UNIPROT:P00790 - FACTA Search

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Query: UNIPROT:P00790 (PGA)
2,475 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Examination of a soluble fraction derived from homogenates of rabbit kidney papilla revealed the existence of a 15-hydroxyprostaglandin dehydrogenase specific for A-type prostaglandins. Prostaglandins of the E- and F-series were not substrates for this enzyme. In agreement with published data, the 15-hydroxyprostaglandin dehydrogenase(s) derived from the kidney cortex were found to degrade all prostaglandins examined (PGE, PGF, PGA) in the presence of added cofactor NAD. Thus it is evident that in this species the kidney 15-hydroxyprostaglandin dehydrogenases are anatomically compartmentalized so that the papilla is able to metabpable of degrading E-, F-, and A-type prostaglandins by this metabolic pathway.
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PMID:A 15-hydroxyprostaglandin dehydrogenase specific for prostaglandin A in rabbit kidney. 0 94

Luteinizing hormone (LH) and follicle stimulating hormone (FSH) stimulated the accumulation of adenosine 3',5'-monophosphate (cAMP) within 30 minutes of addition to human testicular incubates. The phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine acted synergistically with FSH and to a lesser degree with LH to enhance cAMP accumulation. The findings indicate that cAMP accumulation may be involved in the mechanism of action of LH and FSH in the human testes, as has been proposed for rats. The prostaglandins (PG) PGE-1, PGE-2, PGA-1, and PGF-2-alpha stimulated cAMP levels at a concentration of 1/10,000 M in human testes. The E type prostaglandins were the most potent; they induced half-maximal stimulation of cAMP at 7/10,000,000 M.
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PMID:Stimulation of cyclic adenosine 3':5'-monophosphate accumulation in human testes in vitro by luteinizing hormone, follicle-stimulating hormone, and prostaglandins. 8 21

The characteristics of the effects of catecholamines, prostaglandins, and adenosine on the adenosine 3',5'-monophosphate (cAMP) content of human astrocytoma cells are described. Catecholamines interact with a typical beta-adrenergic receptor, i.e., the order of potency of catecholamines is isoproterenol larger than or equal to epinephrine greater than norepinephrine greater than dopamine, and propranolol is an inhibitor but phentolamine is not. The prostaglandins interact with a receptor that recognized PGE-1, PGE-2, and PGA-1 but not PGF-2-alpha. The effects of PGE-1 are blocked by 7-oxa-13-prostynoic acid, indomethacin, and meclofenamic acid in a rapid, reversible manner. The cells contain another adenylate cyclase-linked receptor that recognizes adenosine and the adenine nucleotides but not guanosine, deoxyadenosine, or adenine. Theophylline and other methylxanthines are competitive inhibitors of the effect of adenosine. Each class of effector appears to stimulate adenylate cyclase by interacting with a structure-specific receptor. This follows from the observation that the effect of each class of agonists can be blocked selectively by the various inhibitors and is consistant with the observation that co-addition of different agonists results in additive effects on accumulation of cAMP. The magnitude of the effect of any of the classes of agonists can be influenced by a variety of factors, some of which may be related to the peculiarities of growth in culture: (1) The cells secrete cAMP into the medium, and the magnitude of this secretion for a given rise in intracellular cAMP is different for different agonists. (2) The exposure of the cells to catecholamines or prostaglandins leads to a loss of responsiveness to a subsequent challenge by the same agonist. The magnitude of the agonist-induced loss of responsiveness is dependent on the concentration of the agonist and the time of exposure. The process is at least partially agonist specific in that exposure of cells to isoproterenol can lead to greater than 90% loss in catecholamine responsiveness with less than 20% loss in responsiveness to prostaglandins. (3) The responsiveness of the cells also changes as a function of the age of the culture and as a function of cell density. (4) Finally, it can be demonstrated that cells maintained in culture for prolonged periods (months to years) may lose responsiveness to specific agonists while responsiveness to other agonists remains unchanges or actually increases. The advantages and disadvantages of the use of cells in culture for studies of the regulation of cAMP metabolism are discussed.
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PMID:Factors influencing the effect of hormones on the accumulation of cyclic AMP in cultured human astrocytoma cells. 16 56

Prostaglandins biosynthesized from 3H-arachidonic acid by trypsin-dispersed cat adrenocortical cells were isolated by silicic acid and thin layer chromatography. PGE, PGF, and a third component with mobility properties indistinguishable from either PGA or PGB were identified both in cortical cell homogenates and incubation medium. Concentrations of ACTH (125-250 muU) which stimulate steroidogenesis enhanced the conversion of labeled precursor to all three of these prostaglandins. These findings provide further evidence for the proposal that prostaglandins function as a critical link in ACTH-induced steroidogenesis.
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PMID:ACTH-induced prostaglandin biosynthesis from 3H-arachidonic acid by adrenocortical cells. 17 81

The concentration of different prostaglandins (PG's) was determined in both cells and culture medium of growing BALB/3T3 and BALB/3T3 (3T3) cultures transformed by simian virus 40 (SV3T3). Most PG's were found in the culture medium rather than in the cells. Further, the larger PG measurements were PGE and a composite measurement of PGA and PGB. PGF was detected at lower levels. The sum of PGE and the composite measurement (PGA+PGB) was the best indication of PG production in culture. When 2-day medium collections from 3T3 and SV3T3 cells were measured by radioimmunoassay for PGs, higher concentrations of PG were detected in the media of SV3T3 cultures. This difference in PG production was not due merely to differences in cell density, since SV3T3 cells produced higher PG concentrations, even at equal cell densities. PG production for a 2-day interval was more a function of cell type than cell density.
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PMID:Prostaglandin production in cultures of BALB/3T3 and SV3T3 mouse fibroblasts. 17 97

1 The report of the depression by indomethacin of vasoconstrictor responses to noradrenaline and their partial restoration by prostaglandin E(2) (PGE(2)) and PGE(1) in rat isolated perfused mesenteric blood vessels was investigated. The further suggestion that prostaglandins may be necessary for the combination of noradrenaline with the alpha-adrenoceptor in this tissue was also studied.2 The reported depression by indomethacin was confirmed and was further shown to be in the form of a concentration-dependent flattening of the noradrenaline concentration-effect curve.3 A concentration-dependent restorative effect was observed for all prostaglandins studied. The decreasing order of potency for the restoration towards normal of the indomethacin-depressed responses to noradrenaline was: PGE(2), PGE(1), PGA(1), PGF(2alpha), PGA(2).4 The prostaglandins studied were not uniform in their restorative actions and could be separated into two groups. PGE(2) and PGE(1) restored responses towards the control level whereas PGA(1), PGA(2) and PGF(2alpha) increased responses to an above control level and did so over a smaller concentration range. The possibility of several prostaglandin receptors is discussed.5 At concentrations equi-effective in restoring depressed responses to control levels PGA(1) but not PGE(2), caused a parallel shift of the noradrenaline concentration-effect curve to the left and a small, gradual rise in the basal perfusion pressure.6 The reason for the differing effects remains obscure but does not seem to involve a change in the alpha-adrenoceptor as indicated by the pA(2) of phentolamine. Furthermore, the restorative and potentiating effect of PGA(1) is not mediated by blockade of neuronal uptake of noradrenaline.7 It appears that prostaglandins are required for the vasoconstrictor action of noradrenaline in rat mesenteric blood vessels and that this effect is distal to the drug-receptor interaction. The possible involvement of prostaglandins with intracellular calcium ions is discussed.
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PMID:The influence of prostaglandins on noradrenaline-induced vasoconstriction isolated perfused mesenteric blood vessels of the rat. 20 65

Prostaglandins (PG) have been shown to raise the level of cyclic AMP (cAMP) in various tissues, and to increase permeability. Whether both events are linked, is at present a matter of speculation. We have investigated the effects of PGE1, E2, A1, A2, F1alpha and F2alpha on an isolated rat mesentery placed in a diffusion cell (surface area : 2 sq.cm). The PGs (5 microgram/ml) increased the passage of (I 125) - Albumin across the mesentery. In other experiments, diks of rat mesentery (surface area : 2 sq.cm) have been incubated in assay tubes, and cAMP levels measured by a binding protein assay. We have observed an excellent correlation between increases in permeability and cAMP levels (r=0.961). In order of increasing potency on both parameters, the PGs may be classified as follows : PGF, PGA and PGE. In the rat mesentery, under the influence of prostaglandins, increases in permeability and in cAMP levels are apparently connected.
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PMID:The role of various prostaglandins on the correlation between permeability to albumin and cAMP levels in the isolated mesentery. 21 45

Prostaglandins A1, B1, E2, Falpha and PRA have been measured by radioimmunoassay in peripheral or renal venous blood of different groups of hypertensive and control subjects. PGA1 and PGE2 were significantly increased in renal, renovascular, labile and essential hypertension. PGFalpha was significantly increased only in patients with unilateral renal atrophy and in some patients with renovascular and essential hypertension. There was a significant positive correlation between PRA and PGA1 or B1, but not with PGE2 or Falpha. The increase of PGA and PGE represents a secondary antihypertensive, diuretic and natriuretic mechanism, the increase of PGF a direct hypertensive mechanism.
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PMID:Prostaglandins and high blood pressure. 35 39

Plasma prostaglandins were determined by radioimmunoassay in 92 pregnant and 14 nonpregnant women. There was significant elevation of PGA-like material in the first trimester of pregnancy (1744 pg/ml) over that seen in nonpregnant women (576 pg/ml) with continuation of that elevation in the second and third trimesters. No significant difference existed among PGE levels of the nonpregnant group (251 pg/ml) and the first two trimesters of pregnancy (384 pg/ml and 294 pg/ml); the PGE level of the third trimester group (443 pg/ml) was significantly elevated over that of the nonpregnant group. PGF levels remained constant during all trimesters (135 pg/ml, 144 pg/ml, and 130 pg/ml) but exhibited plasma concentrations significantly higher than the nonpregnant group (78 pg/ml). Potential role (s) of prostaglandins as mediators of cardiovascular and renal changes of pregnancy are discussed.
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PMID:Plasma prostaglandins in pregnancy. 61 37

Experimental data now strongly suggest that the PGs, by nature of their natural local occurrence and destruction, powerful effects on, and release from lung tissue are important in regulating both pulmonary homeostasis and dysfunction. Laboratory studies on their activity, potency, duration, preferred route of administration, mechanism and possible antiallergic effects, have been largely substantiated in humans. Structure activity studies on a large number of congeners of PGE, PGF, and PGA emphasize the critical importance of stereochemistry and various substituent groups on biologic activity in the lung.
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PMID:Actions of prostaglandins on the respiratory tract of animals. 82 48

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