EC:3.1.4.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We determined previously that astroglia cultured from newborn rat brain contain both guanylyl cyclase-coupled and atrial natriuretic peptide (ANP)-C natriuretic peptide receptors. Here, we investigated the effects of the protein kinase C (PKC) activator phorbol 12-myristate 13-acetate (PMA) on these receptor subtypes in cultured astroglia to understand the intracellular processes involved in the modulation of natriuretic peptide receptors in these cells. PMA (10 nM to 1 microM; 15 min to 24 h) treatment elicited a time- and concentration-dependent decrease in the numbers of 125I-labeled ANP specific binding sites, which was inhibited by the PKC antagonist staurosporine (500 nM). Furthermore, PMA (100 nM, 2 or 24 h) treatment elicited a significant decrease in the specific binding of 125I-des-Cys-Cys-ANP, an ANP-C receptor selective ligand. PMA (10 nM to 1 microM; 30 min) treatment also significantly decreased ANP (100 nM)-stimulated guanosine 3', 5'-cyclic monophosphate levels in cultured astroglia, an effect unmodified by phosphodiesterase inhibition. These data indicate that PKC modulates both guanylyl cyclase-coupled and ANP-C natriuretic peptide receptors in cultured astroglia.
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PMID:Protein kinase C modulates natriuretic peptide receptors in astroglial cultures from rat brain. 863 52

1. Cardiac fibroblasts play an important role in the pathophysiology of cardiac remodelling induced by hypertension and myocardial infarction by undergoing proliferation and depositing extracellular matrix proteins such as collagen. We have examined the effects of atrial natriuretic peptide (ANP) on proliferation and collagen synthesis by adult rat and human cardiac fibroblasts in culture. 2. In cells from both species radioligand studies using 125I-ANP suggested that the majority of binding sites (> 85%) were non-guanylyl cyclase-linked (NPR-C subtype). Nonetheless ANP (10(-9) to 10(-6) M), in the presence of zaprinast, an inhibitor of phosphodiesterase 5 (PDE5), increased fibroblast cyclic GMP levels 3-5 fold in a concentration-dependent manner (P < 0.05). 3. ANP (10(-11) to 10(-6) M), a NPR-C ligand, C-ANF4-23 (10(-11) to 10(-6) M) and zaprinast alone had no significant effect on either basal or serum-stimulated DNA synthesis or fibroblast number. In combination with zaprinast (10(-5) M), however, ANP (10(-9) to 10(-6) M) but not C-ANF4-23 (10(-7) M) inhibited markedly both basal and stimulated fibroblast mitogenesis, an effect reproduced by 8-bromo-cyclic GMP (10(-5) to 10(-3) M). 4. Collagen synthesis, determined by measuring hydroxyproline levels, was stimulated with transforming growth factor-beta1 (40 pM), angiotensin II (10(-7) M) or 2% foetal bovine serum. The increase in collagen production, normalised by cell number, was reduced dramatically (to at or near basal production) by ANP (10(-9) to 10(-7) M) but not C-ANF4-23 (10(-7) M) in the presence of zaprinast. Again 8-bromo-cyclic GMP (10(-5) to 10(-3) M) reproduced the effect. 5. ANP is capable of inhibiting collagen synthesis in adult rat and human cardiac fibroblasts via cyclic GMP, a property unmasked and enhanced by inhibition of PDE5.
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PMID:Effect of atrial natriuretic peptide and cyclic GMP phosphodiesterase inhibition on collagen synthesis by adult cardiac fibroblasts. 972 58

The role of atrial natriuretic factor (ANF) in regulation of osmotic water permeability was studied in isolated frog Rana temporaria L. urinary bladder. It was found that ANF (rANF, 1-28) added to the serosal solution at concentrations 5 x 10(-8) M and higher dosedependently stimulated the arginine-vasotocin (AVT)-induced increase of osmotic water permeability. The effect of ANF was revealed only in presence of 3-isobuthyl-1-methylxantine (180 microM) and was accompanied by significant elevation of cGMP level in urinary bladder homogenate and isolated mucosal epithelial cells. C-ANF (des[Gln18, Ser19, Gly20, Leu21, Gly22]-ANF-(4-23)-NH2), a specific agonist of NPR-C receptor, exerted no effect on osmotic water permeability. ANF induced a significant increase of cAMP in urinary bladder homogenates (AVT, 5 x 10(-11) M: 52.3 +/- 10.6; AVT + ANF, 10(-7) M: 114.2 +/- 26.9 pmol/mg protein, n = 5, p < 0.05). The activity of adenylate cyclase in crude plasmatic membrane fraction was not changed. Milrinone, a specific inhibitor of phosphodiesterase 3, at concentrations from 25 to 80 microM, enhanced both the hydroosmotic response to AVT and AVT-stimulated cAMP production. Altogether these data demonstrate that, in the frog urinary bladder, ANF stimulates the AVT-induced increase of osmotic water permeability acting probably through NPR-A receptor-coupled mobilization of cGMP and cGMP-dependent inhibition of phosphodiesterase 3.
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PMID:[Atrial natriuretic factor stimulates the frog urinary bladder osmotic permeability in presence of a cyclic nucleotide phosphodiesterase inhibitor]. 1514 9

Activation of the intracellular cAMP-signaling pathway by either forskolin or the cAMP-mimetic dibutyryl cAMP significantly increased transcript levels of NPR-C in primary cultures of human aortic smooth muscle cells. The time course of the increase was rapid, with significant differences from control occurring within 3 h of treatment and reaching approximately 6 times control value after 24 h of exposure to 10 microM forskolin. Expression levels of the natriuretic peptide receptor B (NPR-B), but not the natriruetic peptide receptor A (NPR-A) were also increased by forskolin, rising to a level of approximately 2 times control at 96 h. NPR-B transcript levels in the presence of dibutyryl cAMP were unaltered by the protein kinase A (PKA) inhibitor KT-5720, suggesting a PKA-independent pathway to NPR-B up-regulation. In contrast, KT-5720 reduced NPR-C transcript to a lower level that was not significantly different from control. Partial re-differentiation of AOSMC by culture in growth factor-reduced matrix (Matrigel) did not significantly change NPR-C transcript levels compared with cells grown on plastic, and the dibutyryl cAMP-induced increase in NPR-C (approximately eight-nine-fold control value) was retained. The dibutyryl cAMP/forskolin effect on NPR-C transcript was not reproduced by the beta2-selective adrenergic agonist isoproterenol (10 microM), but was replicated by incubation with the phosphodiesterase inhibitor isobutylmethylxanthine (0.5 mM). Up-regulated NPR-B and NPR-C transcript levels were reflected, respectively, in a two-fold increase in CNP-stimulated cGMP and an increase in 125I-ANF binding competed by the NPR-C-specific natriuretic peptide, C-ANF(4-23) following a 4-day treatment with 0.125 mM dbcAMP. The present data suggest that elevation of cAMP in human vascular smooth muscle may potentiate the vasoactive effects of natriuretic peptides acting through the NPR-B and NPR-C receptors.
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PMID:Cyclic adenosine monophosphate (cAMP) increases natriuretic peptide receptor C (NPR-C) expression in human aortic smooth muscle cells. 1514 37

Natriuretic peptides (NPs) are best known for their ability to regulate blood vessel tone and kidney function whereas their electrophysiological effects on the heart are less clear. Here, we measured the effects of BNP and CNP on sinoatrial node (SAN) and atrial electrophysiology in isolated hearts as well as isolated SAN and right atrial myocytes from mice. BNP and CNP dose-dependently increased heart rate and conduction through the heart as indicated by reductions in R-R interval, P wave duration and P-R interval on ECGs. In conjunction with these ECG changes BNP and CNP (100 nM) increased spontaneous action potential frequency in isolated SAN myocytes by increasing L-type Ca(2+) current (I(Ca,L)) and the hyperpolarization-activated current (I(f)). BNP had no effect on right atrial myocyte APs in basal conditions; however, in the presence of isoproterenol (10nM), BNP increased atrial AP duration and I(Ca,L). Quantitative gene expression and immunocytochemistry data show that all three NP receptors (NPR-A, NPR-B and NPR-C) are expressed in the SAN and atrium. The effects of BNP and CNP on SAN and right atrial myocytes were maintained in mutant mice lacking functional NPR-C receptors and blocked by the NPR-A antagonist A71915 indicating that BNP and CNP function through their guanylyl cyclase-linked receptors. Our data also show that the effects of BNP and CNP are completely absent in the presence of the phosphodiesterase 3 inhibitor milrinone. Based on these data we conclude that NPs can increase heart rate and electrical conduction by activating the guanylyl cyclase-linked NPR-A and NPR-B receptors and inhibiting PDE3 activity.
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PMID:The natriuretic peptides BNP and CNP increase heart rate and electrical conduction by stimulating ionic currents in the sinoatrial node and atrial myocardium following activation of guanylyl cyclase-linked natriuretic peptide receptors. 2232 31

Natriuretic peptides (NPs) are a family of cardioprotective hormones with numerous beneficial effects in cardiovascular system. The NP family includes several peptides including atrial NP (ANP), B-type NP (BNP), C-type NP (CNP) and Dendroaspis NP (DNP). These peptides elicit their effects by binding to three distinct cell surface receptors called natriuretic peptide receptors A, B and C (NPR-A, NPR-B and NPR-C). NPR-A (which binds ANP, BNP and DNP) and NPR-B (which is selective for CNP) are particulate guanylyl cyclase (GC)-linked receptors that mediate increases in cGMP upon activation. cGMP can then target several downstream signaling molecules including protein kinase G (PKG), phosphodiesterase 2 (PDE2) and phosphodiesterase 3 (PDE3). NPR-C, which is able to bind all NPs with comparable affinity, is coupled to the activation of inhibitory G-proteins (Gi) that inhibit adenylyl cyclase (AC) activity and reduce cAMP levels. NPs are best known for their ability to regulate blood volume and fluid homeostasis. More recently, however, it has become apparent that NPs are essential regulators of cardiac electrophysiology and arrhythmogenesis. Evidence for this comes from numerous studies of the effects of NPs on cardiac electrophysiology and ion channel function in different regions and cell types within the heart, as well as the identification of mutations in the NP system that cause atrial fibrillation in humans. Despite the strong evidence that NPs regulate cardiac electrophysiology different studies have reported varying effects of NPs. The reasons for disparate observations are not fully understood, but likely occur as a result of several factors, including the fact that NP signaling can be highly complex and involve multiple receptors and/or downstream signaling molecules which may be differentially activated in different conditions. The goal of this review is to provide a comprehensive summary of the different effects of NPs on cardiac electrophysiology that have been described and to provide rationale and explanation for why different results may be obtained in different studies.
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PMID:Electrophysiological effects of natriuretic peptides in the heart are mediated by multiple receptor subtypes. 2670 Dec 23