Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The regulated expression of mannose 6-phosphate/insulin-like growth factor II (M6P/IGF II) receptors in plasma membranes has previously been shown to be accompanied by marked changes in the phosphorylation state of the receptors (Corvera, S., Folander, K., Clairmont, K. B., and Czech, M. P. (1988) Proc. Natl. Acad. Sci. U. S. A. 85, 7567-7571). In the present study we show that protein phosphatase 2A dephosphorylates the human M6P/IGF II receptor in vitro. Incubation of human fibroblasts with okadaic acid, a specific inhibitor of this phosphatase, resulted in a depletion of M6P/IGF II receptors at the cell surface without affecting their internalization kinetics. The phosphorylation state of the remaining cell surface receptors was 3-fold increased. Thus, the endocytosis rate of M6P/IGF II receptors appears to be unaltered by increased phosphorylation. While the decreased cell surface expression of receptors was reversible upon removal of okadaic acid the IGF II-induced redistribution of M6P/IGF II receptors to the plasma membrane (Braulke, T., Tippmer, S., Neher, E., and von Figura, K. (1989) EMBO J. 8, 681-686) was irreversibly inhibited by the phosphatase inhibitor. Receptor redistribution in response to protein kinase C activation was not affected by okadaic acid. These results suggest that the cell surface expression of M6P/IGF II receptor can be regulated by phosphatase-dependent and -independent pathways. In addition, the phosphorylation state and the steady-state cell surface number of transferrin receptors were not affected by okadaic acid, whereas it impaired the IGF II-stimulated receptor redistribution similarly as for M6P/IGF II receptors. The data indicate that okadaic acid-sensitive protein phosphatases may play a general role in terms of IGF II-modulated receptor recycling.
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PMID:Role of protein phosphatases in insulin-like growth factor II (IGF II)-stimulated mannose 6-phosphate/IGF II receptor redistribution. 132 32

The single oligosaccharide moiety of the major myelin glycoprotein, P0, resides in an immunoglobulin-like domain that appears to participate in homophilic binding. The studies presented here indicate that the structure of the P0 oligosaccharide from rat nerve changes as a function of Schwann cell age. Examination of 5-day-old nerve revealed that P0 contained predominantly endo-beta-N-acetylglucosaminidase H (endo H)-resistant, complex-type oligosaccharide. In contrast, P0 from adult rats had mostly endo H-sensitive carbohydrate, indicating the presence of appreciable high-mannose and/or hybrid-type oligosaccharide on the glycoprotein. The endo H-sensitive and -resistant P0 of adult nerve could be readily phosphorylated by protein kinase C, as could the complex-type P0 from 5-day-old nerve. This suggests that the glycoprotein progresses to the plasma membrane and myelin regardless of the type of oligosaccharide chain. Analysis of 35SO4(2-)-labeled P0 showed that the sulfate group was found on both endo H-sensitive and -resistant oligosaccharide. The endo H-sensitive P0 carbohydrate from adult nerve appears to be primarily of the hybrid type, as evidenced by (a) the elution profile of [3H]mannose-labeled P0 glycopeptides from adult nerve during concanavalin A chromatography and (b) the inability of P0 from adult nerve to interact with Galanthus nivalis agglutinin. The observed age-dependent changes of P0 oligosaccharide may modify the binding properties of this myelin glycoprotein.
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PMID:Age-dependent changes in the oligosaccharide structure of the major myelin glycoprotein, P0. 137 74

The VSMC is an important target for the injurious effects of hyperglycemia in vivo. PKC plays a key role in the regulation of VSMC contraction and growth. This study examines whether elevated extracellular glucose concentrations (10-30 mM [180-540 mg/dl]) activate PKC in cultured rat VSMCs in vitro. A new, rapid, and highly specific assay was used to determine in situ PKC activity in digitonin-permeabilized VSMCs. PKC activity in VSMCs responded rapidly to variations in extracellular glucose concentrations. PKC was activated significantly within 10 min of exposure to D-glucose (20 mM) versus glucose (5 mM). Moreover, with continued exposure to D-glucose (20 mM), PKC activation was sustained for up to 48 h. Reducing D-glucose concentrations to 5 mM restored PKC activity to control values within 1 h. PKC activation was also glucose-concentration dependent. A threshold of only 15 mM (270 mg/dl) was required to significantly and maximally activate PKC in VSMC. PKC was not activated in the presence of osmotic control media that contained either elevated mannitol or L-glucose concentrations. In marked contrast to the sustained PKC activation induced by D-glucose in VSMCs, the normal physiological PKC response to the pressor hormones, AII and AVP, was short-lived and returned to base line within minutes. Sustained PKC activation in the presence of elevated D-glucose concentrations in vitro could disturb the normal physiological regulation of VSMC function and growth and thereby may contribute to the apparent vasotoxicity of hyperglycemia in vivo.
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PMID:Characterization of glucose-induced in situ protein kinase C activity in cultured vascular smooth muscle cells. 139 22

Endotoxin induces insulin hypersecretion in vivo, which results in hyperinsulinemia and glucose dyshomeostasis. Polymyxin-B (PMX-B), an inhibitor of protein kinase C (PKC), has been shown to ameliorate the consequences of endotoxin-induced hyperinsulinemia in vivo. To explore the mechanism for this effect in vitro, this study determined whether PMX-B could alter endotoxin-induced insulin hypersecretion in isolated pancreatic islets of Langerhans. Pancreases were obtained from fasted, male, Sprague-Dawley rats treated with either saline (control) or endotoxin (S. enteritidis B, 16.7 mg/kg, i.v.). Three hours after the experimental treatment, islets were isolated by collagenase digestion and then incubated for 1 hr in Krebs Ringer bicarbonate buffer containing 0.5% bovine albumin, 10 mM HEPES, 300 mg/dl D-glucose, phorbol 12-myristate 13-acetate (PMA, 1 microM when present), and PMX-B (1 or 10 mM when present). In the absence of PMA and PMX-B, "endotoxic" islets hypersecreted immunoreactive insulin (IRI) relative to control islets. PMA, the prototypical PKC activator, significantly increased IRI secretion from both control and "endotoxic" islets. The additional inclusion of PMX-B (1 mM or 10 mM) in the incubation media significantly reduced insulin secretion from both control and "endotoxic" islets and suppressed the insulin hypersecretion observed in "endotoxic" islets. Since insulin secretion occurs at least partially through mechanisms dependent on PKC activation, the ability of PMX-B to suppress insulin hypersecretion in "endotoxic" islets suggests that activation of PKC within pancreatic beta-cells may play a role in the excess insulin secretion and hyperinsulinemia associated with endotoxicosis.
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PMID:Polymyxin-B suppresses endotoxin-induced insulin hypersecretion in pancreatic islets. 142 25

The hypothesis was tested that the insulin-like effects of Gram-negative bacterial endotoxins (ET), exerted after in vivo administration on subsequently isolated adipocytes, might be associated with changes in protein kinase C (PKC) activity. The latter is believed to be involved in insulin's mechanism of action on adipocytes. E. coli ET was administered to rats either as a bolus injection (1 mg/100 g bw, in 160-180 g rats, LD50 for 6 hr) or via subcutaneously implanted osmotic pumps (0.1 mg/100 g bw/24 hr, for 30 hr, in 340-380 g rats). Control animals received sterile saline. At 6 hr after bolus injection, and at 30 hr after the onset of ET infusion, the animals were sacrificed and epididymal adipocytes isolated. PKC activity and intracellular distribution were assayed after partial purification on DE-52 cellulose minicolumns. Lipogenesis was measured by [3-3H]-D-glucose incorporation into triglyceride. ET treatment by either mode induced a significant increase (76-80%) in PKC activity. PKC intracellular distribution was altered only in chronically ET-treated rats and was expressed as an increased enzyme activity in the membrane fraction. The increased PKC activity was associated with elevated rates of insulin-stimulated lipogenesis only in young rats. We conclude that in young rats, whose adipocytes display high rates of lipogenesis along with elevated insulin sensitivity, PKC is likely to be one of the possible factors involved in mediation of insulin-like effects of ET.
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PMID:Protein kinase C activity and lipogenesis from glucose in isolated adipocytes of endotoxemic rats. 151 1

Sphingomyelin (SM) and cholesterol are major lipid species of apical membranes in renal proximal tubular cells and confer to these membranes a low fluidity. Changes in membrane fluidity and/or lipidic composition were shown to affect the activity of cotransport systems of renal apical membranes. We evaluated the effect of decreasing membrane SM content on lipidic composition, membrane fluidity and sodium (Na)coupled uptakes in rabbit proximal tubular cells in primary culture. Sphingomyelinase (SMase) (30 to 250 mU/ml) decreased [3H]choline-labeled SM content, decreased cholesterol content, and increased cholesterol esterification. SMase did not modify membrane fluidity on isolated brush border membranes. SMase decreased Vmax of Na-dependent uptake of phosphate and alpha-methyl-D-glucoside, but not of alanine. SMase did not influence protein kinase C-induced inhibition of phosphate and glucose uptake. Increasing membrane cholesterol content with cholesterol-enriched liposomes subsequently to SMase action restored in part glucose uptake, but not phosphate uptake. In conclusion, SM degradation affected Na-phosphate and Na-glucose cotransports through changes in both SM and cholesterol contents of apical proximal membranes; these changes seemed to occur independently from changes in bulk membrane fluidity. These results suggest that SM and cholesterol have distinct and intricated roles in accessibility and/or activity of apical cotransport systems.
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PMID:Sphingomyelin and cholesterol modulate sodium coupled uptakes in proximal tubular cells. 151 19

The regulation of 3-O-methyl-D-glucose (OMG) uptake by insulin and phorbol esters was studied in cultured human skin fibroblasts. Insulin rapidly stimulated OMG uptake through a mechanism independent of new protein synthesis. Maximal insulin effect was reached in 30 min and remained constant up to 12 h. The protein kinase C activators 12-O-tetradecanoyl phorbol 13-acetate (TPA) and phorbol 12,13-dibutyrate (PdBU) promoted an initial rapid stimulation followed by a secondary long-term rise of OMG influx. This latter effect of phorbol esters on OMG influx began after 1 h, reached a maximum in 12-15 h, and was prevented by the simultaneous addition of protein synthesis inhibitors, suggesting that phorbol esters increased the synthesis of new glucose transporters. In accord with this interpretation, phorbol esters, but not insulin, increased mRNA levels for two distinct glucose transporters (GLUT1 and GLUT3) in human fibroblasts. Both the rapid and the long-term effects of phorbol esters on OMG influx were dose-dependent and half-maximal stimulations occurred at 15 nM for both PdBU and TPA. Kinetic analysis of OMG uptake indicated that both effects of phorbol esters were associated with an increase in the Vmax of the transport process, with no significant changes of the Km (4-6 mM). These results suggest that, in human fibroblasts, phorbol esters, unlike insulin, produce a long-term stimulation of OMG uptake, which is dependent upon protein synthesis and is associated with increased levels of GLUT1 and GLUT3 mRNA.
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PMID:Glucose transport by cultured human fibroblasts: regulation by phorbol esters and insulin. 155 Aug 50

Protein-calorie malnutrition (PCM) induces immunosuppression leading to increased mortality rates. Impaired macrophage respiratory burst activity (superoxide anion [O2-] generation) occurs in PCM, but cellular mechanisms are unclear. The major pathway resulting in O2- production involves inositol lipid-dependent signal transduction. This study examined the effect of mild versus severe PCM on macrophage O2- generating signal transduction pathways specific for responses to Candida albicans. Mice (CFW/Swiss Webster: n = 300) were randomized to either control or low protein diets for 3 or 8 weeks. Peritoneal macrophages were harvested for O2- production, mannose-fucose receptor (MFR) expression, membrane phospholipid analysis, arachidonic acid (AA) content, prostaglandin E2 (PGE2) production, and protein kinase C levels. O2- release was impaired in both mild and severe PCM. MFR expression was also decreased at these time points. Inositol lipid content was significantly lower at the 8-week time point only, although PGE2 and AA were significantly higher in the low protein diet group at 3 weeks. Protein kinase C levels were unchanged by PCM. Thus, mild PCM significantly increases macrophage-PGE2 production secondary to increased AA phospholipid content, with subsequent inhibition of O2- and MFR expression. Severe PCM inhibits macrophage (O2-) through depletion of critical membrane phospholipid components with subsequent impairment in signal transduction.
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PMID:Immunosuppressive mechanisms in protein-calorie malnutrition. 165 37

Leucocyte Na+/H+ antiport activity is elevated in patients with essential hypertension and Type 1 diabetes with nephropathy. To examine the effects of hyperglycemia on the Na+/H+ antiport, normal leucocytes were incubated with 25 mmol l-1 D-glucose, L-glucose or glucose-6-phosphate for two days. Leucocyte Na+/H+ antiport activity was measured by a novel double ionophore fluorimetric method for controlling intracellular pH. Only incubation with D-glucose led to an increase in Na+/H+ antiport activity of about 31%. This effect was not due to non-enzymic glycation since glucose-6-phosphate, which glycates proteins faster than D-glucose, caused no significant difference in antiport activity. Also, osmotic effects could be excluded. Staurosporine (10 nmol l-1), a specific inhibitor of protein kinase C, prevented the rise in antiport activity due to incubation with D-glucose. As hyperglycaemia is known to increase protein kinase C activity, elevation of this kinase may be one mechanism for activation of the Na+/H+ antiport in Type 1 diabetes.
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PMID:Stimulation of the human leucocyte Na+/H+ antiport by D-glucose is mediated by protein kinase C. 166 30

Intracellular mediators of exocytosis were investigated using isolated mouse pancreatic acini permeabilized with the bacterial toxin streptolysin O (SLO). Permeabilization was demonstrated by fluorescent staining with ethidium bromide and fluorescein diacetate and release of cytoplasmic lactate dehydrogenase. When SLO-permeabilized acini were incubated at 37 degrees C in Ca2(+)-EGTA buffers containing MgATP, amylase secretion was Ca2+ dependent with an EC50 of 0.40 microM Ca2+ and a maximally effective Ca2+ concentration of 1 microM. Maximal amylase secretion was 330% of that in Ca2(+)-free buffer (basal). The nonhydrolyzable GTP analogue guanosine 5'-O-(3-thiotriphosphate) (GTP gamma S; 30 microM) increased the maximal secretion to 451% of basal in the presence of 1 microM Ca2+ and decreased the EC50 to 0.14 microM Ca2+. Removal of ATP plus addition of antimycin A and 2-deoxy-D-glucose inhibited Ca2(+)-dependent, GTP gamma S-enhanced amylase secretion by 56%. The phorbol ester 12-O-tetradecanoylphorbol 13-acetate (TPA; 1 microM) also enhanced maximal secretion to 450% of basal and decreased the EC50 to 0.18 microM Ca2+. Enhancement of amylase secretion by submaximal concentrations of GTP gamma S or TPA was inhibited by the protein kinase C inhibitor staurosporine. These results suggest that Ca2+ stimulation of amylase secretion is potentiated by activation of protein kinase C. However, the enhancement of secretion by GTP gamma S and TPA was additive at their maximally effective concentrations, suggesting that another G protein(s) maybe involved in the terminal steps of exocytosis.
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PMID:Amylase release from streptolysin O-permeabilized pancreatic acini. 169 32


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