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)

Activation of protein kinase C (PKC) is regulated by dual second messengers; diacylglycerol (DG) produced by receptor mediated hydrolysis of phosphatidylinositol and Ca2+ which is released by inositol 1,4,5-triphosphate (IP3) from intracellular stores in the endoplasmic reticulum. In the mammalian central nervous system, available evidence suggests that PKC plays a prominent role in the processing of neuronal signals and in the short-term or long-term modulation of synaptic transmission. This enzyme is a member of a family consisting of at least eight subspecies, alpha, beta I, beta II, gamma, delta, epsilon, zeta and eta. The homologous structure of each subspecies makes difficult resolution of the enzymological properties of the enzyme. The distinct functional roles of PKC subspecies in mammalian tissues have been elucidated by defining the localization of each subspecies. We identified alpha-, beta I-, beta II- and gamma-PKC subspecies in the rat brain by in situ hybridization and by light and electron microscopic immunohistochemistry, using antibodies specific for each subspecies. Most immunoreactions of the alpha, beta I, beta II and gamma subspecies were evident in neurons and there were few, if any, in glial cells. In this article, we summarize known cellular and subcellular localizations of PKC subspecies in mammalian CNS and some aspects of current studies in neuronal functions regulated by this enzyme are discussed.
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PMID:Localization of subspecies of protein kinase C in the mammalian central nervous system. 130 31

Gamma-aminobutyric acid Type A (GABAA) receptors are the major sites of synaptic inhibition in the central nervous system. These receptors are thought to be pentameric complexes of homologous transmembrane glycoproteins. Molecular cloning has revealed a multiplicity of different GABAA receptor subunits divided into five classes, alpha, beta, gamma, delta, and rho, based on sequence homology. Within the proposed major intracellular domain of these subunits, there are numerous potential consensus sites for protein phosphorylation by a variety of protein kinases. We have used purified fusion proteins of the major intracellular domain of GABAA receptor subunits produced in Escherichia coli to examine the phosphorylation of these subunits by cAMP-dependent protein kinase (PKA) and protein kinase C (PKC). The purified fusion protein of the intracellular domain of the beta 1 subunit was an excellent substrate for both PKA and PKC. PKA and PKC phosphorylated the beta 1 subunit fusion protein on serine residues on a single tryptic phosphopeptide. Site-directed mutagenesis of serine 409 in the intracellular domain of the beta 1 subunit to an alanine residue eliminated the phosphorylation of the beta 1 subunit fusion protein by both protein kinases. The purified fusion proteins of the major intracellular domain of the gamma 2S and gamma 2L subunits of the GABAA receptor were rapidly and stoichiometrically phosphorylated by PKC but not by PKA. The phosphorylation of the gamma 2S subunit occurred on serine residues on a single tryptic phosphopeptide. Site-directed mutagenesis of serine 327 of the gamma 2S subunit fusion protein to an alanine residue eliminated the phosphorylation of the gamma 2S fusion protein by PKC. The gamma 2L subunit is an alternatively spliced form of the gamma 2S subunit that differs by the insertion of 8 amino acids (LLRMFSFK) within the major intracellular domain of the gamma 2S subunit. The PKC phosphorylation of the gamma 2L subunit occurred on serine residues on two tryptic phosphopeptides. Site-specific mutagenesis of serine 343 within the 8-amino acid insert to an alanine residue eliminated the PKC phosphorylation of the novel site in the gamma 2L subunit. No phosphorylation of a purified fusion protein of the major intracellular loop of the alpha 1 subunit was observed with either PKA or PKC. These results identify the specific amino acid residues within GABAA receptor subunits that are phosphorylated by PKA and PKC and suggest that protein phosphorylation of these sites may be important in regulating GABAA receptor function.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Identification of the cAMP-dependent protein kinase and protein kinase C phosphorylation sites within the major intracellular domains of the beta 1, gamma 2S, and gamma 2L subunits of the gamma-aminobutyric acid type A receptor. 132 Nov 50

A number of studies have demonstrated the activation of phospholipase C-mediated hydrolysis of phosphatidylcholine (PC-PLC) both by growth factors and by the product of the ras oncogene, p21ras. Evidence has been presented indicating that the stimulation of this phospholipid degradative pathway is sufficient to activate mitogenesis in fibroblasts as well as that it is sufficient and necessary for induction of maturation in Xenopus laevis oocytes. However, the mechanism whereby PC-PLC transduces mitogenic signals triggered by growth factors or oncogenes remains to be elucidated. In this study, data are presented that show the involvement of protein kinase C zeta subspecies in the channelling of the mitogenic signal activated by insulin-p21ras-PC-PLC in Xenopus oocytes as well as the lack of a critical role of protein kinase C isotypes alpha, beta, gamma, delta, and epsilon in these pathways.
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PMID:Evidence for a role of protein kinase C zeta subspecies in maturation of Xenopus laevis oocytes. 150 83

Phorbol esters, tetradecanoylphorbolacetate, sapintoxin-A, 12-deoxyphorbol-phenylacetate, 12-deoxyphorbol-phenylacetate-20-acetate, thymeleatoxin and resiniferatoxin were investigated for their abilities to activate the PKC-isotypes alpha, beta 1, gamma, delta and epsilon. PKC-isotypes were grouped into two classes on the basis of Ca2+ requirements for activation by phorbol esters; alpha, beta 1, and gamma being Ca(2+)-dependent forms and delta and epsilon being Ca(2+)-independent. PKC-isotype selective activation by phorbol esters was observed in that SAPA failed to activate PKC-delta up to a concentration of 1000 ng.ml-1 and DOPPA only activated PKC-beta 1 over the same range of concentrations.
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PMID:Activation of the PKC-isotypes alpha, beta 1, gamma, delta and epsilon by phorbol esters of different biological activities. 187 64

We have studied the expression of mRNA encoding all known protein kinase C (PKC) isozymes (alpha, beta, gamma, delta, epsilon, zeta, and eta) in murine tumor cell lines that exemplify hemopoietic cells arrested at different stages of development as well as in normal hemopoietic cells. We demonstrate that some of the isozymes, PKC-alpha, -beta, and -eta, are differentially expressed in different lineages. PKC-alpha and -beta generally are not detectable in myeloid cell lines, where PKC-delta is the predominant isoform. Both PKC-alpha and -beta are abundant in most T and B lymphocytic lines, but steady state levels of PKC-beta mRNA are lowest in plasma cell tumors, which exemplify the terminally differentiated B lymphocyte. In contrast, the levels of PKC-alpha mRNA remain high in plasma cell tumors, and a novel, 2.5-kb PKC-alpha mRNA gains prominence. PKC-eta mRNA is the major PKC isoform expressed in T lymphocytes, but it also is highly abundant in some myeloid lines. PKC-delta is expressed at high levels in all the lines we studied, whereas PKC-epsilon and -zeta are found in most cells but only at rather low levels. Analysis of myeloid clones derived from bipotential B lineage progenitor cell lines suggests that the B cell phenotype is associated with the expression of PKC-alpha. The close correlation of protein levels with mRNA levels indicates that PKC expression in hemopoietic cells is mainly regulated at the level of mRNA. The lineage- and differentiation stage-specific patterns of PKC-isozyme expression presented here suggest the involvement of specific PKC isozymes in differentiation as well as lineage determination of hemopoietic cells.
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PMID:Expression of protein kinase C genes in hemopoietic cells is cell-type- and B cell-differentiation stage specific. 194 Mar 80

The T-cell receptor (TCR) gamma gene product occurs in association with T3 (CD3) polypeptides on the surface of human T lymphocytes. TCR gamma lymphocytes express arrays of T3 polypeptides distinct from those typically observed on TCR alpha beta lymphocytes. This report demonstrates that identical T3 gamma, delta, and epsilon polypeptides are synthesized by TCR gamma lymphocytes and TCR alpha beta lymphocytes. However, the processing of T3 delta oligosaccharides is distinct in the two cell types. This observation may suggest distinct quaternary structures of these receptor complexes. Despite these structural differences, the T3 molecule on TCR gamma lymphocytes is functional. It is associated with and comodulates with TCR gamma and it serves as a substrate for protein kinase C-mediated phosphorylation. Anti-T3 monoclonal antibodies induce a rapid increase in cytoplasmic free calcium, indicating that the receptor complex is involved in signal transduction and triggering of TCR gamma lymphocytes.
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PMID:T3 glycoprotein is functional although structurally distinct on human T-cell receptor gamma T lymphocytes. 310 80

The T lymphocyte receptor for antigen and histocompatibility molecules is a molecular complex comprised of five polypeptide chains. Both the 49KD alpha and 43KD beta chains are immunoglobulin-like and thus contain variable domains responsible for ligand binding. In contrast, the 20-25KD T3 gamma, delta and epsilon chains are monomorphic structures presumably involved in transmembrane signalling. The alpha and beta subunits are disulfide bonded to each other and held in noncovalent association with the T3 chains. T3-Ti receptor crosslinking leads to conformational modification of a second T lineage specific molecule, termed the 50KD T11 structure and in turn, protein kinase C activation, elevation in intracytoplasmic free calcium and Na+/H+ antiport stimulation.
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PMID:Human T lymphocyte activation. 349 9

Cellular differentiation and proliferation are dependent upon phosphorylation by endogenous protein kinase C (PKC) isozymes in many cell types. Western blotting with a C-terminally directed rabbit polyclonal anti-PKC zeta antibody detected a doublet of approximately 81 kDa in normal hamster pancreatic tissue and hamster pancreatic carcinoma (PC-1) and human pancreatic carcinoma (PANC-1) cells. Preabsorption of the antibody with the specific peptide blocked the appearance of the 81-kDa band, indicating that the band was specifically recognized by the PKC zeta antibody. In contrast, antibodies for PKC alpha, beta, gamma, delta, and epsilon failed to show specific immunoreactivity for normal pancreatic tissue or PANC-1 or PC-1 cells. Immunocytochemical analysis identified PKC zeta in the cytoplasm of ductules and large ducts, to a lesser extent in the islets of the hamster pancreas, and in the normal cultured pancreatic duct epithelial cells and pancreatic carcinoma (PANC-1 and PC-1) cell lines. Specific reactivity was seen by electron microscopy in the ductal cells of the normal pancreatic tissue. In normal pancreatic ductal tissue and primary pancreatic ductal hyperplasia and carcinoma, the proportional labeling of PKC zeta in nuclei and cytoplasm was similar. Our results demonstrating the presence of PKC zeta isozyme in the normal pancreas, cultured normal pancreatic duct epithelial cells, and pancreatic carcinoma cells or carcinoma tissue suggests a role for this isozyme in the normal physiology of the pancreas and perhaps in pancreatic carcinoma.
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PMID:Identification of protein kinase C zeta isozyme in hamster pancreas and pancreatic carcinoma cell lines. 757 13

Molecular cloning has identified at least nine unique isozymes of protein kinase C (PKC) designated alpha, beta I, beta II, gamma, delta, epsilon, zeta, and eta/L, with the recent addition of the theta-isoform. Previous attempts to characterize PKC isoform expression in heart have been limited by low levels of protein and perhaps by the presence of novel isoforms. Thus to critically examine the diversity of PKC expression in cardiac cells, we developed a reverse transcriptase-polymerase chain reaction (RT-PCR) approach that would amplify regions of the target cDNA of all the PKC isozymes in a single reaction. Degenerate oligonucleotide primers were designed to recognize sequences in the conserved regions of the PKC sequence motif: the cysteine-rich and the ATP-binding regions. Amplification of target PKC cDNA sequences resulted in PCR products with unique sizes and restriction digestion properties. The system was validated by identifying PCR products that correspond to all of the PKC isoform transcripts, except PKC-zeta, in a single reaction with cDNA derived from hippocampus. Cardiac cDNA was RT-PCR amplified, and the products were analyzed by a combination of restriction mapping and DNA sequencing that revealed the presence of only the alpha, delta, epsilon, and eta isoforms in adult rat cardiac myocytes and cultured neonatal ventricular myocytes. A unique nondegenerate primer pair was synthesized to recognize PKC-zeta cDNA. Results with these primers show that PKC-zeta is present in both cardiac myocyte preparations as well. The RT-PCR method developed here is an efficient approach that is broadly useful to examine PKC expression in many tissues, including the identification of potentially novel isoforms.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Use of a PCR-based method to characterize protein kinase C isoform expression in cardiac cells. 768 64

We have investigated the relationship between protein kinase C (PKC), levels of resistance and drug used for selection in a series of human KB carcinoma cell lines by comparing protein kinase C activity and PKC alpha, beta I, beta II, gamma, delta, epsilon, and zeta subspecies protein expression. PKC alpha protein expression was increased by 600% and 375% in KB-A1 and KB-C1 lines respectively over the parent KB-3-1 line; only KB-A1 cells showed increased PKC delta expression. Expression of other PKC subspecies was equal to that of KB-3-1 cells. There was considerable variation between the different KB cell lines in total cytosolic PKC activity, the KB-A1 and KB-C1 lines showing 400% and 350% increases respectively, KB-V1 and KB-8-5-11 about 180%, and KB-8-5 no increase relative to the parent KB-3-1 line. For calcium-independent PKC activity, the KB-C1 and KB-A1 lines only were increased over the KB-3-1 line. Immunoprecipitation with antisera to PKC subspecies confirmed that the increase in KB-A1 cytosolic total PKC activity was due largely to PKC alpha and partially to PKC delta. Membrane-associated PKC activity was increased by 500% and 350% in KB-A1 and KB-C1 lines respectively, by 250% and 270% in KB-V1 and KB-8-5-11, and not increased in KB-8-5 cells relative to the KB-3-1 cells. For KB-C1, KB-8-5-11, and KB-8-5 lines, which show decreasing resistance to colchicine, our results suggest a correlation between PKC and multidrug resistance in cells selected for resistance to this drug. There is no correlation between PKC and multidrug resistance for cells selected in different drugs. Our study therefore suggests that specific PKC subspecies are associated with the MDR phenotype of some KB cell lines, but that the extent of PKC involvement depends on the type of drug used for selection and its concentration.
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PMID:Changes in protein kinase C subspecies protein expression and activity in a series of multidrug-resistant human KB carcinoma cell lines. 770 29


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