyclic GMP (100 JM), a weak activator of cyclic GMP-dependent protein kinase, affected neither the pre- nor the postjunctional response to electrical field stimulation.5. These data show that an NO-like substance of endothelial origin, derived from L-arginine, attenuates vasoconstriction in the rat tail artery, whether neurally-induced or evoked by exogenous noradrenaline.Since noradrenaline release was unaltered by compounds modifying NO production, this NO-like compound acted through a postjunctional mechanism. The lack of prejunctional effects of both soluble and membrane-associated guanylate cyclase activators, despite a large effect of 8-bromo-cyclic GMP,suggests that endogenous cyclic GMP production, if present in sympathetic nerves, may not be involved in the regulation of noradrenaline release in the rat tail artery.
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PMID:Role of the L-arginine-NO pathway and of cyclic GMP in electrical field-induced noradrenaline release and vasoconstriction in the rat tail artery. 133 57

The differences in biological functions between alpha-human atrial natriuretic polypeptide (alpha-hANP) and its oxidized analog, MetSO-alpha-hANP, have been investigated. Analysis of the ANP receptor subtypes by affinity labeling has shown that a bovine pulmonary aortic endothelial cell line (CPAE cells) primarily expresses ANP-R1 (R, receptor) coupled to particulate guanylate cyclase, while Hela cells from human cervical carcinoma predominantly express ANP-R2, which lacks a guanylate cyclase. alpha-hANP could bind to both ANP receptor subtypes with high affinity, while MetSO-alpha-hANP showed more selective binding to ANP-R2 than to ANP-R1. The activity of MetSO-alpha-hANP for stimulation of guanylate cyclase coupled to ANP-R1 was about 520-fold less than that of alpha-hANP (median effective dose = 2.5 nM for alpha-hANP, 1.3 microM for MetSO-alpha-hANP), indicating that MetSO-alpha-hANP was a partial agonist for this receptor. While this oxidized analog could inhibit the cAMP production through ANP-R2, with 0.15 times the activity of alpha-hANP (median concentration = 0.31 nM for alpha-hANP, 2.0 nM for MetSO-alpha-hANP). In in vivo studies, the diuretic activity of MetSO-alpha-hANP was 25-100-fold less than that of alpha-hANP. In addition, MetSO-alpha-hANP could potentiate the diuretic activity of alpha-hANP that was also caused by C-ANF4-23, a specific agonist for ANP-R2. These results demonstrate that MetSO-alpha-hANP can act as an agonist more selective for ANP-R2 than for ANP-R1, both in vivo and in vitro. The relationship between receptor selectivities and the conformation of alpha-hANP or MetSO-alpha-hANP was also discussed.
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PMID:An oxidized analog of alpha-human atrial natriuretic polypeptide is a selective agonist for the atrial-natriuretic-polypeptide clearance receptor which lacks a guanylate cyclase. 134 19

At least two types of receptors for natriuretic peptides have been reported: biologically active receptors coupled with guanylate cyclase (atrial natriuretic peptide [ANP]-B receptors) and clearance receptors (ANP-C receptors). To elucidate the role of protein kinase C (PKC) in the regulation of ANP-B receptors, vascular smooth muscle cells in culture were treated with phorbol ester. Incubation with receptor agonists and phorbol ester led to the desensitization of receptor-mediated cyclic guanosine monophosphate (ANP-B receptor response) in rat vascular smooth muscle cells. Although a PKC inhibitor and downregulation of PKC by long-term incubation of cells with phorbol esters blocked the phorbol ester-induced desensitization of the ANP-B receptor response, they did not block the ANP-induced desensitization of the ANP-B receptor response. In addition, when desensitization by phorbol esters was observed, ANP was still capable of desensitization. These observations suggest that the mechanism for regulating ANP-B receptor sensitivity may be both PKC-dependent and PKC-independent and mediated by phorbol esters and ANP, respectively.
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PMID:Phorbol ester and atrial natriuretic peptide receptor response on vascular smooth muscle. 134 39

HS-142-1, a novel microbial product, blocked 125I-labeled rat atrial natriuretic peptide (rANP) (= ANF(99-126)) binding to bovine adrenocortical membranes, where guanylyl cyclase-containing receptors are predominantly expressed. However, HS-142-1 only slightly inhibited [125I]rANP binding to bovine lung membranes where only a small portion of binding sites are coupled to guanylyl cyclase. Further, HS-142-1 only recognized the 135 kDa ANP receptor, which is considered to be the guanylyl cyclase-containing receptor based on the results obtained in affinity cross-linking studies with bovine adrenocortical and lung membranes. Under identical conditions, Atriopeptin I selectively recognized guanylyl cyclase-free receptors both in binding and affinity cross-linking experiments. When injected intravenously (1 mg/kg) to anesthetized rats, HS-142-1 abolished ANP-induced diuresis and natriuresis. These results suggest that HS-142-1 works in vivo through a specific interaction with the ANP functional receptor, and that HS-142-1 will be a powerful tool for understanding the physiological roles of ANP in distinction from its pharmacological effects.
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PMID:HS-142-1, a novel nonpeptide atrial natriuretic peptide (ANP) antagonist, blocks ANP-induced renal responses through a specific interaction with guanylyl cyclase-linked receptors. 135 44

Atrial natriuretic factor (ANF) is released from the cardiac atrium in response to stretch and acts through receptors to cause an increase in urinary flow and sodium excretion, vasodilatation, and a reduction in blood volume. Recently, two new natriuretic peptides, brain natriuretic peptide (BNP) and C-type natriuretic peptide (C-typeNP), have been isolated, and three different natriuretic peptide receptors have been identified. Two of the receptors, ANP-RGC(A) and ANP-RGC(B), mediate biologic actions. The natural ligand of ANP-RGC(A) is ANF, whereas that of ANP-RGC(B) is C-typeNP. In view of clear differences in ligand specificity and tissue distribution of these receptors, it has been proposed that ANF and its receptor, ANP-RGC(A), and C-typeNP and its receptor, ANP-RGC(B), represent two distinct natriuretic peptide regulatory systems. Whether a separate system exists that incorporates BNP awaits clarification of its natural receptor that mediates a biologic action. The third receptor, ANP-Rc, binds all three natriuretic peptides. Its messenger RNA lacks the guanylyl cyclase sequence present in the mRNA of the other natriuretic peptide receptors, suggesting that the principal function of ANP-Rc is to remove natriuretic peptides from the circulation, that is, to regulate plasma levels of the natriuretic peptides. However, ANP-Rc may also mediate a biologic effect. These findings raise several intriguing questions about the functional role of this family of natriuretic peptides.
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PMID:The natriuretic peptides and their receptors. 144 67

During the search for ANP receptor ligands of microbial origin, we isolated a novel polysaccharide, HS-142-1, from culture broth of Aureobasidium sp. HS-142-1 inhibited [125I]-rANP binding to ANP receptor in rabbit kidney cortex membranes with an IC50 of 0.3 mu g/ml, but gave no effects on specific binding of [125I]-Endothelin nor [125I]-Angiotensin II to their respective receptors in bovine lung membranes. HS-142-1 competitively and selectively inhibited ANP binding to its guanylyl cyclase-containing receptor purified from solubilized bovine adrenocortical membranes and blocked cGMP production elicited by ANP. HS-142-1 is the first non-peptide antagonist selective for ANP functional receptor and will be a powerful tool to elucidate the physiological functions of ANP.
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PMID:Microbial polysaccharide, HS-142-1, competitively and selectively inhibits ANP binding to its guanylyl cyclase-containing receptor. 167 70

Characterization of the serotonin (5-HT)-induced cyclic GMP (cGMP) elevation was investigated in comparison with bradykinin- and ANP-induced elevations in NG108-15 cells. At 20 s, 1,2-bis(2-aminophenoxy)ethane-N,N,N',N'-tetraacetic acid tetraacetoxymethyl ester (BAPTA-AM, 100 microM), a membrane-permeabilized Ca2+ chelator, or N-monomethyl-L-arginine (NMMA, 300 microM), an inhibitor of L-arginine-derived nitric oxide (NO) synthesis, inhibited 5-HT-induced elevation by approximately 40%, and completely inhibited bradykinin-induced response. Neither 5-HT- nor ANP-induced cGMP elevation at 10 min was affected by BAPTA-AM or NMMA. The cGMP elevated by 5-HT as well as by ANP was effluxed to the extracellular medium. These results and our previous report suggest that 5-HT stimulates two subtypes of 5-HT receptors in NG108-15: first, 5-HT3 subtype stimulating Ca(2+)-sensitive cytosolic guanylate cyclase through NO derived from L-arginine and second, a probably novel 5-HT receptor subtype involved in activation of membrane-bound guanylate cyclase.
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PMID:The slow cyclic GMP increase caused by serotonin in NG108-15 cells is not inhibited by antagonists of known serotonin receptors: possible existence of a new receptor subtype coupled with membrane-bound guanylate cyclase. 167 31

To evaluate an interaction between vasoconstrictive (Ang II) and vasodilating (ANP) peptides, we examined the effect of Ang II on ANP-induced accumulation of cGMP in cultured glomerular mesangial cells. ANP rapidly increased intracellular cGMP levels, with a peak stimulation at one minute in the absence of IBMX and at ten minutes in the presence of IBMX. The ANP-induced cGMP accumulation was significantly inhibited when the cells were treated with Ang II simultaneously with ANP for one minute in the absence of IBMX. This inhibitory effect of Ang II was completely abolished by IBMX and significantly reduced in calcium-free media or by W7, but not affected by H7. Similar inhibitory effect was observed when cells were treated with A23187 but not with TPA for one minute. In the presence of IBMX, Ang II inhibited ANP-induced cGMP accumulation when cells were treated with Ang II for 15 minutes prior to the stimulation by ANP. This inhibition by Ang II was blocked by H7. ANP-induced increase in particulate guanylate cyclase activity was significantly reduced in the cells treated with Ang II or TPA. This reduction of enzyme activity was also prevented by H7. These results indicate that Ang II inhibits ANP-induced cGMP accumulation in cultured glomerular mesangial cells through at least two mechanisms; one is the activation of calcium-dependent, calmodulin-stimulated cyclic nucleotide phosphodiesterase in the initial phase, and the other is the inhibition of guanylate cyclase resulting from protein kinase C activation in the maintenance phase.
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PMID:Dual mechanism of angiotensin II inhibits ANP-induced mesangial cGMP accumulation. 171 65


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