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 showed previously that glomerular mesangial cells displayed increased fibronectin, laminin, and type IV collagen synthesis and mRNA levels when grown in medium containing 30 mM glucose compared with those cells grown in 10 mM glucose [S. H. Ayo, R. A. Radnik, W. F. Glass II, J. A. Garoni, E. R. Rampt, D. R. Appling, and J. I. Kreisberg. Am. J. Physiol. 260 (Renal Fluid Electrolyte Physiol. 29): F185-F191, 1990]. However, total protein synthesis and actin mRNA were unchanged. In this report, we show that an increase in medium glucose concentration resulted in an increase in diacylglycerol (DAG) mass and transiently increased protein kinase C (PKC) activity as assessed by the translocation of PKC from the soluble to the particulate fraction. Effects of increased glucose on DAG were evident at 30 min and were maintained through 1 wk of growth in medium containing 30 mM glucose. Although total PKC activity (i.e., soluble plus particulate fractions) did not change with high-glucose treatment, the percent activity associated with the particulate fraction (i.e., activated PKC) increased significantly after 60 min in RPMI 1640 medium with 30 mM glucose. The distribution of PKC returned to control values by 24 h. High glucose did not stimulate phosphoinositide hydrolysis, as evidenced by the absence of an increase in the water-soluble inositol phosphates, indicating that DAG was not generated through the action of a phosphoinositide-specific phospholipase C. Cells treated with the cell-permeable DAG analogue 1-oleoyl-2-acetyl glycerol to activate PKC displayed approximately two-fold increases of fibronectin, laminin, and type IV collagen mRNA levels after normalization against actin.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:High glucose increases diacylglycerol mass and activates protein kinase C in mesangial cell cultures. 192 72

The tumor promoter 12-O-tetradecanoylphorbol 13-acetate (TPA) can enhance or inhibit lymphocyte proliferation. Enhancement correlated with increased interleukin 2 (IL-2) production and activation of protein kinase C while inhibition correlated with decreased IL-2 and downregulation of protein kinase C activity (D.S. Grove and A.M. Mastro, Cancer Res. 51, 82-88). In this study, various activators and inhibitors of protein kinase C were used in order to try to separate the effects of TPA on this enzyme from its effects on IL-2 production and determine if protein kinase C activity was directly or indirectly related to IL-2 production. 1,2-Dioctanoylglycerol, 1-oleoyl-2-acetyl-glycerol, phospholipase C, and two "rationally designed" activators, 6-(N-decylamino)-4-hydroxy-methylindole and 3-(N-acetylamino)-5-(N-decyl-N-methylamino)-benzyl alcohol, were tested. Some activators enhanced proliferation in the presence of a Ca2+ ionophore, ionomycin, but not concanavalin A. Some activators suppressed proliferation and downregulated protein kinase C. Others neither downregulated protein kinase C nor inhibited IL-2 production and proliferation. However, inhibition or downregulation of protein kinase C activity always correlated with decreased IL-2 and depressed proliferation. Thus, the evidence in this and the previous study suggests that activation of protein kinase C is directly related to IL-2 production in activated T cells.
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PMID:Differential activation and inhibition of lymphocyte proliferation by modulators of protein kinase C: diacylglycerols, "rationally designed" activators and inhibitors of protein kinase C. 199 92

The tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) stimulates a rapid increase in ornithine decarboxylase (EC 4.1.1.17; ODC) activity in target cells. Here we demonstrate that this process involves a rapid accumulation of ODC mRNA, which is maximal 3 h after treatment (three- to eightfold greater than control cells) and decays to control levels within 18 h. Stimulation of ODC mRNA by TPA is blocked by phorbol dibutyrate down-regulation of protein kinase C (PKC). ODC mRNA was also induced by the PKC activators, phospholipase C and 1-oleoyl-2-acetyl-rac-glycerol, and blocked by kinase inhibitors (trifluoroperazine, H7, and palmitoyl-L-carnitine), consistent with a requirement for PKC activation in the induction mechanism. However, the non-PKC-specific protein kinase inhibitor HA1004 also suppressed expression of ODC mRNA in response to TPA, under conditions where it did not inhibit PKC, suggesting that additional kinases may be involved in the intracellular signalling process. The stability of the ODC mRNA (control value = 6.2 +/- 1.6 h) is not significantly changed by either TPA (5.7 +/- 0.8 h) or by cycloheximide (6.0 h). These results are inconsistent with any contribution from altered mRNA half-life towards the accumulation of ODC mRNA following treatment with phorbol ester tumor promoters.
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PMID:Involvement of protein kinase C in the regulation of ornithine decarboxylase mRNA by phorbol esters in rat hepatoma cells. 201 52

Recent evidence suggests that insulin induces hydrolysis of phosphatidylinositol-glycan (PI-G) and releases inositol-glycan (IG) and diacylglycerol (DAG). These two mediators are speculated to mediate different insulin actions. In this study, we examined metabolic labeling of PI-G in BC3H-1 myocytes with known precursors of PI-G. PI-G was metabolically labeled with [3H]myo-inositol, [3H]glucosamine, [3H]galactose, [3H]glycerol, and [3H]myristic acid. The treatment of 3H-labeled PI-G with phosphatidylinositol-specific phospholipase C liberated [3H]myo-inositol, [3H]glucosamine, or [3H]galactosamine-labeled IgGs, and [3H]glycerol or [3H]myristic acid-labeled DAG. In BC3H-1 myocytes, insulin induced phosphodiesteratic hydrolysis of PI-G and stimulated generation of IGs and DAG. Released IGs were labeled with [3H]myo-inositol, [3H]glucosamine, and [3H]galactose. Released DAG was labeled with [3H] glycerol and [3H]myristic acid. The IG had a dose-dependent insulin-like activity on glucose oxidation and lipogenesis without affecting glucose transport in rat adipocytes. Insulin increased 3H radioactivities of IG and insulin-mimicking activities of IG. These results provided further evidence that hydrolysis of PI-G and generation of IGs and DAG might be early steps in some insulin actions.
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PMID:Insulin stimulates the generation of two putative insulin mediators, inositol-glycan and diacylglycerol in BC3H-1 myocytes. 202 33

When the major polar lipid of purple membrane, a dialkyl analogue of phosphatidyl glycerophosphate, is treated with phospholipase D under the usual assay conditions for this enzyme, the reaction yields dialkylglycerol and glycerol bisphosphate, i.e. the kind of products that would be expected from a phospholipase C reaction. The effect is seen both in native purple membranes and with the pure phospholipid in the form of liposomes. The specific activity and kinetic parameters Km and Vmax of phospholipase D for the purple membrane phospholipid are similar to those for egg phosphatidylcholine. The presence of phospholipase C impurities in the phospholipase D preparations has been ruled out as an explanation for the above observations. A hypothesis is suggested, taking into account the peculiar headgroup structure of the bacterial lipid, to explain the seemingly anomalous enzyme behavior.
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PMID:Release of dialkylglycerol from purple membrane phospholipids by phospholipase D. 210 51

We determined the effect of 17 beta-estradiol (E2) on synthesis and release of luteinizing hormone (LH) induced by drugs which activate intracellular signal transduction mechanisms in rat anterior pituitary cells. Cells were pretreated with E2 (6 x 10(-10) M) or diluent for 24 h, then washed and incubated for 4 h with E2 or diluent, respectively, in the presence or absence of drugs. LH translation and glycosylation were monitored by measuring incorporation of [14C]alanine and [3H]glucosamine, respectively, into total (medium plus cells) immunoprecipitable LH. Immunoreactive LH (IRLH) was measured by radioimmunoassay. Gonadotropin-releasing hormone (GnRH, 1 nM), veratridine (5 microM), L-alpha-1,2-dioctanoyl glycerol (C8, 200 microM), and phospholipase C (PLC, 0.24 U/ml) all increased (p less than 0.01) medium IRLH, [3H]glucosamine-LH, and [14C]alanine-LH, and total [3H]glucosamine-LH in both E2- and diluent-treated cells. Total IRLH or [14C]alanine-LH were not increased by any treatment. E2 alone slightly increased (p less than 0.05) basal medium IRLH and [3H]glucosamine-LH. The stimulatory effects of E2 on basal medium [14C]alanine-LH and total [3H]glucosamine-LH were inconsistent. E2 potentiated (p less than 0.01) the effects of veratridine, C8, PLC, and GnRH on medium IRLH, and medium and total [3H]glucosamine-LH. E2 also potentiated (p less than 0.01) the effects of veratridine, PLC, and GnRH, but not of C8, on medium [14C]alanine-LH. In contrast, E2 did not increase either precursor uptake or incorporation of precursor into total protein in the presence of any secretagogue.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:17-beta-estradiol potentiates luteinizing hormone glycosylation and release induced by veratridine, diacylglycerol, and phospholipase C in rat anterior pituitary cells. 211

Rabbit platelets were labelled with [3H]glycerol and incubated with or without phorbol 12-myristate 13-acetate (PMA). Membranes were then isolated and assayed for phospholipase D (PLD) activity by monitoring [3H]phosphatidylethanol formation in the presence of 300 mM-ethanol. At a [Ca2+free] of 1 microM, PLD activity was detected in control membranes, but was 5.4 +/- 0.8-fold (mean +/- S.E.M.) greater in membranes from PMA-treated platelets. Under the same conditions, 10 microM-guanosine 5'-[gamma-thio]triphosphate (GTP[S]) stimulated PLD by 18 +/- 3-fold in control membranes, whereas PMA treatment and GTP[S] interacted synergistically to increase PLD activity by 62 +/- 12-fold. GTP[S]-stimulated PLD activity was observed in the absence of Ca2+, but was increased by 1 microM-Ca2+ (3.5 +/- 0.2-fold and 1.8 +/- 0.1-fold in membranes from control and PMA-treated platelets respectively). GTP exerted effects almost as great as those of GTP[S], but 20-30-fold higher concentrations were required. Guanosine 5'-[beta-thio]diphosphate inhibited the effects of GTP[S] or GTP, suggesting a role for a GTP-binding protein in activation of PLD. Thrombin (2 units/ml) stimulated the PLD activity of platelet membranes only very weakly and in a GTP-independent manner. The actions of PMA and analogues on PLD activity correlated with their ability to stimulate protein kinase C in intact platelets. Staurosporine, a potent protein kinase inhibitor, had both inhibitory and, at higher concentrations, stimulatory effects on the activation of PLD by PMA. The results suggest that PMA not only stimulates PLD via activation of protein kinase C but can also activate the enzyme by a phosphorylation-independent mechanism in the presence of staurosporine. However, under physiological conditions, full activation of platelet PLD may require the interplay of protein kinase C, increased Ca2+ and a GTP-binding protein, and may occur as a secondary effect of the activation of phospholipase C.
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PMID:Phorbol ester treatment of intact rabbit platelets greatly enhances both the basal and guanosine 5'-[gamma-thio]triphosphate-stimulated phospholipase D activities of isolated platelet membranes. Physiological activation of phospholipase D may be secondary to activation of phospholipase C. 212 96

In various models of hypertension of genetic origin, a hypersensitivity of phospholipase C has been demonstrated to participate in the hyperreactivity of platelets toward a variety of vasoactive agents. Since this abnormality could not be observed in the absence of cell stimulation, it could not account for the increase in free Ca2+ which has been reported in resting platelets in primary hypertension. Likewise, in hypertensive subjects, platelets behave hyperactive when stimulated by ADP, although the stimulus has been demonstrated to be a poor activator of phospholipase C. In order to gain insight into the membrane alteration that could account for the cellular hyperactivity which characterizes hypertensive subjects, we investigated, in resting platelets, the kinetics of radioactive labeling of major membrane phospholipids. Isolated platelets were prepared from SHR (4w and 17w of age), SHR-SP, Dahl salt-resistant and salt-sensitive rats fed either a low or a high salt diet, DOCA-salt hypertensive rats and from the appropriate normotensive controls. Irrespective of the radioactive precursor used (32P-orthophosphate, 3H-glycerol, 3H-choline), the labeling of phosphatidylcholine (PC) was markedly (up to 20 fold) enhanced in SHR (whichever their age) and SHR-SP compared with WKY. This increase, specific of PC, could not be accounted for by differences either in the actual amount of PC or in the uptake of various labels, suggesting an increased PC turnover. Such an increase was also observed in platelets of Dahl hypertensive rats but not in those of DOCA-salt hypertensive rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Membrane abnormalities and cellular hyperreactivity in different models of hypertension]. 212 54

Growth Hormone has recently been shown to stimulate the formation of diacylglycerol in Ob1771 mouse preadipocyte cells without increasing inositol lipid turnover. Addition of growth hormone to Ob1771 cells prelabelled with [3H]glycerol or [3H]choline led to a rapid, transient and stoechiometric formation of labelled diacylglycerol and phosphocholine, respectively. In contrast, no change was observed in the level of choline and phosphatidic acid whereas the release of water-soluble metabolites in [3H]ethanolamine prelabelled cells exposed to growth hormone was hardly detectable. Stimulation by growth hormone of cells prelabelled with (2-palmitoyl 9, 10 [3H])phosphatidylcholine also induced the production of labelled diacyglycerol. Pertussis toxin abolished both diacylglycerol and phosphocholine formation induced by growth hormone. It is concluded that growth hormone mediates diacylglycerol production in Ob1771 cells by means of phosphatidylcholine breakdown involving a phospholipase C which is likely coupled to the growth hormone receptor via a pertussis toxin-sensitive G-protein.
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PMID:Diacylglycerol production induced by growth hormone in Ob1771 preadipocytes arises from phosphatidylcholine breakdown. 212 19

The deacylated forms of the phosphoinositides were used to determine whether the guinea pig uterus phosphoinositide-specific phospholipase C (PI-PLC I, Mr 60,000) required fatty acids at the sn-1 and sn-2 positions for the hydrolysis of the sn-3 phosphodiester bond. L-alpha-Glycerophospho-D-myo-inositol 4-phosphate (Gro-PIP), but not glycerol 3-phosphate (Gro-3-P), L-alpha-glycerophospho-D-myo-inositol (Gro-PI), or L-alpha-glycerophospho-D-myo-inositol 4,5-bisphosphate (Gro-PIP2), inhibited PI-PLC I in a concentration-dependent manner. Assays performed with 10 microM [3H]phosphatidylinositol ([3H]PI), 10 microM [3H]phosphatidylinositol 4-phosphate ([3H]PIP) or 10 microM [3H]phosphatidylinositol 4,5-bisphosphate ([3H]PIP2) as substrates, with increasing [Gro-PIP] revealed an IC50 = 380 microM. Kinetic studies with increasing [3H]PI substrate concentrations in the presence of 100 microM and 300 microM Gro-PIP demonstrated that Gro-PIP exhibited competitive inhibition; Kis = 40 microM. Ca2+ concentrations over the range 1.1 microM to 1 mM did not effect inhibition, suggesting that Gro-PIP inhibition of [3H]PI hydrolysis was calcium-independent. To determine whether Gro-PIP was a substrate, 20 microM and 500 microM [3H]Gro-PIP were incubated with PI-PLC I. Anion-exchange HPLC analysis revealed no [3H]IP2 product formation, indicating that [3H]Gro-PIP was not hydrolyzed. Assays performed with [3H]PI and [3H]PIP substrates in the presence of 500 microM [3H]Gro-PIP revealed approx. 75% less [3H]inositol 1-phosphate ([3H]IP1) and [3H]inositol 1,4-bisphosphate ([3H]IP2) product formation, respectively, indicating that [3H]Gro-PIP inhibited the hydrolysis of the substrates by PI-PLC I. These data suggest that Gro-PIP does not serve as a substrate, and that it inhibits PI-PLC I by competitive inhibition in a Ca2(+)-independent fashion.
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PMID:Glycerol-3-phospho-D-myo-inositol 4-phosphate (Gro-PIP) is an inhibitor of phosphoinositide-specific phospholipase C. 215 9


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