UNIPROT:P01042 - FACTA Search

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Query: UNIPROT:P01042 (bradykinin)
15,585 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pathways of arachidonic acid metabolism were identified in freshly prepared and in cultured bovine corneal endothelial cells. The principal pathway of arachidonic acid metabolism in the bovine corneal endothelial cells appears to be the cyclooxygenase pathway with the resultant synthesis of PGI2, PGF2 alpha and PGE2. At least two of these products, PGI2 and PGF2 alpha, are formed by the enzymatic conversion of the substrate, PGH2. Measurements of endogenous prostaglandin production by radioimmunoassay demonstrated that PGE2 was the major arachidonic acid metabolite released, with smaller amounts of PGF2 alpha and the stable hydrolysis product of PGI2, 6-keto PGF1 alpha. The release of all three prostanoids was significantly increased by the addition of the calcium ionophore (A23187), human thrombin, bradykinin and histamine. Basal and stimulated release of prostaglandins by the corneal endothelium may contribute to the regulation of intraocular pressure and also in the modulation of the corneal response to injury.
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PMID:Arachidonic acid metabolism by cultured bovine corneal endothelial cells. 249 58

Fibroblasts are routinely maintained in vitro on tissue culture plastic, in an environment which is devoid of collagen, the most abundant extracellular protein in dermis. Recent work has shown that by seeding fibroblasts into a collagen matrix, many aspects of their metabolism change dramatically: they stop proliferation, organize and contract the collagen matrix, and secrete much larger quantities of the usual extracellular matrix components. Because so many fibroblast functions are dramatically altered by the presence of the collagen matrix, matrix effects on fibroblast metabolism of arachidonic acid were examined. The studies presented here show that during the period of matrix contraction, metabolism of arachidonate to prostaglandins by fibroblasts is increased sixfold compared to cells plated on plastic, and that this increase is correlated with contraction but does not regulate it. The increase in prostaglandin synthesis is due in part to an increased new synthesis of the rate-limiting enzyme in prostaglandin synthesis, cyclooxygenase. No change in the profile of products the fibroblasts synthesize from arachidonate is induced by the presence of the matrix. After the lattice contraction is complete, the basal arachidonate metabolism of matrix-embedded cells have the same capacity to synthesize PGE2 in response to IL-1 as do cells grown on plastic. However, the response to the hormone agonist bradykinin by the matrix-embedded cells is present on day 1 but not on day 3, the time when cells grown on plastic are most responsive. These data indicate that while basal prostaglandin metabolism is unaffected in quiescent fibroblasts which have been embedded in a collagen matrix, response to hormone agonists may be greatly attenuated. The changes in the metabolism of arachidonate which occur during the process of matrix contraction and organization may play a part in the regulation of wound repair.
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PMID:Collagen lattice effects on fibroblast arachidonic acid metabolism. 249 8

Prostaglandin E2 (PGE2) has been shown to increase the synthesis of hyaluronic acid in cultured fibroblasts by increasing the activity of hyaluronate synthetase, a group of plasma membrane-bound synthetic enzymes. We examined whether PGE2 also increased the activity of those enzyme systems involved in the synthesis of sulfated glycosaminoglycan in the human embryonic lung fibroblast. Exposure of cells to PGE2 resulted in dose-dependent increases in glucosamine incorporation into all sulfated glycosaminoglycan subtypes. PGE2 at 10(-7) mol/L increased total glycosaminoglycan per dish to 21.6 +/- 3.1 micrograms versus 12.0 +/- 2.5 micrograms in control untreated cultures. Stimulation of endogenous PGE2 production by bradykinin had a similar effect on glycosaminoglycan synthesis. To examine whether PGE2 affected sulfated glycosaminoglycan protein core production, cells were labeled with tritiated glucosamine in the presence of cycloheximide. Under these conditions, incorporation of radiolabel into all glycosaminoglycan subtypes was reduced. However, when exogenous sulfated glycosaminoglycan chain initiator (p-nitrophenyl beta-D-xyloside) was added, incorporation of tritiated glucosamine into sulfated glycosaminoglycan increased but not to levels found in control cultures. Application of PGE2 to cultures treated with cycloheximide alone, or to cultures treated with cycloheximide plus xyloside, increased tritiated glucosamine incorporation into chondroitin, dermatan sulfate, and to a lesser extent into heparan sulfate. We conclude that PGE2 stimulates synthesis of all sulfated glycosaminoglycan even in the absence of new protein core production, probably by increasing activities of sulfated glycosaminoglycan synthetase enzymes. PGE2 stimulation of heparan sulfate synthesis is partially dependent on the availability of heparan sulfate-specific protein core.
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PMID:Regulation of sulfated glycosaminoglycan production by prostaglandin E2 in cultured lung fibroblasts. 250 90

The epithelial cell may contribute to the regulation of pulmonary function during inflammatory diseases of the airways by producing metabolites of arachidonic acid (AA). We have used human tracheal epithelial cells (HTE), grown in serum-free medium, to examine cyclooxygenase metabolism of endogenous AA by these cells. Gas chromatography-negative ion mass spectrometry demonstrated that, regardless of stimulus (buffer, bradykinin, or the calcium ionophore A23187), epithelial cells produce PGE2 and PGF2 alpha but no detectable levels of PGD2, thromboxane B2, 6-keto-PGF1 alpha, or 9 alpha, 11 beta-PGF2. Preincubation of cultures with medium containing 5% human serum led to striking increases in the production of PGE2 and PGF2 alpha, regardless of stimulus. Concomitant with these increases in prostanoids, serum exposure caused a 3.6-fold increase in total cellular arachidonate. Arachidonate levels increased in all phosphoglyceride classes, with the greatest increases in phosphatidylethanolamine, phosphatidylcholine, and phosphatidylinositol. In serum-pretreated cells, PGE2 production was 1.46 +/- 0.12, 4.74 +/- 0.6, and 6.35 +/- 0.93 ng/10(6) cells (mean +/- SEM; n = 7) upon exposure to buffer, 10(-6) M bradykinin, and 1 micrograms/ml A23187, respectively, whereas PGF2 alpha levels were 1.53 +/- 0.22, 4.44 +/- 0.36, and 5.77 +/- 0.78 ng/10(6) cells, respectively. The response of HTE to bradykinin was dose-dependent (10(-8) to 10(-6) M) and was maximal within 5 min. We conclude that cyclooxygenase metabolism of endogenous arachidonate in HTE results in the specific production of PGE2 and PGF2 alpha. HTE in culture retain receptors for bradykinin and can be used to study lipid metabolism independent of other cell types.
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PMID:Cyclooxygenase metabolism of endogenous arachidonic acid by cultured human tracheal epithelial cells. 250 90

The accumulation of inositol phosphates (IPs) in response to prostaglandins (PGs) was studied in NG108-15 cells preincubated with myo-[3H]inositol. As a positive control, bradykinin caused accumulation of IPs transiently at an early phase (within 1 min) and continuously during a late phase (15-60 min) of incubation in the cells. PGD2 and PGF2 alpha did not significantly cause the accumulation of IPs at an early phase but significantly stimulated inositol bisphosphate (IP2) and inositol monophosphate (IP) formation at late phase of incubation. The maximum stimulation was obtained at greater than 10(-7) M concentrations of these PGs, the levels being three-and twofold for IP2 and IP1, respectively. 9 alpha, 11 beta-PGF2 has a slight effect but PGE2 and the metabolites of PGD2 and PGF2 alpha have no effect up to 10(-6)M. The effects of PGD2 and PGF2 alpha were not additive, but the effect of each PG was additive to that of bradykinin at a late phase of incubation. Inositol 1-monophosphate was mainly identified in the stimulation by 10(-5) M PGD2 and 10(-5) M PGF2 alpha, whereas both inositol 1-monophosphate and inositol 4-monophosphate were produced in the stimulation by 10(5) M bradykinin. Depletion of extracellular Ca2+ diminished the stimulatory effect of PGD2 and PGF2 alpha and late-phase effect of bradykinin, but simple Ca2+ influx into the cells by high K+, ionomycin, or A23187 failed to cause such late-phase effects. These results suggest that PGD2 and PGF2 alpha specifically stimulate hydrolysis of inositol phospholipids.
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PMID:Late-phase accumulation of inositol phosphates stimulated by prostaglandins D2 and F2 alpha in neuroblastoma x glioma hybrid NG108-15 cells. 250 41

The techniques we developed to propagate HTM cells in serial cell culture have provided an opportunity to investigate the spectrum of endogenous PGs and other eicosanoids that are produced by these cells. PGE2 and PGF2 alpha were the major cyclooxygenase products detected by both radioimmunoassay and thin-layer chromatography. A small amount of 6-keto PGF1 alpha was also detected, indicating that these cells are able to produce prostacyclin. The observation of a substantial increase in the proportion of PGF2 alpha relative to PGE2 at later time periods after a media change suggests a metabolic conversion of PGE2 to PGF2 alpha by these cells. Bradykinin, thrombin, platelet activating factor, and serum were found to be effective stimulators of PG production by HTM cells, whereas calcium ionophore produced only a minor effect. Using high pressure liquid chromatography, elution profiles of radiolabeled metabolites of AA suggested the presence of certain lipoxygenase products, including LTB4, 12-HETE, 15-HETE, and a small amount of 5-HETE in HTM cells. The formation of these products was inhibited by both DEX and BW 755c, reinforcing the view that metabolic conversions of AA through the lipoxygenase pathway were possible in the trabecular meshwork. We also examined the effects of glucocorticoids on specific protein synthesis in the HTM cells, using 35S-methionine labeling and SDS-PAGE techniques. Short-term (1 day) DEX treatment revealed a major induction of a protein band at approximately 30 kDa. Longer treatments (1 to 3 weeks) resulted in major inductions at approximately 55 kDa inside the cells, with the presence of secreted forms (probably glycoproteins) between 55 and 72 kDa. The short-term DEX effect on protein synthesis a phospholipase inhibitor regulating eicosanoid production within the HTM. The longer-term induction may, on the other hand, be related more directly to the development of steroid glaucoma, based on our findings that the inductions of these proteins correlate with the observed time course and dose-dependence topical glucocorticoid effects on IOP. Continued in vitro and in vivo evaluations of the eicosanoid pathways in cultured HTM cells obtained from normal and glaucomatous human eyes may help to delineate their relationship to IOP regulation and the pathogenesis and treatment of glaucoma. Glucocorticoid-induced proteins may be key participants in the regulation of phospholipase activity and hence may represent a major control mechanism of the AA cascade.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Eicosanoid production and glucocorticoid regulatory mechanisms in cultured human trabecular meshwork cells. 250 21

The present studies demonstrate that rat aortic endothelial cells, when stimulated with either bradykinin or histamine, caused the release of both PGI2 and PGE2. The method has also been used to characterize the histamine receptor involved which is H1-subtype. The findings suggest that prostanoid production by bradykinin and histamine constitutes an alternative mechanism to endothelium-derived relaxing factor in mediating vasodilatation.
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PMID:Prostanoid production by rat aortic endothelial cells by bradykinin and histamine. 250 21

Arachidonic acid metabolites, prostaglandins (PGs), thromboxanes (TXs), and leukotrienes (LTs), are classified as a type of autacoids. They are not stored in the cells, but stored as a precursor acid, arachidonic acid, in membrane phospholipids. Various physiological stimuli activate phospholipase A2 and release arachidonic acid, which is converted to 1 or 2 products by related enzymes within a few minutes, depending upon individual cell functions. The metabolites are readily inactivated in aqueous solution and in the body. The structures of the various metabolites are quite similar, but their pharmacological actions vary from metabolite to metabolite and some exert opposite actions to those of others. The metabolites play some pivotal roles in physiological or pathophysiological responses such as pain sensation, fever, plasma leakage and skin erythema. Thus, non-steroidal anti-inflammatory drugs, like aspirin, exert their actions through cyclooxygenase inhibition at low doses. PGE2 can be detected in the exudate of acute inflammatory models, and the simultaneous release of PGE2 with bradykinin induces a large increase in plasma leakage and triggers exudate accumulation. LTB4 induces extravasation of PMN leukocytes at the microcirculatory level and is generated in the reperfused area of infarcted cardiac tissue after ligation of rat coronary artery, but in the latter case, the leukocyte migration was not solely induced by LTB4, which was replaced by a complement component (C5a). LTC4 may be involved in ethanol injury of the gastric mucosa and endogenous PGE2 prevents this injury. The real roles of individual arachidonic acid metabolites have been gradually disclosed, but most of the roles are still yet to be clarified.
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PMID:[Pharmacology of prostaglandins; their profile and characterization in the body]. 250 10

Endogenous prostaglandins (PGs) influence resistance of the gastric mucosa to injury, but the source of PGs is unknown. Using radioimmunoassay, we studied PG production by dispersed canine fundic mucosal cells. PGE2 production, stimulated by bradykinin, epidermal growth factor, zymosan, and calcium ionophore, was greater in the small-cell elutriator fraction (SCEF) than in the medium and large cell fractions, which contained mucous, chief, and parietal cells. Linear density gradients of SCEF cells revealed maximal PGE2 production in cells of light density. Mast, endocrine, and endothelial cells did not account for this PGE2 production. Macrophages, identified by uptake of acetylated-LDL, immunoreactivity with antibodies to the human Ia antigen, and phagocytosis of fluorescent latex particles, were enriched in the SCEF and correlated with PGE2 production in the density gradient. Magnetic separation of cells in the SCEF-ingesting iron particles enriched PGE2 production. Fractions enriched in endothelial cells present in intact capillary fragments, but depleted of macrophages, also produced PGE2. Regulation of PGE2 production differed among cell types. Fibroblasts were easily cultured from submucosa, but were not detected in the SCEF. We conclude that macrophages and capillary endothelial cells are major producers of PGE2 in the canine fundic mucosa.
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PMID:Prostaglandin E2 production by dispersed canine fundic mucosal cells. Contribution of macrophages and endothelial cells as major sources. 250 19

Release of cyclooxygenase products from primary cultures of dog or human tracheal epithelium was measured by radioimmunoassay. In both species, bradykinin, platelet-activating factor (PAF), and A23187 (a calcium ionophore) caused increases in the rate of release of prostaglandin (PG) E2 and smaller increases in PGF2 alpha, 6-keto-PGF1 alpha, and thromboxane B2 output. Isoproterenol, vasoactive intestinal peptide (VIP), methacholine, and leukotrienes C4 and D4 had no effect on release of these cyclooxygenase products. Gas chromatography-mass spectrometry showed that the ratio of PGE2 to PGD2 released from dog cells by A23187 was 30:1. Short-circuit current across dog cells was stimulated by bradykinin, A23187, PAF, VIP, methacholine, and isoproterenol. Only the responses to bradykinin and A23187 were reduced by pretreatment with indomethacin.
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PMID:Release of cyclooxygenase products from primary cultures of tracheal epithelia of dog and human. 251 4

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