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)

We examined the effect of angiotensin II, a calcium-mobilizing hormone on polyphosphoinositide metabolism in isolated rat adrenal glomerulosa cells. In cells preloaded with [32P]phosphate or with [3H]inositol, stimulation with angiotensin resulted in an approx. 40% reduction in the radioactivity of triphosphoinositide (PtdIns4,5P2) within 15 s. Only a slight increase in radioactivity was observed in the subsequent 30 min. Changes in labelling of diphosphoinositide (PtdIns4P) showed similar kinetics. Incorporation studies also showed a reduction in the pool size of [32P]PtdIns4P and [32P]PtdIns4,5P2 in response to angiotensin. Production of inositol phosphates in the absence or presence of lithium, a cation-inhibiting myo-inositol-1-phosphatase, was examined in cells preloaded with [3H]inositol. The results indicate that the production rate of inositol tris- and bisphosphate shows a manifold increase in the first seconds of stimulation and remains enhanced for at least several minutes. The present data suggest that the rate of resynthesis of polyphosphoinositides also increases shortly after the activation of PtdIns4,5P2 phosphodiesterase. Corticotropin, a hormone acting via cyclic AMP, neither affected polyphosphoinositide metabolism nor modified the action of angiotensin II.
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PMID:Polyphosphoinositide metabolism in adrenal glomerulosa cells. 298 37

Continuous treatment (1-3 weeks) with imipramine or adrenocorticotropin (ACTH) decreases the responsiveness of the norepinephrine-coupled cyclic nucleotide generating system in rat brain cerebral cortex. Experiments were undertaken to determine which component of the second messenger system is influenced by the hormone and antidepressant. Neither treatment modified the amount or function of extractable stimulatory guanine nucleotide binding protein or the activities of adenylate cyclase or phosphodiesterase. While both imipramine and ACTH treatment decreased the cyclic AMP response to norepinephrine, only imipramine administration influenced the response to isoproterenol. ACTH treatment was found to reduce the alpha adrenergic potentiation of isoproterenol- and 2-chloroadenosine-stimulated cyclic AMP production, as well as reduce the sensitivity of the norepinephrine response to prazosin. These findings indicate that imipramine and ACTH treatments decrease the responsiveness of the rat brain norepinephrine-stimulated cyclic AMP generating system through actions on the alpha and beta adrenergic receptor components. The results suggest that noradrenergic receptor activity may be under the control of adrenal and/or pituitary hormones.
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PMID:Effect of imipramine and adrenocorticotropin administration on the rat brain norepinephrine-coupled cyclic nucleotide generating system: alterations in alpha and beta adrenergic components. 299 1

AVP(10(-8)-10(-6)M) increased ACTH as well as PGE2 release from rat anterior pituitary quarters in vitro in a concentration dependent manner. IBMX (0.1 mM), a phosphodiesterase inhibitor, increased the ACTH response to AVP. The cAMP content in pituitary tissue was increased by AVP. Cyclooxygenase inhibition by indomethacin(1.4 X 10(-5) M) or diclofenac (1.8 X 10(-5)M) led to a potentiation of AVP-evoked ACTH secretion and to a decrease in AVP-stimulated cAMP formation. PGE2(10(-6)M) significantly increased pituitary cAMP content and indomethacin did not affect cAMP levels activated by PGE2. PGE2 attenuated the AVP-induced ACTH release. These results indicate that at least two functional compartments of AVP-activated cAMP responses are involved in the AVP-induced ACTH release. One compartment is directly activated by AVP and participates in the propagation of AVP-induced ACTH release. The second compartment is activated by PGE2. The contribution of the second compartment to the regulation of ACTH secretion is not well understood since PGE2 shows an inhibitory effect on AVP-induced ACTH secretion.
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PMID:Functional compartmentalization of arginine-vasopressin-activated cyclic AMP in anterior pituitary gland: the presence of a compartment activated by prostaglandin E2. 300 4

FSH bioactivity was measured by means of FSH-dependent aromatase activity (conversion of androgen substrate to estradiol). Assay sensitivity was optimized by the use of immature (7-10 days old) rats as Sertoli cell donors, serum-free medium for incubation, phosphodiesterase inhibitor (methylisobutylxanthinine), serial dilution of FSH in medium containing 1% BSA, delayed addition of FSH for 72 h after cell plating, and 19-hydroxyandrostenedione (2.5 X 10(-6) M) as the aromatizable androgen substrate. The method consisted of subjecting the decapsulated immature rat testes to a 2-step collagenase dispersion, plating the cells in medium [Dulbecco's Modified Eagle's Medium-Ham's F-10 (1:1)] containing growth factors and methylisobutylxanthinine for 72 h, adding increasing doses of FSH to the standard curve or small volumes of serum to the test vials as well as 19-hydroxyandrostenedione for 24 h, and measuring estradiol by RIA in dilutions of the medium. Using NIAMDD human (h) FSH-2 as the bioassay standard, the useful range of the assay was 0.01-5.0 ng/ml. Specificity was determined by the addition of graded doses of hLH, hTSH, ACTH, hGH, hPRL, and hCG. The minor degree of FSH bioactivity observed in a few hormone preparations was accounted for by the degree of FSH contamination in them. Mean intra- and interassay coefficients of variation were 9% and 11%, and the index of precision was 0.049. This bioassay was used to determine the bioactive FSH content of pituitary extracts, tissue culture media, elutions from columns, and isoelectrically focused samples. More importantly, small quantities of human sera gave responses parallel to the standard curve in a minimum of two dilutions. The bio- to immunoreactive ratios, expressed as the mean +/- SEM (NIAMDD-hFSH-2), were 0.66 +/- 0.2 in boys (n = 6), 0.78 +/- 0.2 in pubertal girls (n = 6), 1.18 +/- 0.2 in men (n = 13), 1.24 +/- 0.1 in postmenopausal women (n = 30), 1.94 +/- 0.3 in the follicular phase (n = 19), 6.2 +/- 1.4 in the ovulatory phase (n = 19), and 1.6 +/- 0.4 in the luteal phase (n = 19) of the normal menstrual cycle. These results indicate that the bio- to immunoreactive hFSH ratio in the circulation, is dependent upon the hormonal milieu of the subject.
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PMID:An improved in vitro bioassay for follicle-stimulating hormone (FSH): suitable for measurement of FSH in unextracted human serum. 311 17

When rat fat cells were incubated with ACTH, epinephrine, or theophylline for 2 to 10 min, cyclic AMP phosphodiesterase (3':5'-cyclic-AMP 5'-nucleotidohydrolase, E.C. 3.1.4.17) activity (K(m) about 0.39 muM) in the 100,000 x g sediment fraction of homogenates was increased 35 to 50%. The effects of epinephrine and ACTH were concentration dependent and maximal increases were produced with concentrations similar to those that maximally stimulate lipolysis. Theophylline (0.5 mM) similarly increased phosphodiesterase activity but did not enhance the effects of maximally effective concentrations of the hormones. The changes in phosphodiesterase activity following addition of ACTH or theophylline paralleled changes in cell cyclic AMP content; both reached a maximum within 5 min and then declined, approaching basal levels after 20 or 30 min. The increased phosphodiesterase activity in cells incubated for 5 min with epinephrine reverted to basal levels within 2.5 min after the addition of propranolol. Our data are consistent with the view that there is a component of the fat-cell phosphodiesterase, perhaps localized in the plasma membrane, whose activity can be acutely modified by the concentration of its substrate, cyclic AMP. As previously reported (J. Biol. Chem.248, 7164-7170, 1973), exposure of fat cells to insulin increases the activity of a low K(m) phosphodiesterase also localized in the 100,000 x g sediment fraction of fat cell homogenates. In the presence of insulin, however, phosphodiesterase remained elevated for at least 40 min and there was no significant change in fat-cell cyclic AMP content. When phosphodiesterase activity was elevated and cyclic AMP content maintained at a high level by incubation of cells with ACTH plus theophylline, insulin produced a further increase in enzyme activity. Whether or not insulin and ACTH (or epinephrine or theophylline) affect the same phosphodiesterase, there seems little doubt that the underlying mechanisms are different.
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PMID:Effects of epinephrine, adrenocorticotrophic hormone, and theophylline on adenosine 3', 5'-monophosphate phosphodiesterase activity in fat cells. 436 58

A study was made of the influence of ACTH and hydrocortisone on cAMP content and phosphodiesterase (PDE) activity in the rat gastrocnemius and gastric skeletal muscles. One and 3 hours after injection hydrocortisone caused a decrease in PDE activity and raised cAMP content in both the muscles. ACTH in a dose of 1 Unit/100 g did not change PDE activity but increased cAMP content in the muscles one hour after injection, with an elevation in the blood corticosteroid level being insignificant. Three hours after injection of 2 Units/100 g ACTH, PDE activity dropped and muscle cAMP content ascended, with an appreciable increase in the blood corticosteroid level. In the smooth muscles, PDE activity was inhibited by corticosteroids to a greater degree than in the skeletal muscles.
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PMID:[Effect of corticotropin and hydrocortisone on the cyclic AMP content and phosphodiesterase activity in the skeletal and smooth muscles of rats]. 608 57

The AtT-20/D16-16 mouse pituitary tumor cell secretes corticotropin (ACTH) in response to corticotropin-releasing factor (CRF), (-)-isoproterenol, and vasoactive intestinal peptide (VIP). These responses are associated with a rapid increase in cyclic AMP formation. Somatostatin (SRIF) markedly decreases the stimulatory effect of CRF, (-)-isoproterenol, and VIP on both cyclic AMP formation and immunoreactive ACTH secretion. Forskolin and cholera toxin, adenylate cyclase activators, also stimulate cyclic AMP formation and ACTH secretion in AtT-20 cells and these responses are all inhibited by SRIF. The ACTH secretory responses to melittin and to the calcium ionophore A23187, neither of which increases cyclic AMP in AtT-20 cells, were not inhibited by SRIF. SRIF did not affect the binding of a tritiated beta-adrenergic receptor antagonist to AtT-20 membranes nor did it decrease basal cyclic AMP formation even in the presence of excess phosphodiesterase inhibitor, indicating that the reduction of cyclic AMP levels by SRIF did not involve either an interference with beta-adrenergic agonist binding to receptors or stimulation of cyclic AMP degradation. These results indicate that the inhibition of CRF-, (-)-isoproterenol-, and VIP-stimulated ACTH secretion by SRIF may be regulated by its inhibitory action on adenylate cyclase.
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PMID:Somatostatin inhibits multireceptor stimulation of cyclic AMP formation and corticotropin secretion in mouse pituitary tumor cells. 612 32

Addition of somatostatin-14 (SRIF) inhibits corticotropin releasing factor (CRF) and forskolin-stimulated cyclic AMP formation and ACTH release from tumor cells of the mouse anterior pituitary (AtT-20/D16-16). After long-term pretreatment of these cells with SRIF, the ability of SRIF to inhibit CRF and forskolin-stimulated cyclic AMP accumulation or ACTH secretion is markedly reduced. SRIF pretreatment also increases the formation of cyclic AMP in response to forskolin. This increase is delayed in onset, slow to recover, and blocked by the protein synthesis inhibitor, cycloheximide. SRIF pretreatment did not affect basal cyclic AMP and cyclic GMP levels or phosphodiesterase activity. It is proposed that prolonged treatment of AtT-20 cells with SRIF desensitizes SRIF receptors and induces a compensatory sensitization of adenylate cyclase through a process requiring protein synthesis.
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PMID:Prolonged somatostatin pretreatment desensitizes somatostatin's inhibition of receptor-mediated release of adrenocorticotropin hormone and sensitizes adenylate cyclase. 613

The content of cyclic nucleotides and the activity of adenylate and guanylate cyclases as well as of cAMP phosphodiesterase in the human hyperplastic adrenals were determined after one- and two-step bilateral adrenalectomy for Itsenko-Cushing's disease. A decrease in cGMP concentration and a corresponding increase in cAMP/cGMP correlation were seen in the 2nd hyperplastic adrenal comparatively to those in the 1st one. An enhanced basal activity of adenylate cyclase and its lowered sensitivity to ACTH were found in the 1st and the 2nd adrenals. These changes correlate with a rise in the blood ACTH concentration in patients after the ablation of one adrenal. It is suggested that the augmented adenylate cyclase activity leads to an increased activation of steroidogenesis enzymes in the rest adrenal, ensuring the elevated rate of corticosteroid secretion. The nature of changes in guanylate cyclase activity is contrary to that of adenylate cyclase; namely, guanylate cyclase basal activity of the 2nd hyperplastic adrenal was shown to be lower than that of the 1st one. The cAMP phosphodiesterase activity in the 1st and the 2nd adrenals remained unchanged.
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PMID:[Adenylate and guanylate cylase system function in human hyperplastic adrenals in Itsenko-Cushing disease]. 614 97

Primary culture of bovine adrenal subcapsular cells was used to investigate direct effects of catecholamines on aldosterone secretion. Cells dispersed with collagenase and DNAse and cultured at high density (1.5-2 million/ml) for 3 days displayed high sensitivity to angiotensin II and ACTH, with an ED50 of 1.4 and 1.5 nM, respectively. Adrenergic agonists elicited a 4- to 6-fold stimulation of aldosterone secretion with potency order (-)isoproterenol greater than (-)epinephrine equals (-)norepinephrine greater than (+)isoproterenol, and corresponding ED50 5, 240, 213, and 3000 nM, respectively. No reproducible inhibition by dopamine of basal or stimulated levels of aldosterone secretion could be detected, but a weak stimulatory effect was sometimes observed at high concentration greater than 10 microM. (-)Isoproterenol stimulation of aldosterone production was potently inhibited by the beta-adrenergic antagonists (-)alprenolol and (+)alprenolol with potencies of 1.8 and 110 nM, respectively. The alpha-adrenergic antagonists prazosin, yohimbine, and phentolamine only weakly inhibited (-)isoproterenol stimulation with potencies of 5, 13, and 140 microM, respectively. The potent beta 2-adrenergic antagonist ICI 118.551 and the weaker beta 1-adrenergic antagonist atenolol were roughly equipotent with potencies of 0.27 and 0.44 microM, respectively. Addition of the phosphodiesterase inhibitor Ro 20-1724 at 10 microM doubled the maximum stimulation effect of (-)isoproterenol without changing the potency of the catecholamine or the basal level of aldosterone secretion, suggesting a potential role of cAMP as a mediator of isoproterenol stimulation. These results indicate the presence of a beta 1-adrenergic receptor stimulating aldosterone secretion in bovine zona glomerulosa cells. The physiological significance of direct beta-adrenergic stimulation of aldosterone production is currently being assessed.
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PMID:Direct beta-adrenergic stimulation of aldosterone secretion in cultured bovine adrenal subcapsular cells. 614 9

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