EC:3.1.4.3 - FACTA Search

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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 role of the surrounding membrane structure on the binding characteristics of the insulin receptor was studied by using several digestive enzymes. The effects observed with particulate membrane preparations are compared with those from soluble receptor preparations. beta-Galactosidase and neuraminidase had no effect on insulin binding to either particulate or soluble receptors from human placentae. Exposure to 2 units of phospholipase C/ml increased insulin binding to particulate membranes, but was without effect on the soluble receptor preparation. The increase in binding to particulate membranes was shown to be due to an increase in apparent receptor number. After 5 min exposure to 500 microgram of trypsin/ml there was an increase in insulin binding to the particulate membrane fraction, owing to an increase in receptor affinity. After 15 min exposure to this amount of trypsin, binding decreased, owing to a progressive decrease in receptor availability. In contrast, this concentration of trypsin had no effect on the solubilized receptor preparation. Because of the differential effects of phospholipase C and trypsin on the particulate compared with the solubilized receptor preparations, it is concluded that the effects of these enzymes were due to an effect on the surrounding membrane structure. Changes in receptor configuration due to alterations within the adjoining membrane provide a potential mechanism for mediating short-term alterations in receptor function.
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PMID:The effects of digestive enzymes on characteristics of placental insulin receptor. Comparison of particulate and soluble receptor preparations. 10 Jan 6

Possible interactions between polymerized (F-) actin and insulin-storage granules from rat islets of Langerhans were examined in vitro by comparing the sedimentation of the granules in the presence of various actin concentrations. Actin in the concentration range 0.1--0.5 mg/ml produced a retardation in granule-sedimentation rates consistent with binding of the granules to the actin filaments. The interaction was increased by addition of ATP (2mM), but was decreased by CaCl2 (0.1 mM). Binding of granules to actin was unaffected by cyclic AMP or by preincubation of the granules with phospholipase C. Specificity of the interaction was confirmed by the use of depolymerized (G-) actin and of myosin to provide a solution of comparable viscosity; neither of these caused any alteration of granule sedimentation. Possible implications of this interaction of insulin-storage granules with actin for the mechanism of insulin secretion are briefly discussed.
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PMID:Interaction between insulin-storage granules and F-actin in vitro. 22 Sep 62

Insulin, a mitogen for cultured chick embryo fibroblasts (Temin, H.M. (1968) Cancer 3, 771-787), has been employed to characterize the effects of mitogen/cell membrane interactions as it relates to growth. The specific binding of 125I-insulin to substratum-attached cells is time- and temperature dependent and is optimum at a pH of 7.0. Fetal calf and chicken sera, somatomedin "A/C mixed," and desalanine or native porcine insulin compete with 125I-insulin for membrane-binding sites. Proinsulin, although competing less effectively than native insulin for binding, is more effective than desoctapeptide insulin. Unrelated polypeptide hormones do not compete for 125I-insulin binding. The lowest concentration of insulin at which specific binding is detected is 0.1 nM. Scatchard plot analysis of the binding data indicates that there are two types of binding sites in confluent cultures of fibroblasts: one of high affinity (K1 = 2 to 6 X 10(8) M-1) and low capacity, the other of low affinity (K2 = 0.8 to 3.0 X 10(7) M-1) and high capacity. Approximately 1.9 and 7.1 X 10(3) molecules of insulin are bound at each site, respectively. A 10-min incubation at 24 degrees of the fibroblasts with 10 mug/ml of trypsin causes a 2-fold stimulation of specific 125I-insulin binding and a similar 2-fold increase in insulin-stimulated 2-deoxy-D-glucose uptake and thymidine incorporation. Neuraminidase treatment also produces a 37% increase in specific 125I-insulin binding but treatment with alpha-chymotrypsin or phospholipase C are without significant effect. The results of this and additional experiments support the hypothesis that trypsin treatment of chick embryo fibroblasts leads to an unmasking of 125I-insulin binding sites. Serum starvation of fibroblasts for 12 or 24 h produces a 2.5- to 5-fold increase in specific 125I-insulin binding. This increase is the result of an increase in the number of hormone-binding sites from 9 X 10(3) to 6 X 10(4) per cell which are predominantly of the low affinity type. There is no change in the affinity constants. The presence of camptothecin, or cordycepin, or cycloheximide in the incubation medium completely blocks the increase in number of 125I-insulin-binding sites resulting from serum starvation. The addition of native insulin to the medium of serum-starved cultures also blocks this increase. The magnitude of insulin-stimulated 2-deoxy-D-glucose uptake and thymidine incorporation correlates with the levels of occupancy of the low affinity 125I-insulin-binding sites in untreated fibroblasts. In fibroblasts cultured in the absence of serum, the marked increase in insulin-stimulated 2-deoxy-D-glucose uptake and thymidine incorporation parallels the increase in number of mitogen receptors. The concentration of insulin that produces a half-maximum stimulation of thymidine incorporation is calculated to be 5 X 10(-8) M. At this concentration of insulin, 42% of the receptor sites are occupied.
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PMID:Mitogen receptors in chick embryo fibroblasts. Kinetics, specificity, unmasking, and synthesis of 125I-insulin binding sites. 98 22

The effect of fat feeding on adipocyte insulin binding was examined to expand a study of adaptive changes in plasma membrane functions. Cells from rats fed a high fat (L) diet for five to seven days bound less insulin and showed a decreased response to insulin (glucose oxidation) compared to those from rats fed a high glucose (G) diet. Both high and low affinity sites were influenced; the extent of the binding difference increased as increasing concentrations of insulin were present in the assay medium. Diet did not change hormone degradation on the capacity of phospholipase C to increase binding. Concanavalin A effects on fat cells were also decreased by L diet both in inhibition of insulin binding and its insulin-like effect on glucose oxidation. Spermine, which had no effect on insulin binding, also had a smaller insulin-like effect on glucose oxidation by L cells than by G cells. Serum insulin was significantly lower (30 +/- 3.7 muU/ml) in L than in G (43 +/- 3.1 muU/ml) groups. Dietary fat produces alterations in fat cells that decrease insulin binding as a part of a complex overall adaptation to the diet.
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PMID:Insulin binding and insulin response of adipocytes from rats adapted to fat feeding. 99 70

Orthovanadate is an agent known to stimulate cell growth and mimic insulin action. The effects of this compound on phosphoinositides in NIH 3T3 cells were examined. Both 100 and 1000 microM orthovanadate were found to increase the cellular content of inositol phosphate secondary to the activation of phosphatidylinositol-specific phospholipase C (PtdIns-PLC). The time course, dependence on orthovanadate concentration, and sensitivity to the isoflavone genistein were similar for orthovanadate-induced accumulation of inositol phosphate and protein tyrosine phosphate, indicating that there is a correlation between cellular protein tyrosine phosphate levels and PtdIns-PLC activity. Increased phosphatidylinositol phosphate (PtdInsP) content also occurred when cells were incubated with orthovanadate and appeared to result from the activation of PtdIns kinase. This effect was not correlated with cellular protein tyrosine phosphate content. Hence, orthovanadate is shown to affect phosphoinositide metabolism at a minimum of two sites by both tyrosine phosphate-dependent and -independent mechanisms.
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PMID:The effect of orthovanadate on phosphoinositide metabolism in NIH 3T3 fibroblasts. 130 96

The dinoflagellate toxin maitotoxin (MTX) elicited a sustained increase of [Ca2+]i in C6 glioma cells. This response was inhibited by SK&F 96365, a blocker of receptor-mediated calcium entry. In C6 cells, endothelin-1 elicited a rapid but transient increase in [Ca2+]i, followed by a smaller sustained increase. SK&F 96365 inhibited the sustained increase in [Ca2+]i. In both C6 glioma cells and RIN insulinoma cells, MTX elicited a marked influx of 45Ca2+. SK&F 96365 inhibited MTX-induced 45Ca2+ influx by 95% at 30 microM. The L-type calcium channel blocker nifedipine, even at 10 microM, inhibited MTX-induced calcium uptake by only 20% in RIN cells and by only 10% in C6 cells. MTX elicited calcium-dependent phosphoinositide breakdown in both C6 and RIN cells. In both cell lines, the MTX-induced phosphoinositide breakdown was inhibited by 90% by SK&F 96365 at 30 microM. Endothelin-1 and carbamylcholine elicited phosphoinositide breakdown in C6 cells and RIN cells, respectively. The stimulations were unaffected by the presence of SK&F 96365 up to 100 microM. In RIN insulinoma cells, MTX elicited calcium-dependent release of insulin. SK&F 96365 at 30 microM inhibited MTX-induced insulin release by 75%, whereas nifedipine, even at 30 microM, inhibited release by only 10%. The blockade of MTX-induced responses by SK&F 96365 indicates that MTX increases intracellular calcium by interacting directly with a calcium-entry system that is similar, in its sensitivity to SK&F 96365, to the calcium-entry system activated by receptors that elicit phosphoinositide breakdown. Activation of phospholipase C and hormone release by MTX also are blocked by SK&F 96365 and, thus, may be secondary to the activation of such a calcium-entry system.
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PMID:Maitotoxin effects are blocked by SK&F 96365, an inhibitor of receptor-mediated calcium entry. 131 15

To study the role of membrane lipids in signal transduction by the insulin receptor, we have studied the effect of phospholipase C (Clostridium perfringens) and a phosphatidylinositol-specific phospholipase (Staphylococcus aureus) on insulin binding, a function of the alpha-subunit, and tyrosine kinase activity, a function of the beta-subunit in IM-9 lymphocytes and NIH 3T3 fibroblasts transfected with the human insulin receptor. Treatment of the cells with phospholipase C at concentrations up to 3.4 U/ml did not affect specific insulin binding, but reduced insulin-stimulated receptor phosphorylation by 50%. This effect of phospholipase C was observed within 10 min of treatment and occurred with no change in the basal level of phosphorylation. Pre-treatment of cells with insulin for 5 min prior to enzyme addition prevented any change in kinase activity. Insulin-stimulated phosphorylation of pp 185, the presumed endogenous substrate for the insulin receptor kinase, was also reduced following phospholipase C treatment, with an almost complete loss of insulin stimulation after exposure of cells to enzyme at concentrations as low as 0.6 U/ml. In contrast to these effects of phospholipase C on intact cells, receptor autophosphorylation was not affected in insulin receptors purified on wheat germ agglutinin-agarose from phospholipase C treated cells. Likewise, the phospholipase C effect was reduced by the addition of phosphatidylcholine, but not by the addition of the protease inhibitors, aprotinin and phenylmethylsulfonyl fluoride, to the incubation indicating its dependence on phospholipid hydrolysis. Treatment of cells with the phosphatidylinositol-specific phospholipase C did not affect any of the parameters studied.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of phospholipase treatment on insulin receptor signal transduction. 131 92

We have investigated synthesis of 3-phosphorylated inositol lipids in growth factor-stimulated Swiss 3T3 cells. Those growth factors tested which act via tyrosine kinase-containing receptors (platelet-derived growth factor (PDGF), insulin growth factor I (IGF-I), epidermal growth factor (EGF), and basic fibroblast growth factor (bFGF)) caused the rapid synthesis of [32P]PtdIns(3,4)P2 and [32P]PtdIns(3,4,5)P3 (PtdIns is phosphatidylinositol) in [32P]P(i)-prelabeled cells and the appearance of an inositol lipid 3-OH kinase in antiphosphotyrosine immunoprecipates. In contrast, those growth factors tested which act via G-protein-coupled receptors (bombesin, vasopressin, prostaglandin E1) were unable to stimulate either of the above responses. Furthermore, while PDGF was able to increase the formation of PtdIns(3,4)P2 and PtdIns(3,4,5)P3 in streptolysin-permeabilized cells, guanosine 5'-3-(thio)triphosphate and guanyl-5'-yl imidodiphosphate were not. These results suggest that Swiss 3T3 cells possess the machinery for tyrosine kinase but not G-protein-mediated activation of PtdIns(4,5)P2 3-OH kinase; a situation which is the inverse to that recently described for human neutrophils. The tyrosine kinase-containing receptors differed markedly in their relative abilities to elevate the levels of [32P] PtdIns(3,4,5)P3 (ranked in the order PDGF greater than or equal to IGF-I greater than EGF greater than bFGF), [32P]Ptd-OH (PDGF greater than EGF greater than bFGF; undetectable for IGF-I), and [32P]PtdIns4P (EGF greater than bFGF greater than PDGF; undetectable for IGF-I) in [32P]P(i)-prelabeled cells. These differences are epitomized by IGF-I, which was the joint most powerful stimulus for [32P] PtdIns(3,4,5)P3 formation, but was unable to stimulate a measurable accumulation of [32P]Ptd-OH (and hence, by deduction, was unable to stimulate phospholipase C). These results indicate that there is a differential ability among the tyrosine kinase-containing receptors present in a single cell to recruit phospholipase C and PtdIns(4,5)P2 3-OH kinase into their signalling complexes and further emphasizes the notion that the rapid synthesis of PtdIns(3,4,5)P3 may be a signalling event.
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PMID:Receptor specificity of growth factor-stimulated synthesis of 3-phosphorylated inositol lipids in Swiss 3T3 cells. 132 11

Platelet activating factor (PAF) stimulated aggregation and [32P]-phosphatidic acid (PA) production was compared in normal and diabetic human subjects in platelet rich plasma. The concentration of PAF for half maximal (50%) aggregation of normal and diabetic platelets was 50 nM and 8 nM, respectively. PAF stimulated [32P]-PA production (a metabolite of phospholipase C pathway) was also greater in the platelets from diabetic subjects. This [32P]-PA production was inhibited by the PAF receptor antagonists SRI-63441 and SRI-63675. When the levels of glycosylated hemoglobin (HbA1c) were compared with the PAF stimulated [32P]-PA production a significant relationship was observed. These studies have demonstrated for the first time that diabetic human platelets show hypersensitivity to PAF in both aggregation and [32P]-PA production compared to normal subjects. This may be a result of some modification in phospholipid turnover mechanism and is receptor mediated. Further, the relationship of the degree of aggregation and [32P]-PA production to the level of HbA1c suggest that the insulin deficiency may contribute to these effects.
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PMID:Hypersensitivity of diabetic human platelets to platelet activating factor. 132 54

Insulin treatment of isolated liver plasma membranes induced the release of 5'-nucleotidase and alkaline phosphatase. This effect was maximal at physiological hormone concentrations, being 36% and 17% for 5'-nucleotidase and alkaline phosphatase respectively, and was fully mimicked by the phosphatidylinositol specific phospholipase C (PI-PLC), thus confirming the presence of a glycosylphosphatidylinositol anchoring-system for these exofacial enzymatic proteins. The complete inhibition of insulin dependent enzyme release by neomycin is strongly supportive of an involvement of membrane-located PI-PLC activity. In addition, the insulin-like effect on enzyme release induced by the GTP non-hydrolysable analog, GTP-gamma-S, and its sensitivity to the pertussis toxin are in favour of a mediatory role exerted by the G proteins system, in the transduction of some actions of insulin.
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PMID:Insulin-dependent release of 5'-nucleotidase and alkaline phosphatase from liver plasma membranes. 133 52

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