EC:4.6.1.2 - FACTA Search

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)

The diverse biological actions of endothelins (ET) appear to be mediated by specific cell-surface receptors. Autoradiography and membrane binding studies have shown abundant ET binding sites in the kidney. However, their expression in specific types of renal cells is unclear. We studied the binding of 125I-labelled endothelin-1 in freshly isolated cell suspensions from canine inner medullary collecting duct. Competition binding experiments revealed the presence of specific high-affinity binding sites: unlabelled ET-1 and ET-2 compared with the radioligand with an IC50 of 135 and 83 pM, respectively, while the IC50 of ET-3 and big ET-1 were 2 and 4 orders of magnitude higher, indicating the presence of ETA-type receptor. Angiotensin II, vasopressin, and atrial natriuretic peptide (ANP) did not compete for ET binding even at a concentration of 10(-6) M. Saturation binding experiments showed a single class of binding sites of high density (Bmax = 56.7 +/- 10.3 fmol/10(6) cells) and high affinity (Kd = 69.8 +/- 10 pM). In contrast, ANP receptors in the same cell preparations appeared as two classes of binding sites with widely different affinity and density. The high-affinity ANP site (Kd = 311 +/- 48 pM) was compatible with ANP-B (guanylate cyclase-coupled) receptor. ET-1 did not compete for this receptor. ET-1 (10(-7) M) did not alter ANP-induced cGMP generation in these cells (3.8-fold increase at 10(-7) M ANP), nor basal levels of cGMP.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Specific endothelin binding sites in renal medullary collecting duct cells: lack of interaction with ANP binding and cGMP signalling. 128 83

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

Angiotensin II (Ang II) receptors, estimated by the specific binding of the peptide Ang II receptor antagonist [125I] [Sar1,Ile8]Ang II, are localized on multiple ovarian structures, including follicular granulosa cells. Using the Ang II receptor subtype-selective nonpeptide antagonists, DuP 753 [selective for the type 1 Ang II (AT1) receptor] and PD 123319 [selective for the type 2 Ang II (AT2) receptor], we show that follicular granulosa cells, in vivo and in vitro, exclusively express the AT2 receptor. To understand the function of Ang II in ovarian follicles, we compared the biochemical properties and transmembrane signaling pathways of the granulosa cell AT2 receptor with those properties generally associated with Ang II receptors found in the adrenal zona glomerulosa, where the AT1 receptor predominates. The mol wt of the granulosa cell AT2 receptor (approximately 79,000), estimated by affinity cross-linking studies, is similar to that of the adrenal zona glomerulosa Ang II receptor. Like the adrenal zona glomerulosa Ang II receptor, binding inhibition studies show that the granulosa cell AT2 receptor binds Ang II and Ang III with high affinity (IC50, approximately 0.5 nM for both peptides), but not Ang-(1-7) (IC50, approximately 0.5 microM) or Ang-(1-5) (IC50, greater than 10 microM). However, unlike the adrenal zona glomerulosa Ang II receptor, the granulosa cell AT2 receptor does not undergo agonist-induced endocytosis. Further, Ang II does not affect basal or stimulated inositol phosphate production, intracellular Ca2+ mobilization, or adenylyl cyclase or guanylyl cyclase activity in granulosa cells. The granulosa cell AT2 receptor does not appear to directly interact with guanine nucleotide binding regulatory proteins, since agonist dissociation from the AT2 receptor is unaffected by the GTP analog guanosine 5'-O-(3-thiotriphosphate); in contrast, the AT1 receptor appears to directly interact with guanine nucleotide binding regulatory protein, because agonist dissociation from the AT1 receptor is stimulated by guanosine 5'-O-(3-thiotriphosphate). These studies clearly demonstrate that the granulosa cell AT2 receptor is functionally distinct from the well characterized adrenal zona glomerulosa Ang II receptor. The exclusive presence of the AT2 receptor on the granulosa cell makes it an ideal cell type for studying the potential, but as yet unknown, function of this receptor.
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PMID:Biochemical properties of the ovarian granulosa cell type 2-angiotensin II receptor. 184 6

Atrial natriuretic factor (ANF) produced rapid increases in cyclic GMP (cGMP) in cultured aortic smooth muscle cells. Angiotensin II (ANG II) markedly decreased the accumulation of cGMP that was evoked by ANF. Arginine vasopressin and ATP, which evoke transient increases in free Ca2+ similarly to ANG II, also inhibited cGMP accumulation. The effect of the calcium mobilizing neurohormones was mimicked by the divalent cation ionophore, A23187. The cyclic nucleotide phosphodiesterase inhibitor, 3-isobutyl-1-methylxanthine, prevented ANG II from inhibiting ANF-evoked cGMP accumulation. ANG II also inhibited cGMP accumulation induced by nitroprusside, a compound that activates cytosolic guanylate cyclase. These findings support the hypothesis that ANG II decreases cGMP accumulation by stimulating cGMP hydrolysis, apparently via a Ca2+-activated cGMP phosphodiesterase.
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PMID:Angiotensin decreases cyclic GMP accumulation produced by atrial natriuretic factor. 244 Mar 11

The objective of the present investigation was to determine whether angiotensin II at physiological levels has part of its mechanism of action through stimulation of the activity of guanylate cyclase (EC 4.6.1.2), the enzyme that catalyzes the conversion of guanosine triphosphate to cyclic GMP. Angiotensin II enhanced guanylate cyclase activity three-to fivefold in rat aorta, heart, and kidney at a concentration of 1 nM. Dose-response curves revealed that near maximal stimulation of guanylate cyclase with angiotensin II was observed at a concentration as low as 10 pM. The guanylate cyclase cofactor manganese was necessary for the maximal enhancement of guanylate cyclase by angiotensin II. The data in this investigation suggest that guanylate cyclase may play a role in the mechanism of action of angiotensin II at the cellular level.
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PMID:Angiotensin II stimulates guanylate cyclase activity in aorta, heart, and kidney. 611 27

Uptake of immunoglobulin G (IgG) complexes by macrophages (M phi) may play an important role in disease states characterized by increased levels of circulating immune complexes. In sites such as the glomerular mesangium M phi may be subjected to repetitive mechanical strain, although in vitro studies of M phi endocytosis are typically carried out with cells grown on rigid surfaces. We undertook the present study to determine whether repetitive mechanical strain could modulate M phi endocytosis of IgG complexes. IgG complex uptake was significantly diminished in M phi that were subjected to repetitive mechanical strain using parameters corresponding to peak and minimal intraglomerular pressures compared with control, and uptake varied according to the amount of mechanical strain applied. There was no significant difference in surface binding of IgG between M phi subjected to strain and those not. Mechanical strain did not significantly influence the rate of IgG complex degradation. Inhibition of nitric oxide synthase and guanylate cyclase activity did not alter the effect of mechanical strain, although this effect was potentiated by 3-isobutyl-1-methylxanthine (IBMX). Angiotensin II, which has been shown to reduce adenosine 3',5'-cyclic monophosphate (cAMP) production in M phi, significantly attenuated the suppressive effect of mechanical strain on IgG complex uptake as well as another inhibitor of cAMP generation, indomethacin. Enzyme immunoassay demonstrated significantly enhanced levels of cAMP in M phi that were subjected to mechanical strain compared with control, an effect that was potentiated by IBMX and attenuated by angiotensin II and indomethacin. These results demonstrate that repetitive mechanical strain significantly reduces IgG complex uptake by M phi, most likely by enhancing cAMP synthesis. Such an effect might play a significant role in macromolecule handling by M phi in sites in which they are subjected to repetitive mechanical deformation such as the glomerular mesangium.
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PMID:Repetitive mechanical strain suppresses macrophage uptake of immunoglobulin G complexes and enhances cyclic adenosine monophosphate synthesis. 754 37

The present experiments were devoted to analyzing the hypothesis that somatostatin (SS) could modulate glomerular filtration rate by interacting with mesangial cells. Studies were performed in cultured human mesangial cells, passages 3-5. Radioligand experiments demonstrated the presence in the cells of two kinds of receptors, with high (dissociation constant 14 pM. Number of sites: 426 fmol/mg) and low (dissociation constant 56 pM. Number of sites: 20, 111 fmol/mg) affinity. SS prevented in a dose-dependent manner the reduction in planar cell surface area induced by 100 nM Angiotensin II (AII). This effect was not inhibited by the blockade of the vasorelaxing prostaglandins (indomethacin, 10 microM), nitric oxide (L-N-methyl-arginine, 0.2 mM), adenylate cyclase (2,5'-dideoxyadenosine, 0.1 mM), or guanylate cyclase (Methylene blue, 30 microM; LY-83583, 10 microM), but it was potentiated by zaprinast, an inhibitor of the cyclic GMP (cGMP)-specific phosphodiesterase. SS also blocked the increase in myosin light chain phosphorylation induced by AII. SS increased cGMP synthesis by cultured human mesangial cells, an effect that seemed to be dependent on the stimulation of a particulate guanylate cyclase. Preincubation of the cells with pertussis toxin (0.5 microgram/ml) inhibited the effect of SS on the AII-dependent changes in planar cell surface area, as well as the SS-dependent cGMP stimulation. In summary, these results demonstrate the ability of SS to relax cultured human mesangial cells, thus supporting a role for this peptide in the regulation of the glomerular filtration rate. The SS-dependent mesangial cell relaxation may be due to changes in the intracellular concentrations of cGMP, as a consequence of the activation of a particulate guanylate cyclase.
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PMID:Effects of somatostatin on cultured human mesangial cells. 762 80

The present study was aimed to test the role of endothelin-1 (ET-1) as a possible autocrine/paracrine growth factor for cardiac fibroblasts, and to examine its interaction with cardiac natriuretic hormones. Expression of preproET-1 (ppET-1) mRNA by cultured cardiac fibroblasts from neonatal rats was demonstrated by Northern blot analysis using cDNA for rat ppET-1 as a probe. Angiotensin II (ANG II) and ET-1 transiently (30 min) increased steady-state ppET-1 mRNA levels in cardiac fibroblasts. Both ET-1 and ANG II significantly stimulated [3H] thymidine incorporation into cardiac fibroblasts, whose effects were dose-dependently inhibited by an ETA receptor antagonist (BQ123), BQ123 also inhibited both ET-1- and ANG II-induced ppET-1 mRNA expression. Both atrial and brain natriuretic peptides (ANP, BNP), which activate particulate guanylate cyclase, inhibited ppET-1 mRNA expression and [3H]thymidine incorporation stimulated by ANG II and ET-1. Sodium nitroprusside, a soluble guanylate cyclase activator, and 8-bromocyclic GMP, a membrane-permeable cGMP derivative, similarly inhibited ppET-1 mRNA expression and [3H]-thymidine incorporation. BNP was more potent than ANP to inhibit ANG II- and ET-1-stimulated DNA synthesis, whereas BNP and ANP were almost equipotent in stimulating cGMP generation in cardiac fibroblasts. Our data demonstrated that ANG II and ET-1 upregulate ET-1 gene expression in rat cardiac fibroblasts partly via cyclic GMP-dependent mechanism, and that natriuretic peptides inhibit ANG II-stimulated proliferation of cardiac fibroblasts, possibly by inhibiting ET-1 gene expression. Our data suggest the possible role of endogenous ET-1 as an autocrine/paracrine growth factor for cardiac fibroblasts and its close interaction with natriuretic peptides in the regulation of cardiac fibrosis.
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PMID:Natriuretic peptides inhibit angiotensin II-induced proliferation of rat cardiac fibroblasts by blocking endothelin-1 gene expression. 763 42

Macromolecular handling by macrophages and glomerular mesangial cells may be important in the development of renal injury. We undertook the present study to determine whether atrial natriuretic peptide (ANP), a particulate guanylate cyclase stimulator, plays a direct role in uptake of immunoglobulin G (IgG) complexes by macrophages. Macrophages incubated with ANP at 10(-5) and 10(-6) M showed significantly suppressed uptake of IgG complexes compared with control. Macrophage uptake of IgG complexes was also significantly suppressed by the soluble guanylate cyclase stimulator sodium nitroprusside. Dibutyryl guanosine 3',5'-cyclic monophosphate and dibutyryl adenosine 3',5'-cyclic monophosphate both significantly suppressed IgG complex uptake as well. ANP was found to significantly enhance macrophage guanosine 3',5'-cyclic monophosphate (cGMP) levels compared with control cells, and this effect was antagonized by angiotensin II. Angiotensin II significantly enhanced uptake of IgG complexes and suppressed macrophage adenosine 3',5'-cyclic monophosphate synthesis, and both effects were antagonized by coincubation with ANP. These results suggest that ANP modulates uptake of IgG complexes by macrophages and that this effect may be mediated via cGMP.
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PMID:Effects of atrial natriuretic peptide and cGMP on uptake of IgG complexes by macrophages. 839 87

1. It has been recently reported that angiotensin II can enhance atrial natriuretic factor-stimulated cyclic GMP release from brain capillary endothelial cells and stimulate directly the release of cyclic GMP by Neuro 2a cells. A possible mechanism mediating such cyclic GMP release could be via the production of nitric oxide and the resultant stimulation of soluble guanylate cyclase. 2. The ability of angiotensin II, atrial natriuretic factor and c(4-23) atrial natriuretic factor to stimulate nitric oxide production was investigated in primary cultures of human proximal tubular cells. 3. Freshly prepared human proximal tubular cells were seeded onto 6-well plates and allowed to reach confluence. Cells were then incubated with incremental concentrations of either angiotensin II, atrial natriuretic factor or c(4-23) atrial natriuretic factor alone for 1, 4, 12 or 24h or in the presence of the nitric oxide synthase inhibitor NG-monomethyl-L-arginine. Angiotensin II was also incubated with human proximal tubular cells in the presence of the AT1 and AT2 receptor antagonists DuP 753 and PD 123319. 4. Incubation of human proximal tubular cells with angiotensin II, atrial natriuretic factor or c(4-23) atrial natriuretic factor produced a dose- and time-dependent increase in nitric oxide production, which was inhibited in the presence of NG-monomethyl-L-arginine. A similar increase in nitric oxide production was observed after incubation with atrial natriuretic factor or c(4-23) atrial natriuretic factor. 5. The angiotensin-induced increase in nitric oxide production was not inhibited in the presence of either the angiotensin AT1 or AT2 receptor antagonists DuP 753 or PD 123319. 6. This study demonstrates that primary cultures of human proximal tubular cells can be stimulated to produce nitric oxide by both atrial natriuretic factor and angiotensin II. Furthermore, the atrial natriuretic factor-induced response appears to be mediated via the atrial natriuretic factor-C receptor, while the angiotensin II-induced response appears to be mediated by a novel, as yet unidentified, angiotensin II receptor.
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PMID:Atrial natriuretic factor and angiotensin II stimulate nitric oxide release from human proximal tubular cells. 854 68

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