EC:3.1.4.3 - FACTA Search

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)

The cellular mechanism(s) by which GH produces insulin resistance in peripheral tissues is poorly understood. Recent evidence suggests that insulin exerts certain of its intracellular actions by rapidly activating phosphatidylinositol-specific phospholipase C(s) (PI-PLC) in the plasma membranes of target cells. Therefore, the present study was conducted to determine whether insulin can activate PI-PLC in adipose tissue of the genetically obese (ob/ob) mouse, an animal that responds markedly to GH with enhanced peripheral insulin resistance. Also, experiments were performed to determine whether the activation of PI-PLC by insulin could be blocked by S-carboxymethylated human GH (RCM-hGH), a GH derivative possessing mainly diabetogenic activity. Isolated adipose segments were incubated for various periods with insulin (10 mU/ml), homogenized and centrifuged to obtain a 150,000 x g pellet, and the latter was assayed for the ability to produce [3H]inositol phosphate from phosphatidyl[3H]inositol. PI-PLC activity was significantly stimulated 5 min after exposure of the segments to insulin. By 10 min, the insulin effect was no longer apparent, and after 30 min, insulin reduced the activity of the enzyme. One hour after exposure to insulin, PI-PLC activity returned to the control level. When adipose segments of RCM-hGH-treated mice (200 micrograms/day for 3 days sc) were incubated for 5 min with insulin, the ability of insulin to activate PI-PLC was abolished. However, RCM-hGH did not alter basal PI-PLC, indicating that its action involves the mechanism by which the enzyme is activated by insulin. Also, studies utilizing acute RCM-hGH treatment showed that its inhibitory effect on insulin activation of PI-PLC occurs within the same time frame as the onset of enhanced insulin resistance in the adipose tissue. Thus, the ability of GH to inhibit the activation of PI-PLC by insulin in adipocytes may account, at least in part, for its ability to induce insulin resistance in these cells.
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PMID:Growth hormone inhibits activation of phosphatidylinositol phospholipase C by insulin in ob/ob mouse adipose tissue. 240 23

Effects of extracellularly applied ATP (added as disodium salt) on stimulus-secretion coupling were investigated in clonal insulin-producing RINm5F cells. Cytoplasmic free Ca2+ concentration [( Ca2+]i), electrical activity, membrane potential, formation of InsP3 and insulin release were measured. Addition of ATP in a Ca2(+)-containing medium promoted a rapid rise in [Ca2+]i, which was followed by a slow decline towards the basal level. In a Ca2(+)-free medium, the ATP-induced increase in [Ca2+]i was smaller, but still enough to elicit insulin secretion. Upon normalization of the extracellular Ca2+ concentration, the response to ATP recovered instantaneously. The presence of glucose in the incubation medium was a prerequisite to obtain a pronounced effect of ATP in the absence of extracellular Ca2+. However, glucose did not enhance the response to ATP in a Ca2(+)-containing medium. The effect of ATP was dose-dependent, with a clearly detectable increase in [Ca2+]i at 1 microM and a maximal response being obtained at 200 microM-ATP. The response to ATP was unaffected by activating adenylate cyclase by forskolin, but was abolished by 10 nM of the phorbol ester phorbol 12-myristate 13-acetate. The effects of ATP on [Ca2+]i could not be accounted for by a generalized increase in plasma-membrane permeability, as evident from the failure of the nucleotide to increase the fluorescence of the nuclear stain ethidium bromide. After stimulation with ATP there was an increase in membrane potential, in both the absence and the presence of extracellular Ca2+. Blockage of the voltage-activated Ca2+ channals with D-600, in a Ca2(+)-containing medium, decreased the effect of ATP on [Ca2+]i slightly. Patch-clamp measurements using the cell-attached patch configuration revealed that the RINm5F cells produce spontaneous action potentials, the frequency of which increased markedly on addition of ATP. Whole-cell recordings demonstrated that the increase in spike frequency was not associated with the development of an inward current, but was rather accountable for by a decrease in the activity of the ATP-regulated K+ channels. Addition of 200 microM-ATP stimulated phospholipase C activity, as evident from the formation of InsP3, both in the absence and in the presence of extracellular Ca2+. Thus in the absence of extracellular Ca2+ the stimulatory effect of ATP on insulin release can be explained by InsP3-induced mobilization of intracellularly bound Ca2+. Hence, in the RINm5F cells extracellular ATP acts in a manner similar to other Ca2(+)-mobilizing agents.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Extracellular ATP increases cytoplasmic free Ca2+ concentration in clonal insulin-producing RINm5F cells. A mechanism involving direct interaction with both release and refilling of the inositol 1,4,5-trisphosphate-sensitive Ca2+ pool. 240 36

Dantrolene is felt to inhibit the release of Ca2+ from vesicular stores but only in response to certain stimuli; the mechanism responsible for its effects is unclear. Since our recent studies implicated arachidonic acid and other polyunsaturated fatty acids in Ca2+ mobilization and insulin release from pancreatic islets, we have now examined the effect of dantrolene on fatty acid-induced 45Ca2+ efflux and insulin release. Dantrolene inhibited insulin secretion induced by exogenous unsaturated fatty acids as well as that caused by endogenous fatty acids (generated via the exogenous provision of pancreatic phospholipase A2, or by p-hydroxymercuribenzoic acid, which prevents the reacylation of free fatty acids). In contrast, the effects of 50 mM K+, 2 mM BaCl2, 1 mM isobutylmethylxanthine or lysophosphatidylcholine were not impaired, suggesting that dantrolene does not inhibit nonspecifically the influx, mobilization or cellular effects of Ca2+, or poison exocytosis in general. However, dantrolene did reduce insulin secretion triggered by 12-O-tetradecanoylphorbol-13-acetate, mezerein or exogenous phospholipase C, all of which can activate protein kinase C; this inhibition was not accompanied by alterations in 45Ca2+ efflux. Furthermore, the 45Ca2+ efflux induced by phospholipase A2 or p-hydroxymercuribenzoic acid was not reduced by dantrolene. We conclude that the insulin secretion stimulated by unsaturated fatty acids involves two effects (one on Ca2+ fluxes, and one independent of Ca2+ mobilization). Dantrolene, in turn, may selectively probe such fatty acid-dependent insulin release; its inhibitory effect is predominantly, if not totally, independent of effects on Ca2+ fluxes, and may involve the inhibition of the effects of protein kinase C on exocytosis.
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PMID:Dantrolene-induced inhibition of insulin release. A mechanism independent of effects on calcium fluxes. 245 11

Mitogenic effects of agents activating either the protein kinase C (PDGF; phorbol esters) or the insulin-like growth factor 1 (IGF1)-receptor pathway were studied in quiescent chemically transformed mouse fibroblasts (BP-A31), by evaluating the rate of [3H]thymidine incorporation. Each of these pathways alone was found to be sufficient to sustain progression through the entire cell division cycle. The mitogenic activity of phorbol 12-myristate 13-acetate (PMA) but not that of insulin was blocked by staurosporine (an inhibitor of protein kinase C), in support of the notion that protein kinase C activation was required for the PMA-induced cell cycle progression. The mitogenic effects of PMA were potentiated by cycloheximide pretreatment, and they were abolished by 3-isobutyl-1-methyl xanthine (IBMX; a cyclic nucleotide phosphodiesterase inhibitor). PDGF (known to activate the phospholipase C-protein kinase C pathway) also displayed mitogenic activity in the cycloheximide-pretreated BP-A31 cells, and its effects were prevented by IBMX. In contrast, the mitogenic effects of insulin (at concentrations where it activates the IGF1 receptor) or of IGF1 neither were notably influenced by cycloheximide pretreatment nor were inhibited by IBMX (in the presence of IBMX, the onset of S-phase was delayed by several hours). The expression of the c-fos gene was absent at quiescence; its induction by growth factors was not proportional to their mitogenic potency. Thus, c-fos expression was strongly induced by PMA but only weakly by insulin. IBMX was a powerful inducer of c-fos gene expression but caused a decrease in the level of c-myc mRNA.
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PMID:Mitogenic activity of phorbol esters and insulin-like growth factor 1 in chemically transformed mouse fibroblasts BP-A31: independent effects and differential sensitivity to inhibition by 3-isobutyl-1-methyl xanthine. 246 95

The B subunit of cholera toxin, a protein which binds specifically to ganglioside GM1 on the cell surface, stimulates DNA synthesis in quiescent Swiss 3T3 fibroblasts as measured by an increase in [3H]thymidine incorporation. Pertussis toxin pretreatment markedly inhibits B subunit-induced DNA synthesis. The inhibitory effects of pertussis toxin were observed even in the presence of insulin which greatly potentiates the mitogenic response to the B subunit. Treatment with either pertussis toxin or insulin did not alter the binding of the B subunit to the cells. The dose-response for pertussis toxin-induced inhibition of DNA synthesis correlated closely with the dose-response for ADP-ribosylation of a 41-kDa membrane protein, suggesting the involvement of a GTP-binding protein that is a substrate for pertussis toxin (Gi) in mitogenesis induced via cross-linking of endogenous gangliosides. Pertussis toxin, in a similar concentration-dependent manner, also inhibited the mitogenic response to unfractionated fetal calf serum and to bombesin in the absence or presence of insulin. The inhibitory effect of pertussis toxin was clearly unrelated to any effects on known G proteins coupled to adenylate cyclase or phospholipase C. In addition, pertussis toxin did not impair the early increase in cytosolic free Ca2+ induced by the B subunit or bombesin. Pertussis toxin-induced inhibition of DNA synthesis could still be observed even when the toxin was added as late as 6 h after addition of the growth-promoting agents. This suggests the involvement of a GTP-binding protein in a late step of the B subunit- and bombesin-mediated pathways of mitogenesis. The possibility that other growth factors bypass this pathway is shown by their lack of sensitivity to pertussis toxin.
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PMID:Possible involvement of a GTP-binding protein in a late event during endogenous ganglioside-modulated cellular proliferation. 249 20

Interaction of specific ligands with TCR initiates a cascade of biochemical events which leads to expression of high affinity IL-2R and subsequent IL-2 secretion. Activation of phospholipase C (PL-C) is considered to be a key event in the initiation of this cascade. However, in addition to this PL-C-dependent pathway, PL-C-independent pathways have been hypothesized. Identification of the steps constituting these PL-C-independent pathways has been difficult because activation of PL-C and the subsequent cascade of events mask the effects of such pathways. Specific inhibitors for PL-C, or mutants defective in, the PL-C pathway would facilitate delineation of alternative activation pathways. We have identified a murine pork insulin/IAd-specific T cell hybridoma, B8P3.11, in which perturbation of the B8P3.11 TCR by either Ag in association with Ia, anti-CD3 antibodies, or a mitogenic lectin does not induce increases in myo-inositol 1,4,5-triphosphate production or cytosolic free calcium, yet it does lead to IL-2 secretion. Treatment of B8P3.11 with pertussis toxin, at concentrations which ADP-ribosylate GTP-binding proteins, inhibits IL-2 secretion. Thus, signal transduction resulting in IL-2 secretion by B8P3.11 likely involves a G protein. In contrast, TCR/ligand interaction activates the PL-C-dependent pathway in LBRM 331A5, a T cell lymphoma. Furthermore, pertussis toxin treatment, which blocks IL-2 secretion by B8P3.11, does not alter IL-2 secretion by LBRM 331A5. However, similar pertussis toxin substrates are present in both cells. Therefore, B8P3.11 T cells should help to elucidate PL-C-independent activation pathways.
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PMID:IL-2 secretion is pertussis toxin sensitive in a T lymphocyte hybridoma. 252 28

Glycosyl-phosphatidylinositol (GPI) anchored proteins are surveyed in two insulin sensitive cell types by surface labeling and phospholipase C-induced release into the medium. Serum starvation selectively increases both the number and intensity of a subset of GPI-anchored proteins. After serum starvation, loss of cell-surface GPI-anchored proteins is induced acutely by either serum re-exposure or insulin, suggesting that hormonal treatment may promote the release of these proteins from the cell surface.
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PMID:The distribution of glycosyl-phosphatidylinositol anchored proteins is differentially regulated by serum and insulin. 253 Sep 80

Treatment of PC-12 pheochromocytoma cells with nerve growth factor (NGF) results in the differentiation of these cells into a sympathetic neuron-like phenotype. Although the initial intracellular signals elicited by NGF remain unknown, some of the cellular effects of NGF are similar to those of other growth factors, such as insulin. We have investigated the involvement of a newly identified inositol-containing glycolipid in signal transduction for the actions of NGF. NGF stimulates the rapid generation of a species of diacylglycerol that is labeled with [3H]myristate but not with [3H]arachidonate. NGF stimulates [3H]myristate- or [32P]phosphate-labeled phosphatidic acid production over the same time course. Although NGF alone has no effect on the turnover of inositol phospholipids, it does stimulate the hydrolysis of glycosylphosphatidylinositol. The NGF-dependent cleavage of this lipid is accompanied by an increase in the accumulation of its polar head group, an inositol phosphate glycan, which is generated within 30-60 sec of NGF treatment. In an unresponsive PC-12 mutant cell line, neither the diacylglycerol nor inositol phosphate glycan response is detected. A possible role for the NGF-stimulated diacylglycerol is suggested by the inhibition of NGF-dependent c-fos induction by staurosporin, a potent inhibitor of protein kinase C. These results suggest that, like insulin, some of the cellular effects of NGF may be mediated by the phospholipase C-catalyzed hydrolysis of glycosylphosphatidylinositol.
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PMID:Nerve growth factor stimulates the hydrolysis of glycosylphosphatidylinositol in PC-12 cells: a mechanism of protein kinase C regulation. 253 12

We have characterized a plasma membrane phosphatidylinositol 4,5-bisphosphate (PIP2)-specific phospholipase C (PLC) and a cytosolic phosphatidylinositol (PI)-specific PLC in human liver. Epinephrine, 1 x 10(-5) M, and vasopressin, 1 x 10(-8) M, stimulated PIP2-PLC which was enhanced by guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S). PI-PLC stimulation was not observed by these agents. Insulin and insulin-like growth factors (IGF-I and IGF-II) in the presence and absence of GTP gamma S did not stimulate PIP2-PLC or PI-PLC in plasma membranes and cytosol preparations nor phosphoinositide breakdown in isolated human hepatocytes. Furthermore, serendipitly we found that PIP2-PLC activity was increased in liver membranes from obese patients with type II diabetes when compared to obese and lean controls. We conclude that in human liver, insulin and IGFs are not members of the family of hormones generating inositol trisphosphate (IP3) as a second messenger. Furthermore, the increased PIP2-PLC in diabetic liver may result in: (a) increased intracellular concentrations of IP3 and thus increased Ca2+, which has been postulated to induce insulin resistance; and (b) increased diacylglycerol and thus increased protein kinase C which phosphorylates the insulin receptor at serine residues inactivating the insulin receptor kinase. While the mechanism of increased PIP2-PLC activity in diabetes is unknown, it may initiate a cascade of events that result in insulin resistance.
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PMID:Effect of insulin and insulin-like growth factors I and II on phosphatidylinositol and phosphatidylinositol 4,5-bisphosphate breakdown in liver from humans with and without type II diabetes. 254 Jan 78

The effect of phosphatidylinositol-specific phospholipase C (PI-PLC) on the release of lipoprotein lipase was studied in F1 heart cell cultures. Exposure of the cultures for 10 min to PI-PLC resulted in a 2-fold increase in the release of lipoprotein lipase (LPL) into the culture medium. PI-PLC released LPL from the heparin-releasable pool and PI-PLC was not effective in cultures pretreated with heparin. Insulin had no influence on the release of LPL from the heart cell cultures, even though it enhanced the uptake of 2-deoxy[3H]glucose by these cells. In cultures labeled with 35S, treatment with PI-PLC resulted in an increase in the release of 35S-labeled proteoglycan. PI-PLC was also effective in enhancing the release of bovine LPL exogenously bound to cultured aortic smooth muscle cells. The findings that PI-PLC was not effective after heparin, that it did release exogenously added LPL to cell cultures and that it released 35S-labeled proteoglycan, were interpreted to indicate that PI-PLC apparently acts on the release of LPL in an indirect manner, releasing heparan sulphate to which LPL is bound. As there is a previously described correlation between circulating LPL and the heparin-releasable LPL, we hypothesize that the activity of PI-PLC in the endothelial cell membrane or plasma phosphatidyl-specific phospholipase D regulates the plasma LPL levels.
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PMID:Phosphatidylinositol-specific phospholipase C releases lipoprotein lipase from the heparin releasable pool in rat heart cell cultures. 255 75

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