Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.3 (phospholipase C)
 18,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We recently proposed a new pathway by which arachidonate is released from platelet phosphatidyl inositol after stimulation by either thrombin or calcium ionophore A23187. The initial step in arachidonate liberation involves hydrolysis of phosphatidyl inositol to form 1,2-diacyglycerol which is subsequently hydrolyzed by a diacyglycerol lipase to liberate arachidonate for the prostaglandin and lipoxygenase pathways. Whether this pathway is unique to platelets or accounts for arachidonate release from other tissues has not been previously studied. Thus we have now investigated arachidonate metabolism in mouse fibrosarcoma cells (HSDM1C1) grown in culture. These cells contain approximately 7.6% of their total phospholipid as phosphatidyl inositol in the resting state (range 6.5-8.3%). When bradykinin (12 microM) is added to the fibrosarcoma cells, there is a rapid depletion of membrane phosphatidyl inositol reaching 62 +/- 8% S.D. of baseline values by 15 seconds, falling to 36 +/- 6% by 15 minutes. The drop in membrane phosphatidyl inositol is accompanied by release of arachidonate and PGE2 into the culture medium. The time course of phosphatidyl inositol breakdown and PGE2 formation supports the idea that phosphatidyl inositol breakdown provides he arachidonate for prostaglandin synthesis in mouse fibrosarcoma cells. Crude extracts of HSDM1C1 cells contained sufficient phosphatidyl inositol-specific phospholipase C activity and diacylglycerol lipase activity to account for arachidonate release in these cells.
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PMID:Bradykinin-stimulated release of arachidonate from phosphatidyl inositol in mouse fibrosarcoma cells. 741 91

Prostaglandins, released from Kupffer cells, have been shown to mediate the increase in hepatic glycogenolysis by various stimuli such as zymosan, endotoxin, immune complexes, and anaphylotoxin C3a involving prostaglandin (PG) receptors coupled to phospholipase C via a G(0) protein. PGs also decreased glucagon-stimulated glycogenolysis in hepatocytes by a different signal chain involving PGE2 receptors coupled to adenylate cyclase via a Gi protein (EP3 receptors). The source of the prostaglandins for this latter glucagon-antagonistic action is so far unknown. This study provides evidence that Kupffer cells may be one source: in Kupffer cells, maintained in primary culture for 72 hours, glucagon (0.1 to 10 nmol/L) increased PGE2, PGF2 alpha, and PGD2 synthesis rapidly and transiently. Maximal prostaglandin concentrations were reached after 5 minutes. Glucagon (1 nmol/L) elevated the cyclic adenosine monophosphate (cAMP) and inositol triphosphate (InsP3) levels in Kupffer cells about fivefold and twofold, respectively. The increase in glycogen phosphorylase activity elicited by 1 nmol/L glucagon was about twice as large in monocultures of hepatocytes than in cocultures of hepatocytes and Kupffer cells with the same hepatocyte density. Treatment of cocultures with 500 mumol/L acetylsalicylic acid (ASA) to irreversibly inhibit cyclooxygenase (PGH-synthase) 30 minutes before addition of glucagon abolished this difference. These data support the hypothesis that PGs produced by Kupffer cells in response to glucagon might participate in a feedback loop inhibiting glucagon-stimulated glycogenolysis in hepatocytes.
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PMID:Feedback-inhibition of glucagon-stimulated glycogenolysis in hepatocyte/Kupffer cell cocultures by glucagon-elicited prostaglandin production in Kupffer cells. 759 Jun 78

While many observations indicate that prostaglandins may act as positive regulators of hepatocyte proliferation, the underlying mechanisms are not known. We have examined some of the signal pathways in the growth response induced by prostaglandins in hepatocytes, with particular focus on adenylyl cyclase and phosphoinositide-specific phospholipase C. Adult rat hepatocytes were cultured as primary monolayers in serum-free medium in the presence of EGF and insulin. PGE2 or PGF2 alpha (added 0-3 h after plating) enhanced the incorporation of [3H]-thymidine into DNA (measured at 50 h); at 100 microM the stimulation was about threefold PGI2 and PGD2 also showed significant but smaller stimulatory effects. No significant increase in the level of cyclic AMP (cAMP) was detected in response to any of the prostaglandins. Low concentrations of glucagon (0.1-10 nM), a potent activator of hepatic adenylyl cyclase, or 8-bromo-cAMP (0.1-10 microM) enhanced the DNA synthesis. When 8-bromo-cAMP was used in maximally effective concentrations, no further stimulation was obtained by combining it with glucagon, whereas the effects of PGE2 and 8-bromo-cAMP were completely additive. All the prostaglandins also showed additivity with the effect of glucagon on the DNA synthesis. PGE2, PGF2 alpha, PGI2, and PGD2 increased intracellular inositol-1,4,5-trisphosphate (InsP3), with a relative order of efficacy roughly corresponding to their activity as stimulators of DNA synthesis. Increases in cytosolic free Ca2+, as measured in single cells, were elicited in a majority of the hepatocytes by all these prostaglandins at 1 microM. Supramaximal concentrations of vasopressin, a strong activator of phospholipase C in hepatocytes, acted additively with PGE2 on the DNA synthesis. Pretreatment of the hepatocytes with a concentration of pertussis toxin that prevented the inhibitory effect of PGE2 on glucagon-induced cAMP accumulation did not abolish the ability of PGE2 to stimulate the DNA synthesis. The results do not support a role for adenylyl cyclase activation in the stimulatory effect of prostaglandins on hepatocyte growth. While the data are compatible with an involvement of phosphoinositide-specific phospholipase C in the growth-promoting effect of prostaglandins in cultured rat hepatocytes, they suggest this may not be the sole mechanism.
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PMID:On the mechanisms of the growth-promoting effect of prostaglandins in hepatocytes: the relationship between stimulation of DNA synthesis and signaling mediated by adenylyl cyclase and phosphoinositide-specific phospholipase C. 765 56

Naturally occurring and related synthetic isothiocyanates are known to exert chemopreventive effects in several organs in rodent models. The present study was designed to investigate the efficacy of 6-phenylhexyl isothiocyanate (PHITC), a potent chemopreventive agent in the lung tumor model in strain A mice, on azoxymethane-induced colon tumorigenesis. Another aim was to study the modulating effect of PHITC on colonic mucosal and tumor phospholipase A2 (PLA2), phosphatidylinositol-specific phospholipase C (PI-PLC), lipoxygenase (LOX), and cyclooxygenase (COX) activities. At 5 weeks of age, groups of male F344 rats were fed control diet or diets containing 320 or 640 ppm of PHITC representing 40 and 80% maximum tolerated dose levels, respectively. At 7 weeks of age, all animals except those in the vehicle-treated groups were given two weekly s.c. injections of azoxymethane at a dose rate of 15 mg/kg body weight/week. All animals continued on their respective dietary regimen for 52 weeks after the carcinogen treatment; then the study was terminated. Colonic mucosa and tumors were analyzed for PLA2, PI-PLC, prostaglandin (PG) E2, COX, and LOX activities. Intestinal tumors were evaluated histopathologically and classified as invasive or noninvasive adenocarcinomas. Intestinal tumor incidence (percentage of animals with tumors) and tumor multiplicity (tumors/animal; tumors/tumor-bearing animal) were compared among the dietary groups. At the 640-ppm dose level, dietary PHITC significantly increased the incidence of intestinal (small intestine plus colon) adenocarcinomas (P < 0.05) as well as the multiplicities of invasive and noninvasive adenocarcinomas of the colon (P < 0.05 to 0.01). At the 320-ppm dose level, PHITC increased the multiplicity (tumors/animal) of noninvasive adenocarcinomas and total (invasive plus noninvasive) adenocarcinomas of the colon (P < 0.05). Dietary PHITC also increased the colon tumor volume (2- to 4.3-fold) in a dose-dependent manner. Moreover, PHITC significantly enhanced the activities of PLA2 (50-100%) and levels of PGE2 (2-fold) in the colonic mucosa and in tumors, but it had no significant effect (P > 0.05) on PI-PLC activity. The formation of COX metabolites, particularly PGE2, PGF2 alpha, PGD2, 6-keto PGF1 alpha, and thromboxane B2, as well as LOX metabolites such as 8(S)-, 12(S)- and 15 (S)-hydroxyeicosatetraenoic acids, were significantly increased in the colonic mucosa and tumors of animals that were fed 640 ppm of PHITC. Although the exact mechanism by which PHITC promotes colon tumorigenesis remains to be elucidated, it is likely that the tumor-promoting effects of PHITC may, at least in part, be related to increased eicosanoid metabolism in the colon.
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PMID:Enhancement of experimental colon carcinogenesis by dietary 6-phenylhexyl isothiocyanate. 767 Dec 41

We examined the signal transduction of mouse prostaglandin E receptor EP1 subtype using Chinese hamster ovary cells stably expressing the cloned EP1. Sulprostone, an EP1 agonist, induced a rapid increase in intracellular Ca2+ concentration in the EP1-expressing cells. Most of the increase was abolished by removal of extracellular Ca2+, and was insensitive to U-73122, a phospholipase C inhibitor. Sulprostone stimulated phosphatidylinositol hydrolysis, but this stimulation was abolished by removal of extracellular Ca2+, indicating that EP1-stimulated phosphatidylinositol hydrolysis is the result of extracellular Ca2+ influx. Thus, the signal transduction of EP1 is extracellular Ca2+ entry through a pathway independent of phospholipase C activation. We further examined the regulation of the signal transduction of EP1 having potential phosphorylation sites for either protein kinase C or protein kinase A. Short-term exposure of the cells to 12-O-tetradecanoylphorbol 13-acetate (TPA) completely suppressed the sulprostone-induced increase in intracellular Ca2+ concentration, while forskolin or dibutyryl cAMP did not affect it, suggesting that protein kinase C but not protein kinase A is involved in the regulation of the EP1 signal transduction. Furthermore, long-term exposure to TPA decreased PGE2 protein kinase A is involved in the regulation of the EP1 signal transduction. Furthermore, long-term exposure to TPA decreased PGE2 binding activity of EP1 due to the reduction of the EP1 mRNA level. Protein kinase C induces short- and long-term desensitization of EP1.
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PMID:Characterization of the signal transduction of prostaglandin E receptor EP1 subtype in cDNA-transfected Chinese hamster ovary cells. 776 67

We recently cloned the mouse prostaglandin (PG) E receptor EP3 subtype that is coupled to adenylate cyclase inhibition through Gi and identified three isoforms which are produced through alternative splicing. In Chinese hamster ovary cells expressing each EP3 isoform, PGE2 induced an immediate increase in the intracellular Ca2+ concentration ([Ca2+]i) due to both Ca2+ mobilization from internal stores and influx from the extracellular medium. This increase was abolished by prior treatment with pertussis toxin (PT). PGE2 also stimulated an accumulation of inositol trisphosphate (IP3) in a PT-sensitive manner. Both the PGE2-induced increase in [Ca2+]i and accumulation of IP3 were blocked by the phospholipase C inhibitor U-73122. Thus, EP3 is linked to phospholipase C activation via Gi, and this activation leads to Ca2+ mobilization from internal stores and influx from the extracellular medium.
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PMID:Mouse prostaglandin E receptor EP3 subtype mediates calcium signals via Gi in cDNA-transfected Chinese hamster ovary cells. 794 76

It is well known that osteoporosis is a common complication of patients with glucocorticoid excess. We showed previously that prostaglandin (PG) F2 alpha stimulates the synthesis of PGE2, a potent bone resorbing agent, and that the activation of protein kinase C amplifies the PGF2 alpha-induced PGE2 synthesis through the potentiation of phospholipase A2 activity in osteoblast-like MC3T3-E1 cells. In the present study, we examined the effect of dexamethasone on PGE2 synthesis induced by PGF2 alpha in MC3T3-E1 cells. The pretreatment with dexamethasone significantly inhibited the PGE2 synthesis in a dose-dependent manner in the range between 0.1 and 10 nmol/l in these cells. This effect of dexamethasone was dependent on the time of pretreatment up to 8 h. Dexamethasone also inhibited PGE2 synthesis induced by melittin, known as a phospholipase A2 activator. Furthermore, dexamethasone significantly inhibited the enhancement of PGF2 alpha- or melittin-induced PGE2 synthesis by 12-O-tetradecanoylphorbol-13-acetate, known as a protein kinase C activator. In addition, dexamethasone significantly inhibited PGF2 alpha-induced formation of inositol phosphates in a dose-dependent manner between 0.1 and 10 nmol/l in MC3T3-E1 cells. These results strongly suggest that glucocorticoid inhibits PGF2 alpha-induced PGE2 synthesis through the inhibition of phosphoinositide hydrolysis by phospholipase C as well as phospholipase A2 in osteoblast-like cells.
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PMID:Effect of glucocorticoid on prostaglandin F2 alpha-induced prostaglandin E2 synthesis in osteoblast-like cells: inhibition of phosphoinositide hydrolysis by phospholipase C as well as phospholipase A2. 795 62

We have cloned the FP receptor from rat corpus luteum and human uterus cDNA libraries, respectively. The coding DNA sequence in the rat cDNA is 1101 bp and is similar to the mouse cDNA coding for a receptor protein of 366 amino acids. The human sequence shows a 5 bp deficiency in the 3' region, truncating the coding sequence to 359 amino acids. Northern blot analysis indicates highest expression in the ovary. Cell lines have been established giving stable expression of the FP receptor. Activation of the cloned FP receptor gave an increase in intracellular calcium, indicating signaling via phospholipase C-mediated phosphoinositide turnover. Using [3H]PGF2 alpha, binding of PGs showed the rank order of fluprostenol > PhXA70 > PGF2 alpha > or = PhXA85 > PGD2 > PGE2.
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PMID:Cloning of the rat and human prostaglandin F2 alpha receptors and the expression of the rat prostaglandin F2 alpha receptor. 798 97

New bone formation is associated with an increase in blood flow by the invasion of capillaries. Endothelial cells that line the capillaries can produce paracrine factors that affect bone growth and development, and in turn, could be affected by products produced by bone cells, in particular the osteoblasts. Since osteoblasts produce prostaglandins E2 and F2 alpha (PGE2, PGF2 alpha), it was investigated if these PGs were agonists to bone-derived endothelial cells (BBE) by assessing changes in cAMP and free cytosolic calcium concentration ([Ca2+]i) second messenger generation. We found that confluent cultures of BBE cells, a clonal endothelial cell line derived from bovine sternal bone, responded to 1 microM PGE2 by an increase in cAMP. PGF2 alpha at the same concentration was less potent in stimulating an increase in cAMP production in confluent BBE cells. Subconfluent cells with a morphology similar to that of fibroblastic cells were not as sensitive to PGE2-stimulated cAMP generation. PGF2 alpha failed to elicit any cAMP production in subconfluent cultures. PGE2 and PGF2 alpha both stimulated an increase in [Ca2+]i concentration in a dose-dependent manner. The potency of PGE2 was similar to that of PGF2 alpha in stimulating an increase in [Ca2+]i. The Ca2+ response was mostly independent of extracellular Ca+, was unchanged even with prior indomethacin treatment, was unaffected by caffeine pretreatment, but was abolished subsequent to thapsigargin pretreatment. The PG-induced increase in [Ca2+]i was also dependent on the confluency of the cells. In a subconfluent state, the responses to PGE2, or PGF2 alpha were either negligible, or only small increases in [Ca2+]i were noted with high concentrations of these two PGs. Consistent, dose-dependent increases in [Ca2+]i were stimulated by these PGs only when the cells were confluent and had a cobblestoned appearance. Since it was previously demonstrated that BBE cells respond to parathyroid hormone (PTH) by the production of cAMP, we tested if bovine PTH(1-34) amide ]bPTH(1-34) also increased [Ca2+]i in these cells. No change in [Ca2+]i was found in response to bPTH (1-34), although bPTH (1-34) stimulated a nine to tenfold increase in cAMP. We conclude that BBE cells respond to PGE2 and PGF2 alpha but not to bPTH(1-34) by an increase in [Ca2+]i probably secondary to stimulation of phospholipase C and that the cAMP and [Ca2+]i second messenger responses in BBE cells are dependent on the state of confluency of the cells.
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PMID:Prostaglandin-stimulated second messenger signaling in bone-derived endothelial cells is dependent on confluency in culture. 807 96

The proinflammatory cytokine IL-1 was shown to increase the responsiveness of synovial cells to the potent inflammatory peptide bradykinin (BK). We have investigated the biochemical events linked to this amplifying action of IL-1. Stimulation of synoviocytes with only BK elicited a rapid increase in inositol phosphates and a concomitant accumulation of diacylglycerol (DAG), monoacylglycerol, and free arachidonic acid (AA). In contrast, IL-1 did not stimulate any of these events. Thus, BK can induce AA release via the hydrolysis of phosphatidylinositols by a phospholipase C (PLC). BK also activated a phospholipase D (PLD) to cleave phosphatidylcholine (PC), because it caused an increase in phosphatidic acid (PA) content and a sustained DAG formation, which both were inhibited by ethanol in [3H]myristic acid-labeled cells. Moreover, the addition of ethanol diverted PLD into the formation of phosphatidylethanol (PEt) thus inhibiting the amounts of PA and DAG formed. Priming of synovial cells with rIL-1 beta 24 h before exposure to BK in the presence of ethanol further enhanced the BK-induced formation of PEt. Conversely, preincubation with IL-1 did not influence the BK-induced PLC activation nor did it alter the liberation of AA. Finally, we demonstrated that the IL-1-mediated amplification of PGE2 release in response to BK was reduced by the presence of ethanol in the culture medium, suggesting that part of the synergistic action of IL-1 and BK on prostanoid production was dependent on the activation of the PC-specific PLD pathway.
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PMID:IL-1 beta amplifies bradykinin-induced prostaglandin E2 production via a phospholipase D-linked mechanism. 817 21


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