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 protein kinase C (PKC) family, which functions through serine/threonine kinase activity, is involved in signal transduction pathways necessary for cell proliferation and differentiation. Its critical role in processes relevant to neoplastic transformation and tumor invasion renders PKC a potentially suitable target for anticancer therapy. To explore whether antisense blocking of PKCalpha would inhibit the neoplastic properties in tumor cells, human lung carcinoma LTEPa-2 cells were transfected with a recombinant plasmid, pXJ41-CKPalpha, with PKCalpha cDNA inserted in the antisense orientation. In LT.AS4 cell clones stably expressing antisense PKCalpha mRNA, the amounts of PKCalpha protein and total PKC activity were decreased when compared to control cells. The expression of antisense PKCalpha markedly inhibited the cell proliferation rate, colony forming efficiency in soft agar, and tumorigenecity in nude mice. Furthermore, the mRNA levels of oncogenes (Ha-ras, c-jun, and c-fos) were seen to decrease to varying degrees. Reduced DNA binding activity of transcription factor AP-1 was also observed using gel shift analysis, suggesting that one major molecular mechanism by which PKCalpha can exert its effects on cell growth and transformation is through regulation of AP-1 transcription factor activity. Taken together, these data provide evidence for the ability of antisense PKCalpha expression to reverse the transformed phenotype of human lung carcinoma cells and support the development of PKCalpha inhibitors for the clinical treatment of cancers.
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PMID:Antisense inhibition of protein kinase Calpha reverses the transformed phenotype in human lung carcinoma cells. 1038 39

Akt (also known as PKB or RAC-PK) is an intracellular serine/threonine kinase involved in regulating cell survival. Although this makes it a promising target for the discovery of drugs to treat human cancer, a complicating factor may be the role played by Akt in insulin signalling. Two human isoforms, Akt-1 and Akt-2, have been described previously and a third isoform has been identified in rats (here termed Akt-3, but also called RAC-PK-gamma or PKB-gamma). We describe the identification of the corresponding human isoform of Akt-3. The gene encoding human Akt-3 was localized to chromosome 1q43-44. The predicted protein sequence is 83% identical to human Akt-1 and 78% identical to human Akt-2, and contains a pleckstrin homology domain and a kinase domain. In contrast to the published rat Akt-3 isoform, human and mouse Akt-3 also possess a C-terminal 'tail' that contains a phosphorylation site (Ser472) thought to be involved in the activation of Akt kinases. In addition to phosphorylation of Ser472, phosphorylation of Thr305 also appears to contribute to the activation of Akt-3 because mutation of both these residues to aspartate increased the catalytic activity of Akt-3, whereas mutation to alanine inhibited activation. Akt-3 activity could be inhibited by the broad spectrum kinase inhibitor staurosporine and by the PKC inhibitor Ro 31-8220, but not by other PKC or PKA inhibitors tested. Although Akt-3 is expressed widely, it is not highly expressed in liver or skeletal muscle, suggesting that its principle function may not be in regulating insulin signalling. These observations suggest that Akt-3 is a promising target for the discovery of novel chemotherapeutic agents which do not interfere with insulin signalling.
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PMID:Molecular cloning, expression and characterization of the human serine/threonine kinase Akt-3. 1049 Nov 92

The differentiation-inducing factor-1 (DIF-1) is a putative morphogen that induces stalk-cell formation in the lower eukaryote Dictyostelium discoideum. This molecule has been shown to inhibit cell growth and induce erythroid differentiation in human leukemia K562 cells. In the present study, to clarify the mechanism of the actions of DIF-1, we examined the effect of DIF-1 on Akt/protein kinase B (PKB) in K562 cells. Akt/PKB is a serine/threonine kinase that plays a pivotal role in the regulation of cell survival and differentiation in a variety of cells. A nonphosphorylated (inactive) form of Akt/PKB was ordinarily expressed in K562 cells. However, Akt/PKB was phosphorylated and potently activated within several hours of incubation with 5-30 microM DIF-1, and this activation was inhibited by wortmannin, an inhibitor of phosphatidylinositol 3-kinase (PI3-kinase). Calcium-increasing agents thapsigargin and A23187 also activated Akt/PKB slightly, which was inhibited by wortmannin. By contrast, calcium-reducing agents TMB-8 and EGTA together with A23187 inhibited the DIF-1-induced activation of Akt/PKB. PMA (PKC activator) also activated Akt/PKB but this activation was not inhibited by wortmannin. DIF-1 exhibited no marked effect on the activation of PKCalpha, beta, and gamma, which were activated by PMA. These results indicate that DIF-1 activates Akt/PKB possibly via cytosolic calcium and subsequent activation of PI3-kinase and also that PMA activates Akt/PKB in a PI3-kinase-independent manner.
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PMID:The putative morphogen, DIF-1, of Dictyostelium discoideum activates Akt/PKB in human leukemia K562 cells. 1051 59

The effect of protein kinase inhibitors on transferrin receptor (TR) internalization was examined in HeLa, A431, 3T3-L1 cells, and primary chicken embryo fibroblasts. We show that TR endocytosis is not affected by tyrosine kinase or protein kinase C inhibitors, but is inhibited by one serine/threonine kinase inhibitor, H-89. Inhibition occurred within 15 min, was completely reversible after H-89 withdrawal, and was specific for endocytosis rather than pinocytosis since a TR mutant lacking an internalization signal was not affected. Interestingly, H-89 also inhibited the internalization of a TR chimera containing the major histocompatibility complex class II invariant chain cytoplasmic tail, indicating that the effect was not specific for the TR. Since H-89 inhibits a number of kinases, we employed a permeabilized cell endocytosis assay to further characterize the kinase. In permeabilized 3T3-L1 cells, addition of pseudosubstrate inhibitor peptides of casein kinase II (CKII) blocked TR internalization by more than 50%, whereas pseudosubstrates of cyclic AMP-dependent kinase A, protein kinase C, and casein kinase I had no effect. Furthermore, addition of purified CKII to the cell-free reactions containing CKII pseudosubstrates reversed the endocytosis block, suggesting that CKII or a CKII-like activity is required for constitutive endocytosis.
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PMID:Casein kinase II activity is required for transferrin receptor endocytosis. 1052 37

To investigate the role of protein kinase C (PKC) in apoptotic signaling induced by cytokine withdrawal, we expressed PKC-alpha, -delta and -epsilon individually in the 32D myeloid progenitor cells. The parental and PKC-delta- and PKC-epsilon-transfected 32D cells underwent apoptosis within 24 h in the absence of interleukin 3. In contrast, expression of PKC-alpha inhibited the onset of apoptosis as determined by genomic DNA fragmentation and flow cytometric analysis. Correlating with the inhibition of apoptosis, PKC-alpha transfectants exhibited increased activity of the endogenous Akt serine/threonine kinase. Furthermore, PKC-alpha, but not PKC-delta or -epsilon, specifically activated overexpressed Akt. PKC-alpha-induced Akt activity was partially dependent on phosphoinositol 3' kinase (PI 3'K) since a PI 3'K inhibitor was able to suppress PKC-alpha-induced Akt activation. Both basal and interleukin 3-stimulated phosphorylation of Akt on serine 473 was enhanced in the PKC-alpha and Akt contransfectants. Coexpression of wild type Akt and PKC-alpha resulted in greater suppression of apoptosis than PKC-alpha expression alone. Together, our results demonstrate that suppression of apoptosis by PKC-alpha correlates with its ability of activating endogenous Akt. Furthermore, activation of overexpressed Akt by PKC-alpha is consistent with their synergistic effect on suppressing apoptosis, providing the strong evidence of cross talk between Akt and PKC-alpha.
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PMID:Protein kinase C-alpha overexpression stimulates Akt activity and suppresses apoptosis induced by interleukin 3 withdrawal. 1059 60

Fischer rat airway smooth muscle (ASM) models two potential risk factors for asthma: hyperresponsiveness to contractile agonists and to growth stimuli. The aim of this study was to identify the mechanisms responsible for enhanced ASM mitogenic response in Fischer rats compared with the control Lewis strain. The enhanced Fischer ASM cell growth response to fetal bovine serum (FBS) could not be accounted for by phospholipase C, mitogen-activated protein kinases, or tyrosine kinase activities as assessed by pharmacological inhibition and Western blotting. In contrast, depletion of phorbol ester-sensitive isoforms of the serine/threonine kinase protein kinase C (PKC) removed the difference in growth response between the rat strains. Additionally, FBS selectively induced serine/threonine phosphorylation of a 115-kDa protein in Fischer ASM cells. Enhanced activation of PKC-betaI and decreased activation of PKC-delta in Fischer compared with Lewis cells following FBS stimulation were suggested by Western blotting of membrane and cytosolic fractions. The data are consistent with a role for PKC in the enhanced ASM cell growth of hyperresponsive rats.
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PMID:Protein kinase C is involved in enhanced airway smooth muscle cell growth in hyperresponsive rats. 1064 91

The phorbol esters, such as phorbol 12- myristate 13-acetate (PMA), are known to be powerful tumor promoters and activators of protein kinase C (PKC). First discovered by Nishizuka et al., PKC is a phospholipid- and calcium-dependent serine/threonine kinase, phisiologically activated by 1,2-diacyl-sn-glycerol (DAG). PKC is also known to be an important target for other structurally diverse tumor promoters such as ingenols, teleocidins, and aplysiatoxins. Structure-activity analyses of a variety of analogs of DAG and these tumor promoters have been carried out. Although many pharmacophore models have been proposed from molecular modeling, no information about specific amino acid residues that interact with these ligands is available. Moreover it has been shown that the biological activity of 11-demethyl-13-deoxyphorbol esters 1, which were synthesized by our group, was not fully consistent with the pharmacophore models so far. Thus, we are now interested in determining the importance of the 13-acetoxy group in phorbol ester-PKC complexes. This has led us to design new photoaffinity probes 66 and 67 and to carry out previously unprecedented photoaffinity labeling of PKC. Photoaffinity labeling of protein kinase C isozymes by both the probes resulted in specific cross-linking. Although the cross-linking yield is not very high, we suppose that determination of the cross-linking site can be realized by taking advantage of subpicomole order analysis by mass spectrometry and other methodologies to clarify the role of individual cysteine rich domein (CRD) in native PKC. We have also designed a new phorbol ester-phosphatidylserine hybrid molecule 69. Because phosphatidylserines in phospholipid membranes are known to have specific interactions with phorbol ester-PKC complexes, such a hybrid molecule can be expected to act as a specific inhibitor of PKC by preventing PKC from interacting with phospholipid membranes. The hybrid molecule was synthesized and preliminary biological activities were examined to inhibit PKC. A catalytic asymmetric synthesis of phorbol PMA is also currently under investigation. Progress is discussed.
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PMID:[Phorbols: chemical synthesis and chemical biology]. 1065 84

The high risk human papillomaviruses (HPVs) are associated with carcinomas of cervix and other genital tumors. Previous studies have identified two viral oncoproteins E6 and E7, which are expressed in the majority of HPV-associated carcinomas. The ability of high risk HPV E6 protein to immortalize human mammary epithelial cells has provided a single gene model to study the mechanisms of E6-induced oncogenic transformation. In recent years, it has become clear that in addition to E6-induced degradation of p53 tumor suppressor protein, other targets of E6 are required for mammary epithelial cells immortalization. Using the yeast two-hybrid system, we have identified a novel interaction of HPV16 E6 with protein kinase PKN, a fatty acid- and Rho small G protein-activated serine/threonine kinase with a catalytic domain highly homologous to protein kinase C. We demonstrate direct binding of high risk HPV E6 proteins to PKN in wheat-germ lysate in vitro and in 293T cells in vivo. Importantly, E6 proteins of high risk HPVs but not low risk HPVs were able to bind PKN. Furthermore, all the immortalization-competent and many immortalization-non-competent E6 mutants bind PKN. These data suggest that binding to PKN may be required but not sufficient for immortalizing normal mammary epithelial cells. Finally, we show that PKN phosphorylates E6, demonstrating for the first time that HPV E6 is a phosphoprotein. Our finding suggests a novel link between HPV E6 mediated oncogenesis and regulation of a well known phosphorylation cascade.
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PMID:PKN binds and phosphorylates human papillomavirus E6 oncoprotein. 1080 24

Activation of the serine/threonine kinase, protein kinase D (PKD/PKC mu) via a phorbol ester/PKC-dependent pathway involves phosphorylation events. The present study identifies five in vivo phosphorylation sites by mass spectrometry, and the role of four of them was investigated by site-directed mutagenesis. Four sites are autophosphorylation sites, the first of which (Ser(916)) is located in the C terminus; its phosphorylation modifies the conformation of the kinase and influences duration of kinase activation but is not required for phorbol ester-mediated activation of PKD. The second autophosphorylation site (Ser(203)) lies in that region of the regulatory domain, which in PKC mu interacts with 14-3-3tau. The last two autophosphorylation sites (Ser(744) and Ser(748)) are located in the activation loop but are only phosphorylated in the isolated PKD-catalytic domain and not in the full-length PKD; they may affect enzyme catalysis but are not involved in the activation of wild-type PKD by phorbol ester. We also present evidence for proteolytic activation of PKD. The fifth site (Ser(255)) is transphosphorylated downstream of a PKC-dependent pathway after in vivo stimulation with phorbol ester. In vivo phorbol ester stimulation of an S255E mutant no longer requires PKC-mediated events. In conclusion, our results show that PKD is a multisite phosphorylated enzyme and suggest that its phosphorylation may be an intricate process that regulates its biological functions in very distinct ways.
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PMID:Regulation of protein kinase D by multisite phosphorylation. Identification of phosphorylation sites by mass spectrometry and characterization by site-directed mutagenesis. 1086 18

Protein kinase B (PKB) is a serine/threonine kinase that is activated by growth hormones and implicated in prevention of apoptosis, glycogen metabolism, and glucose uptake. A key enzyme in PKB activation is phosphatidylinositide 3-kinase (PI-3K), which triggers the dual phosphorylation of PKB by phosphatidylinositol-dependent kinases (PDKs). Here we report that the major PKB subtype in platelets is PKBalpha, which is activated by phosphorylation of Thr(308) and Ser(473) and has a constitutively phosphorylated Thr(450) that does not contribute to PKB activation. alpha-Thrombin and thrombopoietin activate PKBalpha via PI-3K and trigger the concurrent phosphorylation of Thr(308) (via PDK1) and Ser(473) (via a not yet identified PDK2). In addition, alpha-thrombin activates a PI-3K-independent pathway involving phospholipase Cbeta and calcium-dependent protein kinase C subtypes (PKCalpha/beta). This route is specific for phosphorylation of Ser(473) and can be initiated by direct PKC activation with phorbol ester or purified active PKC catalytic fragment in platelet lysate. Different degrees of Ser(473) and Thr(308) phosphorylation correlate with different degrees of enzyme activity. These data reveal a PI-3K-independent PKB activation in which PKCalpha/beta regulates the phosphorylation of Ser(473) in PKBalpha. The independent control of the two phosphorylation sites may contribute to fine regulation of PKBalpha activity.
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PMID:Dual regulation of platelet protein kinase B. 1087 27


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