EC:2.7.11.13 - FACTA Search

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

This work tests the hypothesis that chronic alcohol intoxication suppresses the microbicidal activity of Kupffer cells by modulating the expression of cell surface receptors associated with respiratory burst and the release of potent microbicidal agents [i.e., reactive oxygen species (ROS)]. Because alcohol is also a potential risk factor in human immunodeficiency virus-1 (HIV-1) infection, this study examines the effect of HIV-1 glycoprotein 120 (gp120)-induced ROS release by isolated Kupffer cells. After 16 weeks of ethanol feeding, Kupffer cells from male Sprague-Dawley rats were isolated and assayed for HIV-1 gp120-induced superoxide release. Fluorescein isothiocyanate (FITC)-HIV-1 gp120 binding, NADPH oxidase, and protein kinase C activity in Kupffer cells were measured. Results show that HIV-1 gp120 induced the release of superoxide anion in a dose-dependent manner in normal rats. Mannosylated-bovine serum albumin inhibited FITC-HIV-1 gp120-mediated superoxide release in normal Kupffer cells by 85%. Moreover, 83 +/- 6% of Kupffer cells were FITC-HIV 1 gp120-positive, whereas <30% were CD4-positive. In alcohol-fed rats, HIV-1 gp120-induced ROS release was reduced by 70% and FITC-HIV-1 gp120 binding (in terms of fluorescence intensity per 10[6] Kupffer cells) by 44% in Kupffer cells, without any change in percent positive cells for this ligand. Concomitantly, HIV-1 gp120-induced translocation of NADPH oxidase to the plasma membranes of Kupffer cells in alcohol-fed rats was suppressed by 60%. In contrast, alcohol consumption significantly increased total protein kinase C activity and phorbol ester-induced superoxide release by Kupffer cells. These studies demonstrate that Kupffer cells are likely targets of HIV-1 whose binding sites on macrophages could also include mannose-specific receptors. These observations further suggest that suppression of HIV-1 gp120-mediated ROS production in chronic alcoholics is due to altered cell surface receptor expression for gp120, and defective postreceptor signaling mechanisms, which in turn could lead to attenuated microbicidal activity of hepatic macrophages.
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PMID:Chronic alcohol intoxication attenuates human immunodeficiency virus-1 glycoprotein 120-induced superoxide anion release by isolated Kupffer cells. 958 56

1. The mineralocorticoid aldosterone is essential for the regulation of electrolyte homeostasis, extracellular volume and blood pressure. As a steroid hormone the classical way of action is genomic. Previously we reported a non-genomic action of aldosterone on cytosolic Ca2+ and pH in renal epithelial (MDCK) cells. In parallel, aldosterone induces Zn2+-sensitive cytosolic acidification when extracellular Na+ is absent. 2. We now show that aldosterone (EC50, 7 x 10-11 mol l-1) induces a non-genomic increase in cytosolic sodium in MDCK cells. The membrane-impermeable aldosterone-bovine serum albumin (BSA) conjugate exerted the same effect. The effect of aldosterone was completely abolished by inhibition of Na+-H+ exchange with ethyl-isopropanol amiloride (EIPA). Aldosterone-induced Na+ influx exceeded H+ efflux more than 10-fold. 3. Omission of extracellular Ca2+, inhibition of protein kinase C or pretreatment with pertussis toxin reduced the effect of aldosterone significantly. Zn2+ (IC50, 3.3 x 10-6 mol l-1), but not ouabain, abolished the increase in Na+ almost completely. 4. The aldosterone-induced increase in cytosolic sodium was accompanied by an EIPA- and Zn2+-sensitive cell swelling. 5. Thus, physiological concentrations of aldosterone induce a non-genomic increase in cytosolic sodium concentration by activation of Na+-H+ exchange. Aldosterone exerts its effect, at least in part, at the plasma membrane via interaction with a G-protein-coupled mechanism. 6. The simultaneous activation of the acidification mechanism and Na+-H+ exchange by aldosterone allows a dramatic sodium influx without excessive changes in cytosolic pH and leads to changes in cell volume.
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PMID:Non-genomic action of the mineralocorticoid aldosterone on cytosolic sodium in cultured kidney cells. 967 79

1. Whole-cell recordings from cultured rat hippocampal neurons, from freshly dissociated dorsal root ganglion (DRG) neurons and from human embryonic kidney (HEK) 293 cells expressing the glutamate receptor GluR6 subunit were used to study the modulation of kainate receptor channels by long chain fatty acids. 2. In all three cell types, application of cis-unsaturated fatty acids caused a dose-dependent reduction in whole-cell currents evoked by kainate. Docosahexaenoic acid (DHA), arachidonic acid (AA), linolenic acid and linoleic acid all produced substantial inhibition at a concentration of 50 microM, whereas inhibition by linolenelaidic acid and linolelaidic acid was significantly weaker. Fully saturated fatty acids were essentially inactive. 3. With continuous exposure to active fatty acids, the peak current elicited by kainate declined over a time course of several minutes to reach a steady-state level less than 50 % of the initial amplitude. Recovery was slow in control solution, but was speeded up by exposure to bovine serum albumin (0.5 mg ml-1), a protein that binds fatty acids with submicromolar affinity. The inhibition in neurons was half-maximal with 5-15 microM AA or DHA, but potency was at least 10-fold greater at GluR6 in HEK 293 cells. 4. Inhibition by AA or DHA was unaffected by extracellular nordihydroguaiaretic acid (10 microM), indomethacin (10 microM), 17-octadecynoic acid (30 microM) or 1-(5-isoquinolinylsulphonyl)-2-methylpiperazine dihydrochloride (H-7; 10 microM). Furthermore, inclusion of H-7 (100 microM), BAPTA (10 mM), AA (50 microM), antioxidants, or the protein kinase C inhibitor PKC19-36 (20 microM) in the internal solution had little effect on whole-cell currents and did not prevent inhibition of currents by extracellular application of AA or DHA. 5. We conclude that the inhibition produced by cis-unsaturated fatty acids does not require conversion to oxidized metabolites or activation of PKC. Instead, active compounds may interact directly with an extracellular, or intramembraneous, site on kainate receptors.
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PMID:Inhibition of rat neuronal kainate receptors by cis-unsaturated fatty acids. 980 86

Compromised immune function is common to Zn deficiency, protein and energy malnutrition; however, the causative mechanisms at the molecular level have not been elucidated. The T lymphocyte signal transduction pathway contains several Zn-finger proteins, and it is possible that the in vivo functioning of these proteins could be affected by dietary deficiency of Zn and amino acids. Thus, the objective was to investigate the effects, on expression of the T lymphocyte signal transduction proteins p56(lck), phospholipase Cgamma1 (PLCgamma1) and protein kinase C (PKCalpha), of dietary Zn deficiency (ZnDF, < 1 mg Zn/kg diet) and protein-energy malnutrition syndromes [2% protein deficiency (LP), combined Zn and 2% protein deficiency (ZnDF+LP), and diet restriction (DR, body weight equal to ZnDF)] compared with control (C) mice. Indices of nutritional status and splenocyte counts were also determined. Based on serum albumin and liver lipid concentrations, the ZnDF+LP and LP groups had protein-type malnutrition, whereas the ZnDF and DR groups had energy-type malnutrition. For Western immunoblotting of the signal transduction proteins, mouse splenic T lymphocytes were isolated by immunocolumns. The expression of T lymphocyte p56(lck) was significantly elevated in the ZnDF+LP, ZnDF and DR groups compared to the C group. In contrast, the expression of PLCgamma1 and PKC was unaffected. There was a significant negative correlation between T lymphocyte p56(lck) expression and serum Zn (r= -0.65, P = 0.0007) or femur Zn (r = -0.73, P = 0.0001) concentrations. We propose that elevated T lymphocyte p56(lck) may contribute to altered thymoctye maturation, apoptosis and lymphopenia in Zn deficiency and protein-energy malnutrition syndromes.
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PMID:Expression of T lymphocyte p56(lck), a zinc-finger signal transduction protein, is elevated by dietary zinc deficiency and diet restriction in mice. 1008 65

In the current study, we have characterized group I metabotropic glutamate (mGlu) receptor enhancement of 4-aminopyridine (4AP)-evoked [3H]glutamate release from rat cerebrocortical synaptosomes. The broad spectrum mGlu receptor agonist (1S,3R)-1-aminocyclopentane-1,3-dicarboxylic acid ((1S,3R)-ACPD, 10 microM) increased 4AP-evoked [3H]glutamate release (143.32+/-2.73% control) only in the presence of exogenously applied arachidonic acid; an effect reversed by the inclusion of bovine serum albumin (BSA, fatty acid free). In contrast, the selective group I mGlu receptor agonist (S)-3,5-dihydroxyphenylglycine (DHPG) potentiated (EC50 = 1.60+/-0.25 microM; Emax = 147.61+/-10.96% control) 4AP-evoked [3H]glutamate release, in the absence of arachidonic acid. This potentiation could be abolished by either the selective mGlu1 receptor antagonist (R,S)-1-aminoindan-1,5-dicarboxylic acid (AIDA, 1 mM) or the selective PKC inhibitor (Ro 31-8220, 10 microM) and was BSA-insensitive. The selective mGlu5 receptor agonist (R,S)-2-chloro-5-hydroxyphenylglycine (CHPG, 300 microM) was without effect. DHPG (100 microM) also potentiated both 30 mM and 50 mM K+ -evoked [3H]glutamate release (121.60+/-12.77% and 121.50 +/-4.45% control, respectively). DHPG (100 microM) failed to influence both 4AP-stimulated 45Ca2+ influx and 50 mM K+ -induced changes in synaptosomal membrane potential. Possible group I mGlu receptor suppression of tonic adenosine A1 receptor, group II/III mGlu receptors or GABA(B) receptor activity is unlikely since 4AP-evoked [3H]glutamate release was insensitive to the selective inhibitory receptor antagonists 8-cyclopentyl-1,3-dimethylxanthine, (R,S)-alpha-cyclopropyl-4-phosphonophenylglycine or CGP55845A, respectively. These data suggest an 'mGlu1 receptor-like' receptor potentiates [3H]glutamate release from cerebrocortical synaptosomes in the absence of exogenously applied arachidonic acid. This PKC dependent effect is unlikely to be via modulation of synaptosomal membrane potential or voltage-activated Ca2+ channels and not via a suppression of tonically active inhibitory adenosine A1 receptor, group II/III mGlu receptors or GABA(B) receptors.
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PMID:Group I mGlu receptors potentiate synaptosomal [3H]glutamate release independently of exogenously applied arachidonic acid. 1022 51

Advanced glycation end product (AGE) accumulation in a high glucose (HG) environment is thought to mediate some of the vascular complications of diabetes. Transmembrane signaling of contractile cells is generally inhibited by HG, with implications for systemic and target organ hemodynamics. In the kidney, glomerular mesangial cells grown in HG media are hyporesponsive to the effects of vasoconstrictor agents, possibly explaining the hyperfiltration and increased capillary pressure that eventually lead to diabetic glomerulopathy. To verify whether AGE binding to specific mesangial receptors could mediate these effects of HG, cultured human mesangial cells (HMC) were exposed to in vitro glycated bovine serum albumin (BSA) for 60 min at 37 degrees C before measurement of cytosolic Ca2+ ([Ca2+]i) by microfluorometric techniques in monolayers or single cells. AGE-BSA (2 mg/ml) reduced Ca2+ release from intracellular stores by 1 microM angiotensin II from peak [Ca2+]i levels of 843+/-117 to 390+/-50 nM in monolayers and from 689+/-68 to 291+/-36 nM in individual cells (P < 0.05). Nonglycated BSA and BSA exposed to 250 mM glucose-6-phosphate for 30 d in the presence of 250 mM aminoguanidine (AMGD), an inhibitor of nonenzymatic glycation, had no effect on the angiotensin II-induced [Ca2+]i spike (peak 766+/-104 and 647+/-87 nM, monolayers/ single cells, respectively, P = NS). AGE also inhibited store-operated Ca2+ influx through plasma membrane channels, assessed by addition of 1 to 10 mM extracellular Ca2+ to cells previously held in Ca2(+)-free media (control 339+/- 46/593 +/- 51, +AGE-BSA 236 +/- 25/390 +/- 56, +AMGD 483+/-55/ 374+/-64 nM [Ca2+]i, monolayers/single cells at 10 mM Ca2+, respectively; +AGE-BSA, P < 0.05 versus control). Contrary to HG, AGE-BSA did not translocate protein kinase C isoforms alpha, zeta, and delta to the plasma membrane. Culture of HMC in HG supplemented with 1 mM AMGD prevented downregulation of [Ca2+]i signaling. These data suggest that glycated macromolecules or matrix components may inhibit transmembrane Ca2+ signaling of glomerular cells through binding to a specific AGE receptor, thus mediating some of the known functional effects of HG on the kidney.
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PMID:Effects of advanced glycation end products on cytosolic Ca2+ signaling of cultured human mesangial cells. 1040 3

This study examined whether the prevention of diabetes-related albuminuria by aminoguanidine (AG) or ramipril (RAM) may be mediated by a common post-glomerular basement membrane renal intracellular mechanism involving protein kinase C (PKC). The renal handling of albumin was examined over 24 weeks in control and streptozotocin (STZ)-induced diabetic rats. A radioimmunoassay (RIA) that measures intact albumin, and intravenously injected tritium-labeled rat serum albumin, was used to assess the proportion of intact albumin and albumin fragments in urine. Diabetes was induced in male Sprague-Dawley rats by the intravenous administration of STZ at a dose of 50 mg/kg. Age-matched control rats received buffer alone. Diabetes was characterized by an increase in blood glucose (>15 mmol/l), an increase in GHb (means at 24 weeks 29.3+/-1.1%; control 6.1+/-0.1%, P<0.005), an increase in glomerular filtration rate (GFR) (4.13+/-0.15 ml/min; control 3.54+/-0.19 ml/min, P<0.005), an increase in intact albumin excretion rate (expressed as geometric mean 11.64 times/divided by 2.11 mg/24 h; control 0.74 times/divided by 1.57 mg/24 h, P<0.005) as measured by RIA, and an increase in glomerular PKC activity (26.83+/-2.38 pmol x mg(-1) x min(-1); control 14.6+/-2.99 pmol x mg(-1) x min(-1), P<0.005). Treatment of diabetic rats with either AG or RAM prevented the rise in intact albuminuria and glomerular PKC activity. Renal lysosomal cathepsin activity decreased in diabetic rats and this was not prevented by AG or RAM. Neither drug affected glycemic control or GFR, but RAM reduced systolic blood pressure (BP), whereas AG did not. These data indicate that urinary excretion of intact albumin and albumin-derived fragments in diabetes may be modulated independently of glycemic control (AG and RAM) and systolic BP (RAM). While both drugs are known for their different mechanisms of action, the fact that both prevent diabetes-related increases in glomerular PKC activity and albuminuria supports the hypothesis that PKC plays a central role in the development of diabetic nephropathy.
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PMID:Prevention of albuminuria by aminoguanidine or ramipril in streptozotocin-induced diabetic rats is associated with the normalization of glomerular protein kinase C. 1061 54

In earlier reports and reviews, it was suggested that unlike its methyl ester, the free acid form of the 12-lipoxygenase-derived eicosanoid hepoxilin A3 (HXA3) does not enter neutrophils and other cells. Therefore, in the past, most studies on the biological activities of HXA3 on human neutrophils were conducted with its methyl ester. Here, we present evidence that free HXA3 is biologically active towards human neutrophils at submicromolar concentrations, which may occur under certain circumstances in vivo. Thus, HXA3 caused chemotaxis at concentrations as low as 30-40 nM, an effect which was attenuated at higher concentrations of this eicosanoid. Its chemotactic potency proved to be comparable to that of leukotriene B4, but higher than that of the chemotactic peptide formyl-methionyl-leucyl-phenylalanine (fMLP), and greatly exceeded that of the other 12-lipoxygenase metabolite, 12(S)-hydroxy-5,8,10,14-eicosatetraenoic acid, which was inactive at comparable concentrations. The chemotactic activity of HXA3 was not abolished by serum albumin, but it was suppressed by pertussis toxin. Unlike fMLP, at this concentration range HXA3 did not cause respiratory burst or aggregation of the neutrophils or activation of protein kinase C. These observations suggest a remarkably selective and specific receptor-mediated process. At concentrations higher than 1 microM, HXA3 gives rise to an instantaneous release of calcium from intracellular stores which causes, however, only a slight, if any, liberation of arachidonic acid. On the other hand, pretreatment of the neutrophils with submicromolar concentrations of HXA3 significantly blunts the liberation of arachidonic acid caused by fMLP.
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PMID:Biological actions of the free acid of hepoxilin A3 on human neutrophils. 1064 52

To resist substantial wall shear stress exerted by blood flow metastasizing colon carcinoma cells have to form adhesive contacts with endothelial cells and subendothelial extracellular matrix (ECM). At secondary sites tumor cells have to stabilize these initial adhesive interactions to prevent detachment and recirculation. Previously we found that adhesion of colon carcinoma cells to ECM components under static conditions is mediated, in part, by various beta1-integrins. Since other malignant cells possess adhesive properties that are different under static and dynamic conditions, we analyzed human colon carcinoma cell adhesion under flow by decreasing the flow (wall shear stress, WSS) of cell suspensions and allowing cells to interact with collagen-coated surfaces in a laminar flow chamber. HT-29 colon carcinoma cells were used to study wall shear adhesion threshold (WSAT), dynamic adhesion rate (DAR) and adhesion stabilization rate (ASR). DAR was determined after a low flow period using a WSS set at 50% of WSAT. ASR was calculated 60 sec after reestablishment of high WSS. Glass slides were coated with collagen I (C I) or bovine serum albumin (BSA, negative control). In some experiments cells were pretreated with function-blocking anti-beta1 or nonspecific IgG. Rolling of cells occurred on C I- and BSA-coated surfaces at high WSS. By decreasing WSS cell sticking without definite adhesion was found, and cells stuck to BSA at WSS lower than that found for C I. Further decreasing WSS below WSAT enabled stable cell adhesion to C I, but only a few cells adhered to BSA. ASR was found to be 73% of primarily adherent cells (to C I). Pretreatment with anti-beta1 did not affect cell rolling but did inhibit cell sticking and adhesion completely, whereas nonspecific IgG was without effect. Activation of PKC using phorbol ester resulted in an increase of adhesive interactions under dynamic and static conditions, whereas its inhibition reduced adhesion. Adhesive interactions of HT-29 colon carcinoma cells with ECM-coated surfaces under laminar flow conditions occurred in various steps: (1) rolling, (2) sticking or initial adhesion, and (3) stabilization of adhesion. Under shear flow rolling of tumor cells on ECM-coated surfaces appeared to be mediated mainly by physical/mechanical and nonspecific surface-cell membrane interactions, whereas stabilized adhesion to ECM was specifically mediated by beta1-integrin binding to ECM components. PKC seems to be involved in the regulation of adhesion stabilization under static and flow conditions.
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PMID:Beta1-integrin-mediated dynamic adhesion of colon carcinoma cells to extracellular matrix under laminar flow. 1065 4

We studied the role of gastrin in regulating cholangiocyte proliferation induced by bile duct ligation (BDL). In purified cholangiocytes, we evaluated (1) for the presence of cholecystokinin-B (CCK-B)/gastrin receptors, (2) the effect of gastrin on D-myo-Inositol 1,4,5-triphosphate (IP(3)) levels, and (3) the effect of gastrin on DNA synthesis and adenosine 3', 5'-monophosphate (cAMP) levels in the absence or presence of CCK-A (L-364,718) and CCK-B/gastrin (L-365,260) receptor inhibitors, 1, 2-bis(2-aminophenoxy)-ethane-N,N,N',N'-tetraacetic acid tetrakis(acetxymethyl ester) (BAPTA/AM; an intracellular Ca(2+) chelator), and 2 protein kinase C (PKC) inhibitors, 1-(5-Isoquinolinylsulfonyl)-2-methylpiperazine (H7) and staurosporin. To evaluate if gastrin effects on cholangiocyte proliferation are mediated by the isoform PKCalpha, we evaluated (1) for the presence of PKCalpha in cholangiocytes and (2) the effect of gastrin on the PKCalpha protein expression in a triton-soluble (containing cytoplasm + membrane) and a triton-insoluble (containing cytoskeleton) fraction. To evaluate the effects of gastrin in vivo, immediately following BDL, gastrin or bovine serum albumin (BSA) was infused by minipumps for 7 days to rats and we measured cholangiocyte growth and cAMP levels. We found CCK-B/gastrin receptors on cholangiocytes. Gastrin increased IP(3) levels. Gastrin inhibited DNA synthesis and cAMP synthesis in cholangiocytes. Gastrin effects on cholangiocyte functions were blocked by L-365,260, BAPTA/AM, H7, and staurosporin but not by L-364,718. Gastrin induced translocation of PKCalpha from cholangiocyte cytoskeleton to membrane. In vivo, gastrin decreased cholangiocyte growth and cAMP synthesis compared with controls. We concluded that gastrin inhibits cholangiocyte growth in BDL rats by interacting with CCK-B/gastrin receptors through a signal transduction pathway involving IP(3), Ca(2+), and PKCalpha.
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PMID:Gastrin inhibits cholangiocyte growth in bile duct-ligated rats by interaction with cholecystokinin-B/Gastrin receptors via D-myo-inositol 1,4,5-triphosphate-, Ca(2+)-, and protein kinase C alpha-dependent mechanisms. 1086 84

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