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)

An immunohistochemical study concerning the distribution of protein kinase C isoforms, a lipid-regulated serine/threonine kinase essential for signal transduction, was performed in mice cerebellar cortex, with particular emphasis on the localization of -iota and -lambda isozymes. By the means of immunoblotting analyses we detected the presence of 11 PKC subspecies in whole cerebellar extracts. Immunoreactivity on cryostat sections revealed, using polyclonal and monoclonal antibodies, that a few isoforms were widely but discretely distributed in all three cortical layers (molecular, granular and Purkinje cells) whereas other isozymes were present in a limited neuronal compartment. Overall, the distribution of several isoforms was in agreement with data obtained by other authors using rat cerebellum. As far as -iota and -lambda isozymes were concerned, we found them abundantly expressed in endothelial cells. Moreover, protein kinase C-lambda was also present in the body of Purkinje cell, conceivably associated with a 200-kDa neurofilament component. In all, these results hint at the possibility that in the cerebellar cortex at least some protein kinase C isoforms are involved in functions other than signal transduction at the synaptic level.
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PMID:Selective distribution of multiple protein kinase C isoforms in mouse cerebellar cortex. 900 87

The protein kinase C (PKC) family of serine/threonine kinase isoenzymes are universally expressed in vertebrate tissues where they control vital cellular functioning. PKC comprises twelve currently identified mammalian isoenzymes, described in three distinct groups according to their need for different effector stimulation. Immunological localisation studies in various vertebrate retinas have indicated the presence, so far, of eight of the PKC subspecies, each with a unique cellular distribution in this tissue. Use of these immunological probing techniques with antibodies raised to the individual PKC family members by immunohistochemistry and western blotting, along with biochemical tools such as the potent activators, the tumour-promoting phorbol esters can hopefully lead to elucidation of the roles of these enzymes in the neural retina. Research work to date has pinpointed a number of roles for PKC in this tissue including control of dopamine release, modulation of glutamate receptor function (probably by a process of direct receptor phosphorylation), phosphorylatory modulation of GABAC-receptor function, an involvement in the retinal ischaemic cascade process (the relevance of which is unknown as yet), involvement in control of cytoskeletal interactions by cytoskeletal element-kinase action and feedback control of enzymes involved in the process of inositol phosphate signalling. PKC has been shown to have an important regulatory role in the process of phototransduction: many of the enzymes and proteins making up the phototransduction cascade act as in vitro and in vivo substrates for PKC-dependent phosphorylation and can have their normal function modified in this way. Also, PKC has been implicated in the control of spinule formation in the retina, a process involved in retinal synaptic plasticity and functioning. All of this work has been described, herein. Collation and utilisation of knowledge of all of the work described here may help us to determine the exact roles for individual isoenzymes in the retina. This in turn may help us to understand and further to prevent pathological conditions leading to inappropriate retinal functioning and possible blindness. Furthermore, understanding the roles of PKC in the neural retina may lead us to vital clues in the understanding of the functioning of this important group of enzymes in the nervous system as a whole and eventually to the prevention of many major neuropathological disorders.
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PMID:Retinal protein kinase C. 901 60

Protein kinase C is a serine/threonine kinase protein, which consists of 12 isoforms. Among these isoforms, PKC eta is known to play an important role in epithelial differentiation. The present study was conducted to examine the possibility that the introduction of these genes causes growth suppression of squamous cell carcinoma. It was found that adenovirus vectors containing cDNA of PKC eta suppresses the cell growth of human oral mucosal keratinocytes and activates transglutaminase 1, a key enzyme of squamous cell differentiation. In an oral squamous cell carcinoma cell line, overexpression of this isoform did not suppress the growth, but TPA treatment resulted in suppression of cell proliferation. A dominant negative form of PKC eta did not suppress the growth of carcinoma cell lines even with TPA-treatment. Human fibroblasts showed no response to TPA-treatment. The same result was shown with PKC delta. The results of this study suggested the possibility of using PKC isoforms for gene therapy.
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PMID:[Growth suppression of squamous cell carcinoma cell lines by PKCs--possible application to gene therapy]. 912 50

The CD28 cytoplasmic tail contains several potential phosphorylation sites for the serine/threonine kinase protein kinase C (PKC) and/or proline-directed serine/threonine kinases, such as extracellular signal-regulated kinases. We demonstrate that ligation of CD28 by B7.1 results in strong serine/threonine phosphorylation of CD28. It is unlikely that ligation-stimulated phosphorylation of CD28 is mediated via activation of PKC, since it was not prevented by pre-treatment of Jurkat cells with inhibitors of PKC, and it was not mimicked by treatment with PKC activators such as PMA. Nevertheless, despite for lack of detectable effects of PMA treatment on CD28 phosphorylation, PMA did partially inhibit the association of CD28 with the putative signalling molecule phosphatidylinositol 3-kinase (PI 3-kinase) and the subsequent accumulation of PtdIns(3,4,5)P3. PI 3-kinase exhibits dual specificity as both a lipid kinase and a protein serine kinase, and site-specific mutagenesis of the Tyr173 residue in the CD28 cytoplasmic tail, which abolishes CD28 coupling to PI 3-kinase [Pages, Ragueneau, Rottapel, Truneh, Nunes, Imbert and Olive (1994) Nature (London) 369, 327-329], also prevents ligation-stimulated phosphorylation of CD28. However, the two PI 3-kinase inhibitors wortmannin and LY294002 had no effect on phosphorylation of CD28 after ligation by B7.1. This study therefore demonstrates that (1) a CD28-activated serine/threonine kinase distinct from both PKC and PI 3-kinase mediates ligation-stimulated CD28 phosphorylation, and (2) the PMA-stimulated down-regulation of the coupling of CD28 to PI 3-kinase is not due to PMA-stimulated phosphorylation of CD28.
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PMID:Evidence that a kinase distinct from protein kinase C and phosphatidylinositol 3-kinase mediates ligation-dependent serine/threonine phosphorylation of the T-lymphocyte co-stimulatory molecule CD28. 933 76

Alzheimer's beta-amyloid peptide (A beta) is normally present at nanomolar concentrations in body fluids and in the medium of cultured cells. In vitro experiments have shown that A beta has neurotrophic effects and can promote neuronal adhesion and elongation of axon-like processes. In an attempt to understand the molecular mechanisms underlying such effects, we have recently reported that nanomolar doses of A beta can stimulate protein tyrosine phosphorylation and activate phosphatidylinositol-3-kinase in neuronal cells. Here we show evidence that A beta can also activate protein kinase C, a serine/threonine kinase, in PC12 cells. First, using a serine-containing S6 peptide as an exogenous substrate, we found that nanomolar levels of A beta peptides 1-40 or 1-42 significantly stimulated an S6 phosphorylating kinase activity, whereas the A beta40-1 reverse sequence peptide had no effect. Down-regulation of PKC by prolonged (18 h) treatment with 1 microM PMA prevented the A beta-induced S6 phosphorylation. Using a more specific PKC substrate, N-terminal acetylated peptide (4-14) from myelin basic protein, we then demonstrated that A beta indeed increased PKC activity and that this activity could be blocked by the PKC inhibitor, staurosporine. Finally, immunoblotting experiments showed that A beta induced translocation of PKCgamma from cytosol to membrane and also significantly reduced cytosolic PKCalpha levels. Taken together, these data suggest that physiological levels of A beta can regulate PKC activity.
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PMID:Physiological levels of beta-amyloid peptide stimulate protein kinase C in PC12 cells. 937 97

Caveolin, a 21-24-kDa integral membrane protein, is a principal component of caveolae membranes. We and others have suggested that caveolin functions as a scaffolding protein to organize and concentrate certain caveolin-interacting signaling molecules within caveolae membranes. In this regard, it has been shown that a 20-amino acid membrane-proximal region of the cytosolic NH2-terminal domain of caveolin is sufficient to mediate the interaction of caveolin with signaling proteins, namely G-proteins, Src-like kinases, eNOS, and H-Ras. This caveolin-derived protein domain has been termed the caveolin-scaffolding domain. Binding of the caveolin-scaffolding domain functionally suppresses the activity of G-protein alpha subunits, eNOS, and Src-like kinases, suggesting that caveolin binding may also play a negative regulatory role in signal transduction. Here, we report the direct interaction of caveolin with a growth factor receptor, EGF-R, a known caveolae-associated receptor tyrosine kinase. Two consensus caveolin binding motifs have been previously defined using phage display technology. One of these motifs is present within the conserved kinase domains of most known receptor tyrosine kinases (termed region IX). We now show that this caveolin binding motif within the kinase domain of the EGF-R can mediate the interaction of the EGF-R with the scaffolding domains of caveolins 1 and 3 but not with caveolin 2. In addition, the scaffolding domains of caveolins 1 and 3 both functionally inhibit the autophosphorylation of the EGF-R kinase in vitro. Importantly, this caveolin-mediated inhibition of the EGF-R kinase could be prevented by the addition of an EGF-R-derived peptide that (i) contains a well conserved caveolin binding motif and (ii) is located within the kinase domain of the EGF-R and most known receptor tyrosine kinases. Similar results were obtained with protein kinase C, a serine/threonine kinase, suggesting that caveolin may function as a general kinase inhibitor. The implications of our results are discussed within the context of caveolae-mediated signal transduction. In this regard, caveolae-coupled signaling might explain how linear signaling pathways can branch and interconnect extensively, forming a signaling module or network.
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PMID:Interaction of a receptor tyrosine kinase, EGF-R, with caveolins. Caveolin binding negatively regulates tyrosine and serine/threonine kinase activities. 937 34

The tumor-promoting phorbol ester, phorbol 12-myristate 13-acetate (PMA), acutely stimulates the tyrosine phosphorylation of proteins of approximately 190, 120, and 70 kDa in the well differentiated Fao rat hepatoma cell line. This phosphorylation is dependent on protein kinase C (PKC) and is abolished by down-regulation of PKC or pretreatment with a PKC inhibitor. Purification of the 190-kDa tyrosine-phosphorylated protein revealed that it consists of both ErbB2 and ErbB3. Following PMA-induced tyrosine phosphorylation, ErbB2 and ErbB3 were able to associate with the SH2 domains of several signaling proteins including the p85alpha subunit of phosphatidylinositol 3-kinase, Syp, and Grb2. The 120-kDa protein phosphorylated in response to PMA consists of at least two proteins: focal adhesion kinase that exhibits a minor increase in tyrosine phosphorylation following treatment with PMA, and a major 120-kDa tyrosine-phosphorylated species in PMA-stimulated Fao cells which as yet is unidentified. Similarly, the 70-kDa tyrosine-phosphorylated protein also appears to represent more than one protein, including paxillin and a second protein of similar mobility which appears to be the major tyrosine phosphorylation in response to PMA. Both ErbB2 and paxillin also exhibit reduced migration on SDS-polyacrylamide gel electrophoresis following PMA treatment, suggesting that they are also phosphorylated on serine/threonine residues. The mobility shift of both of these proteins is abolished by treatment with inhibitors of PKC or mitogen-activated protein kinase/extracellular signal-related kinase kinase. These results suggest a novel mechanism of cross-talk between the serine/threonine kinase PKC and tyrosine phosphorylation pathways. The activation of ErbB2 and ErbB3 that is initiated by PMA may contribute to the tumor promoting activity of these compounds.
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PMID:Cross-talk between phorbol ester-mediated signaling and tyrosine kinase proto-oncogenes. I. Activation of protein kinase C stimulates tyrosine phosphorylation and activation of ErbB2 and ErbB3. 938 71

Embryonic astrocytes respond readily to serine/threonine kinase regulation in terms of cytoskeleton assembly, mitotic activity, and cell fate. We now present evidence that these responses include apoptosis. Staurosporine induced apoptosis in astrocyte cultures derived from chick embryo cerebral hemispheres, as assayed both by immunocytochemical detection of new 3-hydroxy DNA ends and production of 200-bp DNA fragment laddering. Staurosporine treatment also resulted in the prolonged (>24 h) activation of a 60-kDa serine/threonine protein kinase (PK60), increased ceramide formation (fourfold after 24 h), increased glutamine synthetase activity, and significant apoptosis (40%) after 24 h. PK60 was shown to be cytoskeleton associated and its activity, as measured by phosphorylation of myelin basic protein, was rapid, increased for up to 3 h, and was stable for at least 24 h. Other protein kinase C inhibitors, H8, sphingosine, calphostin C, or the protein kinase A inhibitor KT5720 did not induce either PK60 activation or apoptosis. The dose-dependent increase in [3H]palmitate labeling of ceramide and a specific decrease in labeling of its precursor sphingomyelin were not blocked by the biosynthetic inhibitor fumonisin beta1 but were increased (in a dose-dependent manner) by the coaddition of the ceramidase inhibitor oleoylethanolamine. Exogenous addition of C2-ceramide induced apoptosis but did not activate PK60. These results suggest that apoptosis in embryonic astrocytes involves pathways similar to those described in other cell types and that the activation of PK60 and formation of ceramide are early events in the pathway.
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PMID:Programmed cell death in cortical chick embryo astrocytes is associated with activation of protein kinase PK60 and ceramide formation. 942 55

Transcriptional activation and stabilization of p53 is a major response of mammalian cells to U.V.-light induced genetic damages, and possibly responsible for cell damage control. We have studied here by gel mobility shift and immunoblotting assays the activation and accumulation of p53 by U.V.C. and its dependency on cell cycle, protein synthesis and protein phosphorylation. In G0/G1 synchronized cells U.V.C.-induced p53 DNA-binding activity, but not its accumulation, whereas both events took place in G1/S and S-phase cells. The kinetics of p53 activation by U.V.C. were slow requiring at least 1 h and slowly increasing thereafter with full activation observed at 6 h. Treatment of cells with cycloheximide (CHX) prevented the activation of p53 in all phases of the cell cycle and its accumulation in G1/S and S. However, removing CHX-block allowed full activation and accumulation of p53 with fast kinetics even if 4 h had lapsed since the initial U.V.C. insult. This suggests that the protein synthesis-dependent signal initiating p53 activation by U.V.C. remains continuous in the cells. The requirement of protein phosphorylation as mediator of p53 activation by U.V.C. was studied by using chemical protein kinase inhibitors. Of the tested inhibitors, only staurosporine, a known inhibitor of protein kinase C (PKC) and various other kinases, inhibited both p53 activation and accumulation, whereas specific PKC inhibitors, tyrosine kinase inhibitors and a serine/threonine kinase inhibitor did not. PKC-mediation of the p53 U.V.-response was further ruled out by the reactivity of the activated p53 to C-terminal antibody PAb 421. Kinetic studies showed that staurosporine-mediated inhibition of p53 function is an early event in cell damage response. Thus dual, kinetically different events, de novo protein synthesis and staurosporine-inhibited protein phosphorylation are required for p53 activation and accumulation in all phases of the cell cycle. Notably, in the absence of U.V.-induced accumulation in G0/G1 cells, p53 activation is still subject to inhibition of protein synthesis.
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PMID:U.V.C.-induction of p53 activation and accumulation is dependent on cell cycle and pathways involving protein synthesis and phosphorylation. 948 35

Insulin regulates the expression of multiple hepatic genes through a conserved insulin response sequence (IRS) (CAAAAC/TAA) by an as yet undetermined mechanism. Protein kinase B/Akt (PKB/Akt), a member of the PKA/PKC serine/threonine kinase family, functions downstream from phosphatidylinositol 3'-kinase (PI3K) in mediating effects of insulin on glucose transport and glycogen synthesis. We asked whether PKB/Akt mediates sequence-specific effects of insulin on hepatic gene expression using the model of the insulin-like growth factor binding protein-1 (IGFBP-1) promoter. Insulin lowers IGFBP-1 mRNA levels, inhibits IGFBP-1 promoter activity, and activates PKB/Akt in HepG2 hepatoma cells through a PI3K-dependent, rapamycin-insensitive mechanism. Constitutively active PI3K and PKB/Akt are each sufficient to mediate effects of insulin on the IGFBP-1 promoter in a nonadditive fashion. Dominant negative K179 PKB/Akt disrupts the ability of insulin and PI3K to activate PKB/Akt and to inhibit promoter activity. The IGFBP-1 promoter contains two IRSs each of which is sufficient to mediate sequence-specific effects of insulin, PI3K, and PKB/Akt on promoter activity. Highly related IRSs from the phosphoenolpyruvate carboxykinase and apolipoprotein CIII genes also are effective in this setting. These results indicate that PKB/Akt functions downstream from PI3K in mediating sequence-specific effects of insulin on the expression of IGFBP-1 and perhaps multiple hepatic genes through a conserved IRS.
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PMID:Protein kinase B/Akt mediates effects of insulin on hepatic insulin-like growth factor-binding protein-1 gene expression through a conserved insulin response sequence. 949 82


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