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)

1. Dibutyryl cyclic AMP (Db cAMP, 75-500 microgram/kg), injected into the lateral ventricle of the brain of the cat increased blood pressure, heart rate and splanchnic discharge rate. 2. ATP, but not AMP, induced similar changes; GMP in small doses increased blood pressure. 3. A number of drugs are known to activate adenylate cyclase-induced hypertension, tachycardia and increase splanchnic discharge rate. This was shown for TRH, tetracosactide and a new beta2-adrenoceptor stimulant, NAB 365. 4. Injection into the lateral ventricle of theophylline or Ro 7/2956, both inhibitors of phosphodiesterase, similarly increased blood pressure. 5. Histamine administered by the same route induced similar reactions; it is not known if this action was exerted by activation of H1- or H2-receptors. 6. Somatostatin, known to reduce cAMP levels, induced a small but significant decrease in blood pressure. Melanocyte stimulating hormone release inhibiting factor (MIF) and TSH were ineffective. 7. These results provide evidence for the possibility of a role for cAMP in the central regulation of blood pressure at suprabulbar levels.
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PMID:Cyclic 3'5'-adenosine monophosphate and central circulatory control in cats and dogs. 2 Feb 56

In hypophysectomized rats given dietary regimens either rich or deficient in iodine, the increase in thyroid cyclic AMP concentration induced acutely by a single dose of TSH was significantly less in iodine-enriched than in iodine-deficient animals. Direct assays revealed that this difference was because the thyroid adenylate cyclase response to TSH was less in the iodine-enriched animals, phosphodiesterase activity being no different in the two groups. This effect may explain the inhibitory action of dietary iodine enrichment on diverse functional and anatomical responses of the thyroid to TSH.
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PMID:Inhibitory effect of dietary iodine on the thyroid adenylate cyclase response to thyrotropin in the hypophysectomized rat. 16 33

1. The effect of salmon gonadotropin(s) (SG) on cyclic AMP (cAMP) levels in immature trout gonadal tissue of both sexes was measured by radioimmunoassay. 2. A dose-response line was obtained to SG in gonads of both male and female trout. 3. As little as 0.45 SG units (1 SG unit = 1 mug NIH-LH-S18 in the chick bioassay) significantly increased cAMP formation in the presence of 8 mM theophylline; mammalian LH, FSH, LTH, ACTH, TSH and HCG were inactive. 4. The assay for SG was investigated with respect to time of incubation and two phosphodiesterase inhibitors; some conditions for the cAMP radioimmunoassay (cAMP-RIA) were compared.
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PMID:Fish gonadotropin(s). I. Bioassay of salmon gonadotropin(s) in vitro with immature trout gonads. 17 55

Thyroid cells from euthyroid patients with Graves' disease were cultured in a chemically defined medium. The cells preserved the ability to respond to TSH with 8-fold increase in cyclic AMP concentration. This cyclic AMP response to TSH was diminished by prior exposure of cells to TSH. The decrease in cyclic AMP response to TSH induced to TSH was reversible, was not associated with a similar decrease to cyclic AMP response to PGE1, and could not be attributed to increased phosphodiesterase activity or to decreased adenyl cyclase activity. The partial resistence to TSH stimulation of thyroid cells previously exposed to TSH may be due to changes in the TSH receptor, possibly caused by TSH itself.
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PMID:Cyclic AMP level of human thyroid cells in monolayer culture. TSH induced refractoriness to TSH action. 18 6

Possible differences of the mode of action of TSH and prostaglandin E1 (PGE) on the synthesis of cyclic AMP were studied in normal human thyroids (normal thyroid) and thyroids from thyrotoxic patients (toxic thyroid). TSH was less effective in toxic thyroids than in normal thyroids; whereas PGE1 was equally effective in normal thyroids and toxic thyroids. Since the basal level of cyclic AMP was the same in normal and toxic thyroids, this lower sensitivity of toxic thyroids to TSH was not due to the fact that toxic thyroids were already overactive in terms of cyclic AMP synthesis. The measurement of adenylate cyclase and phosphodiesterase activities in the plasma membranes or homogenates failed to explain this lower sensitivity of toxic thyroids to TSH. Small and large doses of T4 and T3 failed to suppress an increase of cyclic AMP produced by PGE1, in the slices and plasma membranes of normal and toxic thyroids; whereas large doses of T3 depressed an increase of cyclic AMP in response to TSH in the thyroid plasma membrane of toxic thyroids. When both TSH and PGE1 were administered simultaneously, an additive increase of cyclic AMP was found in normal thyroids and in toxic thyroids. From the data accumulated, we suggest that, although TSH and PGE1 stimulate cyclic AMP synthesis in normal and toxic thyroids, the site of action and/or mode of action of these two stimulators may possibly be different, at least in human thyroids.
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PMID:Comparison of prostaglandin E1 and TSH stimulation of cyclic AMP synthesis in thyroid tissues from euthyroid subjects and thyrotoxic patients. 18 93

Cultured dog thyroid cells were used to investigate the mechanism by which previous exposure to thyrotropin (TSH) induces refractoriness to further TSH stimulation of cellular adenosine 3'-5'-monophosphate (cAMP). Refractoriness of the cAMP response to TSH could not be overcome by exposure of the cells to supramaximal stimulatory concentrations of TSH. Although an unknown factor present in human and fetal calf serum was found to inhibit the thyroid cell cAMP response to TSH, this factor could not account for refractoriness because refractoriness could be induced in the absence of serum. Induction of thyroid refractoriness did not appear to be related to cellular concentrations of cyclic AMP, because equal refractoriness was produced by TSH alone or TSH plus the phosphodiesterase inhibitor, 3-isobutyl-1-methyl xanthine. In addition, preincubation of thyroid cells in 10(-4) M cAMP did not result in subsequent refractoriness. Recovery from the refractory process required almost 24 h. Short term (15 min) stimulation with TSH did not produce thyroid cell refractoriness, and reversal of the stimulation was obtained by thorough washing of the cells. Long term TSH stimulation (16 h), however, resulted in both supramaximal cAMP response to TSH, and inclusion of TSH together with cycloheximide did not produce refractoriness. Cyclic AMP phosphodiesterase activity in thyroid cell homogenate was unaltered by TSH or dibutyryl cyclic AMP pretreatment of the cells for up to 24 h, or cycloheximide for up to 4 h. In contrast, TSH-stimulated, but not F--stimulated, adenylate cyclase activity was reduced in thyroid cell homogenates after preincubation of the cells in TSH. Refractoriness to TSH stimulation was not associated with an alteration in the binding of 125I-TSH to cultured thyroid cells. These studies suggest that the thyroid cAMP response to TSH is modulated by an inhibitory mechanism dependent upon new protein synthesis. TSH stimulation itself increases the degree of this inhibition through a mechanism not involving cAMP.
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PMID:Induction of refractoriness to thyrotropin stimulation in cultured thyroid cells. Dependence on new protein synthesis. 18 15

Thyrotropin (TSH) stimulation of ornithine decarboxylase (ODC) activity and polyamine levels was studied in vitro in rat thyroids. The elevation in ODC activity was related to the concentration of TSH in the incubation medium with peak activity at a concentration of 25mU/ml. ODC activity with 50 mU/ml of TSH was 3 to 5-fold higher than control activity at 5 h of incubation; this stimulation was enhanced by the addition of 0.5 mM 3-isobutyl-l-methyl xanthine (MIX), a phosphodiesterase inhibitor. Dibutyryl cyclic AMP (DbcAMP) also stimulated ODC activity with a dose response up to 2.0 mm. The increase in ODC activity with TSH and MIX was prevented by incubation with actinomycin D (10 microgram/ml) or puromycin (0.2 mM). Putrescine concentrations in rat thyroids rose to three times basal levels after 6 h of incubation with TSH and MIX; no significant elevation in spermidine or spermine was observed after up to 7 h incubation. The increase in tissue putrescine preceded a rise in [3H]uridine incorporation into acid-soluble material that occurred at 7 h. The results suggest that stimulation of thyroid ODC activity by TSH is mediated by a cyclic AMP; the data further are consistent with a role for polyamines in the control of RNA synthesis in the thyroid.
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PMID:In vitro stimulation of thyroid ornithine decarboxylase activity and polyamines by thyrotropin. 19 94

Cholinergic agents induce an accumulation of cGMP in thyroid tissue and inhibit cAMP accumulation and thyroid hormone secretion resulting from TSH action. The aim of the present work was to determine the respective roles of Ca++ and/or cGMP in these actions. The results show that two complementary mechanisms may be demonstrated: 1) cGMP activates phosphodiesterase activity and cAMP hydrolysis. 2) Independently of cyclic nucleotide concentrations, increased intracytoplasmic Ca++ directly inhibits TSH induced stimulated hormone secretion.
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PMID:[Calcium, cGMP and cAMP roles in thyroid regulation (author's transl)]. 21 Jul 3

Changes in the content of cyclic nucleotides (cAMP and cGMP) and related enzyme activities were observed in the rat thyroid, pituitary and plasma during the prolonged increase of endogenous TSH produced by treatment with methylthiouracil (MTU). Experiments were performed after 4 weeks treatment with MTU. The wet weight and cAMP content per wet weight of the thyroid increased 3 and 1.4 times respectively, but cGMP showed a slight decrease. Pituitary weight increased 1.3 times, but cAMP and cGMP content did not change. The cAMP level in plasma also increased about 1.3 times, but cGMP did not increase. The cAMP-phosphodiesterase activity in the thyroid, pituitary and plasma was increased 1.9, 1.4 and 1.3 times respectively after MTU treatment, while cGMP-phosphodiesterase showed no significant change. ATPase activity in the thyroid and pituitary was also increased more than 1.5 times after MTU treatment, while 5'-nucleotidase activitity decreased remarkably. These data indicate that the metabolism of the cyclic nucleotide system in the thyroid is stimulated by TSH.
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PMID:Changes in the cyclic nucleotides of rat thyroid, pituitary and plasma caused by methylthiouracil treatment. 21 61

The adenylate cyclase-cyclic AMP-phosphodiesterase system of human thyroid tissues adjacent to cold nodules (control), two follicular adenomas, one hyperplastic thyroid and one hyperfunctioning follicular carcinoma have been compared. In the hyperfunctional follicular carcinoma the basal adenylate cyclase is much higher than in control tissue, carcinoma adenylate cyclase does not respond to TSH and prostaglandin E1, whereas it responds normally to fluoride. In the hyperplastic, but hypofunctional thyroid the basal adenylate cyclase is higher than in normal tissue whereas the response to TSH, PGE1, and fluoride is normal. No difference between the follicular adenomas and normal thyroid stimulated and unstimulated adenylate cyclase was observed. Furthermore in various thyroid tissues no changes in the level of cyclic AMP phosphodiesterase was found. Our data indicate a greater change in the synthesis rather than in degradation of cyclic AMP in the human pathological thyroids studied.
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PMID:The adenylate cyclase-cyclic AMP-phosphodiesterase system in pathological human thyroid. 22 51

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