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 extracellular acidification rate of the human bone marrow cell line, TF-1, increases rapidly in response to a bolus of recombinant granulocyte-macrophage colony stimulating factor (GM-CSF). Extracellular acidification rates were measured using a silicon microphysiometer. This instrument contains micro-flow chambers equipped with potentiometric sensors to monitor pH. The cells are immobilized in a fibrin clot sandwiched between two porous polycarbonate membranes. The membranes are part of a disposable plastic "cell capsule" that fits into the microphysiometer flow chamber. The GM-CSF activated acidification burst is dose dependent and can be neutralized by pretreating the cytokine with anti-GM-CSF antibody. The acidification burst can be resolved kinetically into at least two components. A rapid component of the burst is due to activation of the sodium/proton antiporter as evidenced by its elimination in sodium-free medium and in the presence of amiloride. A slower component of the GM-CSF response is a consequence of increased glycolytic metabolism as demonstrated by its dependence on D-glucose as a medium nutrient. Okadaic acid (a phospho-serine/threonine phosphatase inhibitor), phorbol 12-myristate 13-acetate (PMA, a protein kinase C (PKC) activator), and ionomycin (a calcium ionophore) all produce metabolic bursts in TF-1 cells similar to the GM-CSF response. Pretreatment of TF-1 cells with PMA for 18 h resulted in loss of the GM-CSF acidification response. Although this treatment is reported to destroy protein kinase activity, we demonstrate here that it also down-regulates expression of high-affinity GM-CSF receptors on the surface of TF-1 cells. In addition, GM-CSF driven TF-1 cell proliferation was decreased after the 18 h PMA treatment. Short-term treatment with PMA (1-2 h) again resulted in loss of the GM-CSF acidification response, but without a decrease in expression of high-affinity GM-CSF receptors. Evidence for involvement of PKC in GM-CSF signal transduction was obtained using calphostin C, a specific inhibitor of PKC, which inhibited the GM-CSF metabolic burst at a subtoxic concentration. Genistein and herbimycin A, tyrosine kinase inhibitors, both inhibited the GM-CSF response of TF-1 cells, but only at levels high enough to also inhibit stimulation by PMA. These results indicate that GM-CSF activated extracellular acidification of TF-1 cells is caused by increases in sodium/proton antiporter activity and glycolysis, through protein kinase signalling pathways which can be both activated and down-regulated by PMA.
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PMID:GM-CSF triggers a rapid, glucose dependent extracellular acidification by TF-1 cells: evidence for sodium/proton antiporter and PKC mediated activation of acid production. 767 63

Interleukin-8 (IL-8) is a potent pro-inflammatory molecule present in high amounts in psoriatic skin. Here it may play an important role in the keratinocyte hyperproliferation and the neutrophil and T-lymphocyte infiltration associated with the disease. In this study the effect of protein kinase C inhibitors on IL-8 production by human keratinocytes in vitro was investigated. The anti-inflammatory and immunomodulatory compound auranofin ([1-thio-beta-D-glucopyranose-2,3,4,6-tetraacetato-S] [triethylphosphine] gold) is known to inhibit protein kinase C. In addition, auranofin has been shown to inhibit skin inflammation. As such, auranofin was also studied for its effect on IL-8 production. Auranofin and staurosporine, inhibitors of protein kinase C, inhibited phorbol-myristate-acetate-stimulated IL-8 production. Northern analysis of IL-8 mRNA revealed that the inhibition of IL-8 production was associated with an inhibition of IL-8 mRNA expression. In contrast, these compounds potentiated the minimal IL-8 protein and mRNA seen in response to interleukin-1 beta or tumor necrosis factor-alpha. These findings suggest that IL-8 synthesis may be either positively or negatively regulated by protein kinase C depending on the stimulus.
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PMID:Interleukin-8 production is regulated by protein kinase C in human keratinocytes. 793 Jun 75

Incubation of cultured rat aortic smooth muscle cells (ASMCs) in a medium containing high glucose concentrations (25 mM) did not affect the basal cytosolic free calcium ([Ca2+]i) but led to significant reductions in peak [Ca2+]i response evoked by arginine vasopressin, angiotensin II, and endothelin-1 (ET-1). This was observed in both the presence and absence of extracellular Ca2+. Maintenance of rat ASMCs in a medium containing mannose (an osmotic control for high glucose) did not affect either the basal or peptide agonist-evoked increase in [Ca2+]i. However, pretreatment with either the nonselective protein kinase C (PKC) inhibitor staurosporine or the selective PKC inhibitor 2,6-diamino-N-([1-(1-oxotridecyl)-2 piperidinyl] methyl) hexanamide reversed the attenuating effect of high glucose on peak [Ca2+]i response evoked by ET-1. Also, short-term incubation of ASMCs with the active phorbol ester, phorbol 12-myristate 13-acetate, led to a reduction in peak [Ca2+]i response to all three agonists, whereas the inactive phorbol ester, 4 alpha-phorbol 12,13-didecanoate, which does not activate PKC, had no such effect. Although high-glucose treatment of rat ASMCs led to significant reductions in the maximal number of binding sites to the extent of 39% of [125I]ET-1 specific binding, no significant differences in the affinity (Kd approximately 110 pM) characteristics were evident between control and high-glucose treatment groups. It is proposed that incubation of rat ASMCs with high glucose enhances the de novo synthesis of diacylglycerol and activates membrane-bound PKC and that this, in turn, impairs agonist-mediated intracellular Ca2+ mobilization.
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PMID:High glucose attenuates peptide agonist-evoked increases in cytosolic free [Ca2+] in rat aortic smooth muscle cells. 803 97

In human promyelocytic (HL60) leukemia cells beta II protein kinase C (PKC) is selectively translocated to the nucleus in response to proliferative stimuli. At the nucleus, beta II PKC directly phosphorylates the nuclear envelope polypeptide lamin B at two consensus PKC phosphorylation sites, Ser395 and Ser405. Phosphorylation of these sites by beta II PKC leads to solubilization of lamin B indicative of mitotic nuclear envelope breakdown in vitro (Hocevar, B.A., Burns, D.J., and Fields, A.P. (1993) J. Biol. Chem. 268, 7545-7552). We have now investigated the molecular basis for beta II PKC-selective nuclear translocation and lamin B phosphorylation using an in vitro reconstitution system. We find that beta II PKC phosphorylates nuclear envelope lamin B at 10-20 times the rate of alpha PKC, whereas both kinases phosphorylate soluble lamin B at similar rates. Comparative tryptic phosphopeptide analysis demonstrates that alpha PKC and beta II PKC phosphorylate identical sites, Ser395 and Ser405, on soluble lamin B. These data suggest that a component(s) of the nuclear envelope confers beta II PKC-selective nuclear activation and lamin B phosphorylation. Extraction of nuclear envelopes with either non-ionic detergent (2% n-octyl glucoside) or organic solvent (CHCl3/CH3OH/H2O; 10:10:3) abolishes beta II PKC-selective phosphorylation of nuclear lamin B. Nuclear membrane extracts reconstitute beta II PKC-selective phosphorylation, indicating the presence of a beta II PKC-selective nuclear membrane activation factor (NMAF). NMAF selectively activates beta II PKC histone H1 kinase activity 3-4-fold above the level achieved with optimal concentrations of Ca2+, diacylglycerol, and phosphatidylserine. Finally, NMAF activity is not affected by exhaustive protease treatment, suggesting that it is a nuclear membrane lipid(s) or lipid metabolite. These data suggest that NMAF plays a physiologic role in the nuclear activation of beta II PKC.
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PMID:Presence of a beta II protein kinase C-selective nuclear membrane activation factor in human leukemia cells. 806 66

Similar vascular pathological conditions are observed in diabetic animals and those with diet-induced hypergalactosemia. Both diabetes and hypergalactosemia are believed to cause vascular dysfunction via a common biochemical mechanism. In this study, we have found that both diabetes and hypergalactosemia in the short term (2-4 months) can increase total diacylglycerol (DAG) levels by 52 +/- 9 and 74 +/- 13% in the retina and aorta, respectively, of diabetic dogs, and by 94 +/- 9 and 78 +/- 11% in the retina and aorta, respectively, in dogs with hypergalactosemia as compared with normal control animals (P < 0.01). The elevation of DAG levels was maintained for 5 years in the aortas of diabetic and hypergalactosemic dogs. To characterize the mechanism of the DAG increases, we have determined that total DAG levels were significantly increased in cultured macro- and microvascular cells exposed to elevated glucose (22 mM) and galactose (16.5 mM) levels. These increased levels were not prevented by sorbinil, an aldose reductase inhibitor. One of the sources of the increased DAG levels was probably derived from de novo synthesis from both hexoses as determined by radiolabeling studies. Intracellularly, the DAG elevation activated protein kinase C (PKC) activity with increases of 58 +/- 12% (P < 0.05) and 66 +/- 8% (P < 0.01) in the membrane fraction of cultured aortic smooth muscle cells exposed to elevated glucose and galactose levels, respectively. These findings have clearly demonstrated a possible common biochemical mechanism by which hyperglycemia and hypergalactosemia can chronically activate the DAG-PKC pathway in the vasculature and could be a possible explanation for the development of diabetic vascular complications.
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PMID:Characterization of the mechanism for the chronic activation of diacylglycerol-protein kinase C pathway in diabetes and hypergalactosemia. 807 Jun 12

A proposed weak point in cancer cells is their need to synthesize novel or rare glucosphingolipids. It is further proposed that cancer patients be treated with a drug that slows the synthesis of glucosylceramide, the precursor of a large family of glucosphingolipids. Experimental data are furnished for chemotherapeutic and biochemical effects of PDMP, an analog of glucosylceramide and its precursor, ceramide. Promising results were obtained in the treatment of mice carrying Ehrlich ascites carcinoma cells and rats carrying C6 glioma cells. PDMP was found to be oxidized by cytochrome P-450, but this process could be blocked in vivo with piperonyl butoxide or cimetidine. A high level of blood glucose was found to elevate the size of rat kidneys and their content of UDP-glucose and its product, glucosylceramide. The excessive growth could be blocked by PDMP, which competes with UDP-glc for binding to glucosylceramide synthase. It is suggested that cancer patients be maintained at a low glucose level in order to slow the synthesis of glucosylceramide by tumor cells. Metabolic changes produced by PDMP in cultured cells, besides a rapid deletion of glucosphingolipids, were accumulation of the precursors (ceramide and sphingosine), loss of protein kinase C, and accumulation of diacylglycerol. It is suggested that many of the cellular changes produced by PDMP, such as loss of cell binding, are owing to existence of glucosylceramide-based "islands" floating in the outer cell surface; the islands may contain growth factor receptors and adhesion factors. An inhibitor that blocks sphingolipid synthesis, such as cycloserine, may prove to be a useful adjuvant for therapy with PDMP.
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PMID:Rationales for cancer chemotherapy with PDMP, a specific inhibitor of glucosylceramide synthase. 808 32

The aim of this study was to investigate the stimulating effects of sulfhydryl reagents on glucose transport in isolated rat heart muscle cells and to compare them with the action of insulin. Low concentrations of the sulfhydryl oxidants hydrogen peroxide (H2O2) and diamide (5-100 microM), but also of phenylarsine oxide (PAO) (0.5-3 microM), that is known to specifically react with vicinal SH-groups, stimulated the rate of 2-deoxy-D-glucose uptake by a factor of 4 to 8 in these cells, while higher concentrations were inhibitory. The stimulating effects of H2O2 or diamide, and, to a significantly lesser extent, those of PAO or insulin, were depressed in cells pretreated with the sulfhydryl-alkylating agent N-ethylmaleimide (56-100 microM). H2O2 raised the Vmax and lowered the Km of 3-O-methyl-D-glucose uptake, while PAO or insulin solely increased Vmax. The increase in glucose transport caused by H2O2 was antagonized by the beta-adrenergic agonist isoprenaline (1 microM) or by a membrane-permeant cyclic AMP analog, whereas the effects of PAO or insulin were not altered. The action of H2O2 was additive with the stimulation induced by the protein phosphatase inhibitors okadaic acid (1 microM) or vanadate (6 mM), whereas the responses to PAO or insulin were reduced in the presence of these agents. Finally, H2O2 and PAO, but not insulin, acted additively with the protein kinase C ligand phorbol myristate acetate (0.8 microM) and with phospholipase C (0.03 units/ml). We conclude that, in cardiac myocytes, H2O2, on the one hand, and PAO (and possibly insulin), on the other hand, stimulate glucose transport via at least two distinct, SH-dependent pathways. These pathways, in turn, differ from a protein kinase C- and from a phospholipase C-mediated mechanism.
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PMID:Phenylarsine oxide and hydrogen peroxide stimulate glucose transport via different pathways in isolated cardiac myocytes. 824 Dec 56

Using isozyme-specific anti-peptide antisera against peptides from the alpha-, beta-, gamma-, delta-, epsilon-, and zeta-isoforms of brain protein kinase C (PKC), we have identified proteins in bovine lens epithelial cells, in culture, that were reactive with these antisera. Western blots of lens epithelial cell homogenates showed that PKC-alpha antisera reacted with a major protein, and PKC-gamma antisera reacted with a minor protein. When the lens epithelial cells were cultured in media supplemented with 40 mM galactose, to model the conditions of sugar cataracts, a decrease in PKC-gamma, but not in PKC-alpha was observed. These were normalized if the cells were cultured in 40 mM galactose media supplemented with an inhibitor of aldose reductase, Tolrestat (10 microM). These results suggest that changes in PKC isoforms occur in the galactosemic diabetic state.
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PMID:Protein kinase C in galactosemic and tolrestat-treated lens epithelial cells. 831 96

Incubation of cultured bovine lens epithelial cells (BLECs) in minimal essential medium (MEM) containing 40 mM galactose for 20 hr results in an attenuation of 3H-myo-inositol (3H-MI) concentrating ability. Decreased MI uptake could negatively impact on normal phosphoinositide turnover and diacylglycerol production, and presumably, protein kinase C (PKC) activation. The present report examines the relationship between PKC activity, myo-inositol transport and hyperglycemic conditions. PKC activities in the cytosol and particulate fractions of bovine lens epithelial cells in culture were quantitated using a mixed micelle assay following DEAE-cellulose (DE52) and Sephadex G-25 chromatography. Protein kinase C activity was assessed as Ca2+ and phospholipid-dependent Ac-myelin basic protein substrate peptide phosphorylation and confirmed using a PKC pseudosubstrate inhibitor peptide (PKC 19-36). Total PKC activity was similar in galactose-incubated cells (871 +/- 64 pmol/mg total protein/min) and control cells (881 +/- 8 pmol/mg total protein/min) after 20 hr. In unstimulated cells, approximately 90% of the total cellular PKC activity was recovered in the cytosolic fraction. Enzyme translocation was induced with the tumor promoting phorbol ester, phorbol 12-myristate 13-acetate (PMA), resulting in a 6-fold increase in membrane-associated PKC activity. A similar PMA-induced translocation was observed in BLECs incubated with 40 mM galactose MEM-maintained cells briefly treated with PMA or the non-phorbol PKC activators, SC-10 and mezerein, displayed a rate of 3H-MI uptake similar to the untreated control cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein kinase C activity and its relationship to myo-inositol uptake during hyperglycemic conditions in cultured bovine lens epithelial cells. 834 65

The potential role of protein kinase C (PKC) in the modulation of thromboxane A2 (TX) receptor density was evaluated in intact glomeruli and cultured renal mesangial cells (MC) from the rat. Incubation of glomeruli with 0.1 microM phorbol dibutyrate (PDBu) or 30 mM glucose for four hours activated PKC as reflected by increased in situ phosphorylation of the 80 kDa MARCKS protein, a specific endogenous substrate for PKC. High affinity binding to TX receptors, as assessed from the binding of the stable TX antagonist [3H]-Sq-29548 (Sq), was decreased 30% in glomeruli exposed to PDBu and 28% in glomeruli incubated in 30 mM D-glucose for four hours. Concurrent incubation with 0.05 microM of the PKC inhibitor staurosporine blocked both MARCKS protein phosphorylation and the decrease in TX receptor sites in response to either PDBu or 30 mM glucose. Neither 30 mM L-glucose nor 30 mM mannitol altered glomerular PKC activity or TX receptor density, thus excluding an osmotic effect of D-glucose, and implicating cellular metabolism of glucose in the expression of these actions. Inhibition of endogenous production of TX with indomethacin during exposure of glomeruli to 30 mM glucose did not prevent the decrease in TX binding. Homologous down-regulation of TX receptors mediated by endogenous TX was therefore not implicated in this action of glucose. The affinity of the glomerular receptor sites for [3H]-Sq was not affected by PKC activation. MC in passages 3 to 7 also demonstrated high affinity sites for [3H]-Sq (Kd, 2.8 nM). Culture of MC with PDBu (0.05 or 0.1 microM) for four hours decreased TX receptor density.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of protein kinase C reduces thromboxane receptors in glomeruli and mesangial cells. 835 67


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