Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Heat shock proteins play central roles in ensuring the correct folding and maturation of cellular proteins. Here we show that the heat shock protein Hsp70 has a novel role in prolonging the lifetime of activated protein kinase C. We identified Hsp70 in a screen for binding partners for the carboxyl terminus of protein kinase C. Co-immunoprecipitation experiments revealed that Hsp70 specifically binds the unphosphorylated turn motif (Thr(641) in protein kinase C beta II), one of three priming sites phosphorylated during the maturation of protein kinase C family members. The interaction of Hsp70 with protein kinase C can be abolished in vivo by co-expression of fusion proteins encoding the carboxyl terminus of protein kinase C or the carboxyl terminus of Hsp70. Pulse-chase experiments reveal that Hsp70 does not regulate the maturation of protein kinase C: the rate of processing by phosphorylation is the same in the presence or absence of disrupting constructs. Rather, Hsp70 prolongs the lifetime of mature protein kinase C; disruption of the interaction promotes the accumulation of matured and then dephosphorylated protein kinase C in the detergent-insoluble fraction of cells. Furthermore, studies with K562 cells reveal that disruption of the interaction with Hsp70 slows the protein kinase C beta II-mediated recovery of cells from PMA-induced growth arrest. Last, we show that other members of the AGC superfamily (Akt/protein kinase B and protein kinase A) also bind Hsp70 via their unphosphorylated turn motifs. Our data are consistent with a model in which Hsp70 binds the dephosphorylated carboxyl terminus of mature protein kinase C, thus stabilizing the protein and allowing re-phosphorylation of the enzyme. Disruption of this interaction prevents re-phosphorylation and targets the enzyme for down-regulation.
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PMID:The turn motif is a phosphorylation switch that regulates the binding of Hsp70 to protein kinase C. 1208 70

Aldosterone increases Na(+),K(+)-adenosine triphophatase (Na(+),K(+)-ATPase) pump activity and abundance under chronic conditions in several tissues, including rat arterial vessels. The present study was undertaken to evaluate whether aldosterone has also short-term effects on the Na(+),K(+)-ATPase of rat aorta. The pump function was measured as ouabain-sensitive (86)Rb/K uptake in aortic rings. Addition of aldosterone induced a rapid inhibition of the Na(+),K(+)-ATPase (57.0 +/- 2.3% of control values; P < 0.05; n = 8), followed by a return to control values after 120 min. The aldosterone-induced decrease in ouabain-sensitive (86)Rb/K uptake was prevented by the new mineralocorticoid receptor antagonist eplerenone. The inhibition of gene transcription (actinomycin D) or protein synthesis (cycloheximide) had no effect on short-term aldosterone action on Na(+),K(+)-ATPase. The rapid aldosterone inhibition was also observed in the presence of monensin, a sodium-specific ionophore. Rapamycin, an immunosuppressive drug that stabilizes the heat shock protein-steroid receptor complex, blocked the rapid aldosterone effect. Bisindole I, an inhibitor of protein kinase C, also blocked nongenomic action of aldosterone on the Na pump. The nongenomic effect of aldosterone was inhibited by disrupters of microtubule (colchicine). Plasma membrane protein biotinylation of aortic segments and Western blot indicated a diminished presence of catalytic isoforms of Na(+),K(+)-ATPase on the cell surface. Our findings indicate that aldosterone has a nongenomic effect on the Na(+),K(+)-ATPase of vascular tissue. This effect is mediated through protein kinase C activation and implies reduced cell surface abundance of catalytic subunits. These observations together with our previous report on chronic hormone replacement suggest that aldosterone is directly involved in ionic cellular homeostasis of the vascular system through Na pump regulation.
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PMID:Nongenomic effect of aldosterone on Na+,K+-adenosine triphosphatase in arterial vessels. 1263 9

There is evidence that the myocytes produce dynorphin and dynorphin-like peptides, which are kappa opioid receptor (kappa-OR) agonists. Activation of kappa-OR, a dominant opioid receptor in the heart, alters the cardiac function in vivo and in vitro. The observations suggest that the endogenous kappa-opioid peptides may act as autocrines or paracrine in regulation of cardiac functions. Myocardial ischemia is a common cause of heart disorders, which is manifested in decreased myocardial performance, arrhythmia and infarct. When myocardial ischemia occurs, the sympathetic discharge increases, which in turn increases the work-load and oxygen consumption. This exacerbates the situation induced by ischemia. One of the mechanisms with which the body protects against ischemia-induced injury/arrhythmia is inhibition of stimulation of beta-adrenoceptor (beta-AR), the receptor mediating the actions of sympathetic stimulation. kappa-Opioids inhibit the beta-AR activation. The inhibition of the beta-AR activation is due to inhibition of Gs-protein and to a lesser extent the adenylyl cyclase of the signaling pathway mediating beta-AR stimulation by a pertussis sensitive G-protein that mediates kappa-OR activation. Another mechanism against ischemia-induced injury is preconditioning, which is defined as prior exposures to ischemia or other insults make the heart more tolerant to subsequent and more severe insults. Protection occurs immediately or 1-3 days after preconditioning. kappa-OR mediates protection of preconditioning with ischemia or metabolic inhibition, one of the consequences of ischemia, in the heart. Activation of kappa-OR by U50488H, a selective kappa-OR agonist (pharmacological preconditioning with U50488H, UP), activates protein kinase C (PKC), opens K(ATP) channels and increases the production of heat shock proteins. Blockade of PKC, or closing of the K(ATP) channels or inhibition of the synthesis of the heat shock protein abolishes the cardioprotection of UP. The findings indicate the important roles of PKC, the K(ATP) channels and the heat shock protein in cardioprotection of UP. In addition, UP also attenuates the Ca(2+) overload, a precipitating cause of cardiac injury, induced by ischemic insults, indicating that UP may confer cardioprotection via at least partly attenuating the Ca(2+) overload. Most interestingly, blockade of the K(ATP) channels with channel blockers, that abolishes the delayed cardioprotection of UP, also attenuates the inhibitory effect of UP on Ca(2+) overload, suggesting that the cardioprotective effect of opening of the K(ATP) channels may be due at least partly to the prevention/attenuation of Ca(2+) overload.
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PMID:Roles of kappa opioid receptors in cardioprotection against ischemia: the signaling mechanisms. 1271 97

Esophageal (ESO) circular muscle contraction and lower esophageal sphincter (LES) tone are PKC dependent. Because MAPKs may be involved in PKC-dependent contraction, we examined ERK1/ERK2 and p38 MAPKs in ESO and LES. In permeabilized LES muscle cells, ERK1/2 antibodies reduced 1,2-dioctanoylglycerol (DG)- and threshold ACh-induced contraction, which are PKC dependent, but not maximal ACh, which is calmodulin dependent. LES tone was reduced by the ERK1/2 kinase inhibitor PD-98059 and by the p38 MAPK inhibitor SB-203580. In permeable ESO cells, ACh contraction was reduced by ERK1/ERK2 and p38 MAPK antibodies and by PD-98059 and SB-203580. ACh increased MAPK activity and phosphorylation of MAPK and of p38 MAPK. The 27-kDa heat shock protein (HSP27) antibodies reduced ACh contraction. HSP27 and p38 MAPK antibodies together caused no greater inhibition than either one alone. p38 MAPK and HSP27 coprecipitated after ACh stimulation, suggesting that HSP27 is linked to p38 MAPK. These data suggest that PKC-dependent contraction in ESO and LES is mediated by the following two distinct MAPK pathways: ERK1/2 and HSP27-linked p38 MAPK.
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PMID:MAPK mediates PKC-dependent contraction of cat esophageal and lower esophageal sphincter circular smooth muscle. 1279 9

Soluble 60 kDa heat shock protein (HSP60) activates macrophages via TLR4. We now report that soluble HSP60 activates T cells via the innate receptor TLR2. HSP60 activated T cell adhesion to fibronectin to a degree similar to other activators: IL-2, SDF-1alpha, and RANTES. T cell type and state of activation was important; nonactivated CD45RA+ and IL-2-activated CD45RO+ T cells responded optimally (1 h) at low concentrations (0.1-1 ng/ml), but nonactivated CD45RO+ T cells required higher concentrations (approximately 1 microg/ml) of HSP60. T cell HSP60 signaling was inhibited specifically by monoclonal antibodies (mAb) to TLR2 but not by a mAb to TLR4. Indeed, T cells from mice with mutated TLR4 could still respond to HSP60, whereas Chinese hamster T cells with mutated TLR2 did not respond. The human T cell response to soluble HSP60 depended on phosphatidylinositol 3-kinase and protein kinase C signaling and involved the phosphorylation of Pyk-2. Soluble HSP60 also inhibited actin polymerization and T cell chemotaxis through extracellular matrix-like gels toward the chemokines SDF-1alpha (CXCL12) or ELC (CCL19). Exposure to HSP60 for longer times (18 h) down-regulated chemokine receptor expression: CXCR4 and CCR7. These results suggest that soluble HSP60, through TLR2-dependent interactions, can regulate T cell behavior in inflammation.
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PMID:T cells respond to heat shock protein 60 via TLR2: activation of adhesion and inhibition of chemokine receptors. 2959 92

Ischemic preconditioning protects the kidney from subsequent ischemic injury but the signal transduction pathways involved are unknown. Human proximal tubular (HK-2) cells were protected from injury with 2.5 mM H(2)O(2) by preconditioning with a single 15-min exposure to 500 microM H(2)O(2) followed by 16 h of recovery (oxidant preconditioning). To identify the signaling pathways involved in oxidant preconditioning, we utilized inhibitors of several signaling intermediates (MAPK/ERK kinase I, p38 mitogen-activated protein kinase (MAPK), protein kinase C and tyrosine kinase). A rapid but transient increase in p38 MAPK was observed following oxidant preconditioning and an inhibitor of p38 MAPK (SB203580) abolished the protection provided by oxidant preconditioning. Oxidant preconditioning was also associated with heat shock protein-27 phosphorylation (by p38 MAPK) and an increased synthesis of heme oxygenase-1 (HO-1). Stimulation or inhibition of HO-1 with hemin or Zn(II) protoporphyrin IX, respectively, mimicked or abolished oxidant preconditioning-mediated cytoprotection. Inhibitors of new protein synthesis (cycloheximide) and gene transcription (actinomycin D) also blocked the cytoprotection by oxidant preconditioning. We conclude that oxidant preconditioning protects HK-2 cells against more severe oxidant injury via activation of signaling pathways that include p38 MAPK and increased synthesis of HO-1.
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PMID:Oxidant preconditioning protects human proximal tubular cells against lethal oxidant injury via p38 MAPK and heme oxygenase-1. 1291 76

We have previously demonstrated that bisphenol A (BPA)- and beta-estradiol (E2)-induced increases in uterine weight and heat shock protein (hsp) 90alpha and hsp72 levels are mediated through the estrogen receptor (ER). It is not, however, clear if BPA and E2 regulation of hsps is at the transcriptional or post-transcriptional level. Therefore, in this study we examined the ability of BPA and E2 to increase uterine weight and regulate transcription of these hsps and of heat shock factor (HSF)-1 in ovariectomized B6C3F1 mice at 6 or 24 h after a single subcutaneous injection of E2 (1 microg/kg) or BPA (100 mg/kg). The role of the ER and protein kinase C (PKC) in these E2 and BPA effects was evaluated by co-administration of the antiestrogen ICI 182,780 (5 mg/kg) or the PKC inhibitor GF 109203X (0.5 mg/kg), respectively. The results demonstrated ER involvement in uterine weight increases. Uterine hsp mRNA levels are increased by E2 and BPA through a direct effect on their transcription and/or, in the case of E2, through an increase in HSF-1 mRNA. PKC is involved in the BPA-induced increases in hsp90alpha mRNA levels. We conclude that E2 and BPA regulate hsp90alpha and hsp72alpha transcription via similar and distinct pathways.
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PMID:Regulation of uterine hsp90alpha, hsp72 and HSF-1 transcription in B6C3F1 mice by beta-estradiol and bisphenol A: involvement of the estrogen receptor and protein kinase C. 1292 69

Previous studies have suggested that protein kinase C (PKC) is involved in heat shock protein (Hsp)-mediated cardioprotection. Therefore, we wanted to determine whether overexpression of Hsps modulates PKC expression, which will give us further insight into understanding the mechanism by which Hsps and PKC interact to protect cells from stress-induced injury. Specifically, we overexpressed the inducible form of Hsp70 (Hsp70i) or Hsp90 in rat neonatal cardiomyocytes and evaluated PKCdelta or PKCepsilon expression by immunoblotting and immunofluorescent confocal microscopy. Western analysis showed that overexpression of Hsp70i or Hsp90 decreased PKCepsilon expression. However, overexpression of Hsp70i or Hsp90 did not modify PKCdelta expression over control levels. Overexpression of constitutively active PKCdelta or PKCepsilon increased Hsp70i expression over control levels. The data suggest that overexpression of Hsps differentially modulates expression of PKC isoforms in rat neonatal cardiomyocytes. Furthermore, PKC may directly play a role in Hsp-mediated cardioprotection by upregulating Hsp70i expression.
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PMID:Overexpression of heat shock proteins differentially modulates protein kinase C expression in rat neonatal cardiomyocytes. 1511 81

Encysted embryos of Artemia franciscana are exceptionally resistant to stress and an important part of this tolerance involves p26, a small heat shock protein which functions as a molecular chaperone. Cloning and sequencing of randomly selected p26 cDNAs produced by RT-PCR with poly(A)(+) mRNA from encysted embryos as template yielded 10 clones encoding identical polypeptides. The noncoding nucleotide sequences extending from the termination codon to the poly(A) tail of each clone were also identical. These data indicated a single p26 gene is expressed during embryo development. However, two-dimensional gel electrophoresis showed that purified p26 consisted of four isoforms, providing evidence for posttranslational modification of the protein, a possibility supported by mass spectrometry and immunoprobing of Western blots. The major isoform observed in two-dimensional gels, termed a, is the primary gene product, whereas isoform c is phosphorylated at serine 50, a residue located in a protein kinase C reactive site. Isoforms b and d were generated posttranslationally, but by unknown processes. The results represent the first description of posttranslationally modified small heat shock proteins in crustaceans and they expand the phylogenetic range of organisms that possess phosphorylated isoforms of these proteins. At least two small heat shock proteins from other organisms contain serine residues equivalent in position to serine 50 of p26, but neither is phosphorylated.
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PMID:A small heat shock protein from Artemia franciscana is phosphorylated at serine 50. 1521 Jan 27

PKC-delta is believed to play an essential role in cardiomyocyte growth. In the present study, we investigated the effect of PKC-delta on cardiac metabolism using PKC-delta knockout mice generated in our laboratories. Proteomic analysis of heart protein extracts revealed profound changes in enzymes related to energy metabolism: certain isoforms of glycolytic enzymes, e.g., lactate dehydrogenase and pyruvate kinase, were absent or decreased, whereas several enzymes involved in lipid metabolism, e.g., phosphorylated isoforms of acyl-CoA dehydrogenases, showed a marked increase in PKC-delta(-/-) hearts. Moreover, PKC-delta deficiency was associated with changes in antioxidants, namely, 1-Cys peroxiredoxin and selenium-binding protein 1, and posttranslational modifications of chaperones involved in cytoskeleton regulation, such as heat shock protein (HSP)20, HSP27, and the zeta-subunit of the cytosolic chaperone containing the T-complex polypeptide 1. High-resolution NMR analysis of cardiac metabolites confirmed a significant decrease in the ratio of glycolytic end products (alanine + lactate) to end products of lipid metabolism (acetate) in PKC-delta(-/-) hearts. Taken together, our data demonstrate that loss of PKC-delta causes a shift from glucose to lipid metabolism in murine hearts, and we provide a detailed description of the enzymatic changes on a proteomic level. The consequences of these metabolic alterations on sensitivity to myocardial ischemia are further explored in the accompanyingpaper (20).
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PMID:Loss of PKC-delta alters cardiac metabolism. 1527 8


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