EC:3.1.4.1 - FACTA Search

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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)

A vasopressin resistant urinary concentrating defect has been described in patients receiving lithium salt for affective disorders. For the pathogenic mechanism of the concentrating defect it has been postulated that lithium inhibits the vasopressin-dependent cyclic AMP system. However, the results of indirect studies on the lithium effect are equivocal. Therefore, the effect of lithium specifically on the vasopressin-dependent cyclic AMP system was investigated in rat renal medulla. The increase of cyclic AMP concentration by vasopressin was inhibited by lithium. But lithium had no effect on the PTH-dependent cyclic AMP concentration in renal cortical slices. Regardless of magnesium concentrations from 0-10 mM in the incubation media, 10 mM lithium had no moeasurable effect on the vasopressin-dependent adenylate cyclase of rat renal medulla. However, 10 mM lithium augmented the cyclic AMP-phosphodiesterase activity in renal medulla in the high Km system. These results suggest that lithium inhibits the vasopressin-dependent cyclic AMP concentration in renal medulla via the augmentation of its catabolism, rather than via the inhibition of cyclic AMP generation.
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PMID:Effects of lithium on vasopressin-dependent cyclic AMP in rat renal medulla. 16 28

Cortisol in concentrations from 10 nM to 10 microM produced a dose-related inhibition of basal and PTH1-stimulated 45Ca and [3H]-hydroxyproline release from cultured fetal rat forelimb rudiments. PTH-stimulated cyclic AMP generation however was not diminished by cortisol; in contrast, at a concentration of 1 microM cortisol produced a 57% increase in PTH-stimulated bone cyclic AMP content. The stimulatory effect of cortisol on cyclic AMP content appeared to be the result of reduced phosphodiesterase activity, since this effect was not seen in the presence of 10 mM theophylline. It is concluded that cortisol inhibition of PTH-induced resorption in long bones is not accompanied by reduced cyclic AMP generation.
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PMID:Cortisol enhancement of PTH-stimulated cyclic AMP accumulation in cultured fetal rat long bone rudiments. 22 21

The mechanism of phosphaturia induced by cAMP infusion and the physiological role of extracellular cAMP in modulation of renal phosphate transport were examined. In cultured opossum kidney cells, extracellular cAMP (10-1,000 microM) inhibited Na-dependent phosphate uptake in a time- and concentration-dependent manner. The effect of cAMP was reproduced by ATP, AMP, and adenosine, and was blunted by phosphodiesterase inhibitors or by dipyridamole which inhibits adenosine uptake. [3H]cAMP was degraded extracellularly into AMP and adenosine, and radioactivity accumulated in the cells as labeled adenosine and, subsequently, as adenine nucleotides including cAMP. Radioactivity accumulation was decreased by dipyridamole and by inhibitors of phosphodiesterases and ecto-5'-nucleotidase, assessing the existence of stepwise hydrolysis of extracellular cAMP and intracellular processing of taken up adenosine. In vivo, dipyridamole abolished the phosphaturia induced by exogenous cAMP infusion in acutely parathyroidectomized (APTX) rats, decreased phosphate excretion in intact rats, and blunted phosphaturia induced by PTH infusion in APTX rats. These results indicate that luminal degradation of cAMP into adenosine, followed by cellular uptake of the nucleoside by tubular cells, is a key event which accounts for the phosphaturic effect of exogenous cAMP and for the part of the phosphaturic effect of PTH which is mediated by cAMP added to the tubular lumen under the influence of the hormone.
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PMID:Mechanisms whereby extracellular adenosine 3',5'-monophosphate inhibits phosphate transport in cultured opossum kidney cells and in rat kidney. Physiological implication. 132 99

The present investigation was undertaken to examine the possible role of cAMP in PTH-stimulated prostaglandin (PG) production in organ cultures of neonatal mouse parietal bones. Cultures were treated with PTH, forskolin, isobutylmethylxanthine (IBMX), and 8-bromo-cAMP (8BrcAMP). We found that similar concentrations of PTH stimulate cAMP formation and increase PG production in this culture system. Forskolin, a direct activator of adenylate cyclase, was also a potent stimulator of cAMP and PG production. The effect was dose dependent, with a maximum at 10(-5) M. The time courses for PTH- and forskolin-stimulated PG production were similar, and there was a close and similar correlation between cAMP production at 15 min and PGE2 production at 6 h for both agents. An increase in PG production was also observed when IBMX, which elevates cAMP levels in cells by inhibiting cAMP phosphodiesterase, or the cAMP analog 8BrcAMP was added to the cultures. In addition, IBMX enhanced the PGE2 responses to PTH, forskolin, and 8BrcAMP. These findings indicate that stimulation of PG production by PTH may be mediated by cAMP.
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PMID:Evidence that adenosine 3',5'-monophosphate mediates hormonal stimulation of prostaglandin production in cultured mouse parietal bones. 168 90

The acute effect (24 h) of either phosphate depletion or phosphate surfeit on hormonal stimulated signal transduction systems was studied in the osteoblastic cell line UMR-106. Elevation of intracellular Ca2+ ([Ca2+]in), induced by different calciotropic hormones (PTH, prostaglandin E2, endothelin) was blunted by acute phosphate depletion, whereas at high inorganic phosphate (Pi) concentrations the rise in [Ca2+]in was augmented. Basal [Ca2+]in was not altered by either Pi depletion or Pi excess. The effect of acute phosphate depletion on hormonal mediated [Ca2+]in rise was not observed in the absence of extracellular Ca2+ suggesting that under these conditions, the release of Ca2+ from intracellular stores, is not affected. Also, nonhormonal calcium entry pathways such as depolarization-activated calcium channels or protein kinase C-activated Ca2+ channels were not affected by acute phosphate depletion. cAMP accumulation in the cells, either through receptor or nonreceptor-mediated mechanisms, increased under low Pi conditions and decreased as Pi concentration in the culture media was progressively increased from 0 to 2 mM during 24 h of incubation. Changes in Pi concentration had no effect on basal cAMP generation by the cells. The facilitative effect of acute Pi depletion on agonist-induced cAMP accumulation could be demonstrated in both the presence and absence of the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (0.2 mM). PTH receptor binding assessed with [Nle8 Nle18 Tyr34] bovine PTH (1-34) NH2 was not altered by phosphate depletion. We conclude that exposure of osteoblasts to different Pi environments modulates the second messenger responses to hormones in a reciprocal fashion so that acute phosphate depletion down-regulates [Ca2+]in signals while augmenting cAMP generation and vice versa. Inasmuch as bone resorption processes can be modulated by Ca2+ and cAMP the data presented herein suggest that the altered bone resorptive response to calciotropic hormones (e.g. PTH), under surfeit or deficit of phosphate, is mediated by changes in [Ca2+]in and cAMP.
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PMID:Acute phosphate depletion dissociates hormonal stimulated second messengers in osteoblast-like cells. 171 62

Recent studies have suggested a role for the carboxyl-terminus of PTH in the binding of the molecule to renal and skeletal receptors, but the functional significance of this binding remains uncertain. We have investigated the possible role of this region by examining the effect of substituting the asparagine residue at position 76 of the native human molecule [Asn76]hPTH-(1-84) with an aspartate residue, [Asp76] hPTH-(1-84) on activity in both renal and skeletal cytochemical (CBA) and adenylate cyclase (AC) bioassays. In the renal CBA, [Asp76]hPTH-(1-84) was considerably less potent than [Asn76]hPTH-(1-84) and produced dose-dependent inhibition of the bioactivity of intact bovine (b) PTH-(1-84), bPTH-(1-34), and [Asn76]hPTH-(1-84). [Asp76]hPTH-(39-84) inhibited the response to intact PTH to a lesser extent, whereas [Asp76]hPTH-(53-84) had no antagonistic activity. In the metatarsal CBA, [Asp76]hPTH-(1-84) inhibited the response to intact PTH, but was less potent than in the renal CBA. In both renal (OK) and skeletal (UMR) cell AC assays [Asp76]hPTH-(1-84) and [Asn76]hPTH-(1-84) were equipotent agonists. Therefore, the CBAs are much more sensitive to modification of the carboxyl end of the molecule than AC assays. The antagonist properties of [Asp76]hPTH-(1-84) appeared to be mediated by phosphodiesterase activation as theophylline abolished the antagonism of this analog. These studies indicate that generation of PTH analogs, modified at the carboxyl-terminal region as well as at the amino-terminus, may be useful for developing potent PTH antagonists.
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PMID:Biological properties of synthetic human parathyroid hormone: effect of deamidation at position 76 on agonist and antagonist activity. 185 Mar 58

Extracellular calcium (Ca2+) is the major physiological regulator of parathyroid function; high Ca2+ decreases PTH secretion as well as reduces cAMP accumulation. There is an increasing body of evidence suggesting the presence of a receptor-like mechanism at the surface of the parathyroid cell which mediates these and other actions of Ca2+. In the present studies we used the lectin Concanavalin-A (Con-A) to investigate the possible role of carbohydrate moieties in the regulation of cAMP metabolism by Ca2+ in bovine parathyroid cells, which is thought to involve inhibition of adenylate cyclase via activation of the guanine nucleotide regulatory protein Gi. Pretreatment of parathyroid cells with Con-A for 15-60 min significantly reversed the inhibitory effect of high Ca2+ on dopamine-stimulated cAMP accumulation, reducing the inhibition at 3 mM Ca2+ from 70 +/- 3% to 30 +/- 3%. This effect was also observed in the absence of preincubation and with concentrations of Con-A as low as 40 micrograms/ml and was reversed by alpha-methyl-D-glucoside, a specific antagonist of the lectin. The lectin also reversed the inhibitory effects of Ca2+ (2-3 mM) on cAMP accumulation stimulated by isoproterenol and forskolin to a comparable extent. Prostaglandin F2 alpha-induced inhibition of cAMP accumulation (likewise mediated by Gi) was, however, not reversed by Con-A, suggesting that the lectin did not have a generalized effect on the cell surface or on receptors inhibiting adenylate cyclase. Moreover, fluoride-induced inhibition of cAMP accumulation was not reversed by Con-A, providing additional evidence that the lectin did not act at or distal to Gi (i.e. modulate Gi, adenylate cyclase, and/or phosphodiesterase). The present study suggests that Con-A may modulate the actions of extracellular Ca2+ on parathyroid secretion, possibly modifying the interaction of Ca2+ with the cell surface by affecting carbohydrate moieties that seem to be important in the Ca2(+)-sensing process. The structural element involved in Ca2+ sensing in the parathyroid cell may be a glycoprotein or closely associated with glycoproteins with carbohydrate chains containing alpha-methyl-D-glycoside.
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PMID:Effect of the lectin concanavalin-A on calcium-regulated adenosine 3',5'-monophosphate accumulation in bovine parathyroid cells. 215 77

The modulatory effect of Ca on [Arg8]vasopressin-dependent (AVP) cAMP metabolism was studied in medullary collecting tubules (MCT) and medullary ascending limbs (MAL) microdissected from rat kidney. In MCT segments incubated in vitro with AVP, the accumulation of cAMP was enhanced (delta +59%) when Ca was omitted from the incubation medium compared with a medium with 2 mM of ionized calcium (Ca2+). Ionophore A23187 caused a decrease in AVP-stimulated cAMP accumulation in MCT in the presence of 2 mM Ca2+ but not in a Ca2+-free medium. Diltiazem and verapamil enhanced the AVP-stimulated cAMP accumulation in MCT; PTH had no detectable effect. A23187 caused a dose-dependent inhibition of cAMP accumulation stimulated by AVP with forskolin in both MCT and in MAL. However, in MAL the A23187 concentration needed for half-maximum inhibition (6.3 X 10(-6) M) was higher than for MCT (3.9 X 10(-7) M). The maximum inhibition in MAL (-65%) was less than in MCT (-97%). In the presence of 3-isobutyl-1-methylxanthine, AVP-stimulated cAMP accumulation was inhibited by A23187 in MCT (-45%) but not in MAL. Naproxen or ibuprofen did not relieve the inhibitory action of A23187 in MCT. Added Ca2+ inhibited the AVP-stimulated adenylate cyclase in MCT and MAL (half-maximum approximately equal to 5 X 10(-4) M Ca2+) and stimulated cAMP phosphodiesterase (cAMP-PDIE) in both MCT and in MAL (half-maximum approximately equal to 9 X 10(-5) M Ca2+). Incubation of MCT and MAL with A23187 decreased (-50%) the content of ATP. Results suggest that increased influx of extracellular Ca2+ inhibits the AVP-stimulated cAMP accumulation in MCT and to a much lesser degree in MAL. Deceased cAMP accumulation in MCT is probably due to both stimulation of cAMP-PDIE and the inhibition of adenylate cyclase, whereas in MAL it is due to stimulation of cAMP-PDIE. The results suggest that Ca2+ influx exhibits a negative modulatory effect on AVP-dependent cAMP metabolism mainly in MCT.
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PMID:Effects of calcium on the vasopressin-sensitive cAMP metabolism in medullary tubules. 241 23

The present studies were designed to examine in vivo effects of glucocorticoid on PTH-or calcitonin (CT)-stimulated adenosine 3',5'-monophosphate (cAMP) release from the isolated perfused bone of rat and to test whether the duration of glucocorticoid administration influenced such effects. We assessed the ability of acute (24 hour) or chronic (2 week) dexamethasone administration to modulate the cAMP response to 5 micrograms human PTH-(1-34) or 1 micrograms eel CT. Acute treatment with dexamethasone (1 mg/100 g body wt) increased the cAMP response to PTH, but decreased the response to CT. This enhanced effect on PTH-stimulated cAMP release was not apparent in the presence of phosphodiesterase inhibitor 3-isobutyl-1-methyl-xanthine (IBMX, ImM). In contrast, chronic dexamethasone treatment (0.2 mg daily for 2 weeks) led to a decrease in both PTH- and CT-stimulated cAMP release. Such impaired response of the dexamethasone-treated bones to PTH was also found in rats that underwent parathyroidectomy 24 hours before sacrifice. These data indicate that 1) the duration of glucocorticoid administration may influence the effect of PTH on bone and 2) glucocorticoid may decrease cAMP-mediated CT function, regardless of the duration of treatment.
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PMID:Altered parathyroid hormone- or calcitonin-stimulated adenosine 3', 5'-monophosphate release by isolated perfused bone from glucocorticoid-treated rats. 242 9

The relation between the level of cyclic AMP and bone resorption was studied in a bone organ culture system, using calvaria from newborn mice. Two methylxanthines, iso-butyl-methylxanthine and theophylline and two non-xanthine inhibitors of cyclic AMP phosphodiesterase, Ro 20-1724 and rolipram, stimulated the release of [45Ca] and [3H] from bones prelabelled in vivo with [45Ca]- and [3H]proline, respectively. The release occurred after a delay of more than 24 hr. In 120-hr cultures, theophylline, IBMX, rolipram and Ro 20-1724, all stimulated the release of stable calcium, inorganic phosphate and the lysosomal enzymes, beta-glucuronidase and beta-N-acetylglucosaminidase from mouse calvarial bones. In addition, all four phosphodiesterase inhibitors decreased the amount of hydroxyproline in the bones at the end of the culture period. The release of minerals and the decrease of hydroxyproline was abolished by indomethacin. In short-term cultures (24 hr), rolipram and Ro 20-1724 did not reduce PTH-stimulated mineral mobilization, whereas the two methylxanthines, and dibutyryl cyclic AMP and 8-bromo cyclic AMP, did cause a reduction of PTH-stimulated mineral release during the first 24 hr. All four phosphodiesterase inhibitors increased the accumulation of cyclic AMP in the calvaria and inhibited cyclic AMP hydrolysis in extracts of calvarial bone. There was a correlation between the magnitude of the initial rise in cyclic AMP and the delayed stimulation of bone resorption. However, much lower concentrations of the PDE inhibitors were sufficient to produce a delayed increase in bone resorption than to block phosphodiesterase and significantly raise cyclic AMP levels. It is suggested that the elevation of cyclic AMP in a subset of bone cells results in an acute reduction of bone mobilization and the cAMP elevation in another subset to a delayed rise in bone resorption.
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PMID:Comparative study of the effects of cyclic nucleotide phosphodiesterase inhibitors on bone resorption and cyclic AMP formation in vitro. 243 92

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