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)

We have previously shown that the phorbol ester, TPA, which activates protein kinase C, causes, in PC12 cells, a transcriptional activation of tyrosine hydroxylase (TH), the key enzyme in catecholamine synthesis. The study has now been extended to examine the processes that underlie this transcriptional stimulation and, in addition, to seek whether similar mechanisms are involved in long-term trans-synaptic induction of the TH gene in adrenal medullae of rats that have been given a single injection of reserpine. In both systems, it was found that the induction of c-fos gene transcription was associated with that of the TH gene but with different kinetics. The promoter of the TH gene contains (at position -207/-200) a sequence (TGATTCA) which differs from the consensus TRE or AP-1 site (TGACTCA) by one nucleotide. Experiments were carried out to investigate whether the AP-1 protein complex which is known to contain Fos and Jun binds to the putative TRE region of the TH promoter. In the gel shift assays, the nuclear protein extracts derived from TPA-treated PC12 cells and from AM of reserpine injected rats displayed a higher magnitude of binding to a 25-mer TRE-TH oligonucleotide as compared to controls. The results showed that the behaviour of TRE-TH was atypical in that two retarded complexes (A and B) were observed, which were displaced by specific competitors. Trans-activation experiments with plasmids TRE-TH/TK/CAT and -754/-19 TH/pUC18-CAT in PC12 cells showed an increase in CAT activity in response to TPA that correlates with the previously observed increase in TH transcriptional activity by TPA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:AP-1 complex and c-fos transcription are involved in TPA provoked and trans-synaptic inductions of the tyrosine hydroxylase gene: insights into long-term regulatory mechanisms. 138 60

Calpain is a Ca2(+)-dependent cysteine endopeptidase and calpastatin is a calpain-specific endogenous inhibitor protein. Both calpain and calpastatin are very widely distributed in various animal tissues and cells. Low (microM) Ca2(+)-requiring calpain I and high (mM) Ca2(+)-requiring calpain II are known to exist. Calpain consists of one heavy (80 kDa) and one light (30 kDa) subunit. The heavy subunits of calpains I and II are different genetic products, whereas the light subunits are the same for both calpains I and II. Molecular cloning as well as protein sequencing revealed that the heavy subunit has four domains, while the light subunit has two domains. The carboxyl terminal domain of each subunit is a calmodulin-like domain, whereas the catalytic site is located in domain 2 of the heavy subunit. Calpastatin has four internally repetitive inhibitory domains. A single domain, or even a truncated 27-mer fragment thereof, possesses inhibitory activity against calpains. Calpain shows a rather broad substrate specificity. It can cleave various enzymes, and cytoskeletal, membrane and receptor proteins. Calpain-catalyzed activation of protein kinase C and transglutaminase may represent a few of the physiological functions of calpain, but a great many other functions can be assigned as well to calpain. Immunohistochemical studies revealed very wide but quite diverse distribution of calpains I and II and calpastatin among various tissues and cells. The expression of the genes for calpain and calpastatin is found to be modulated by retrovirus (HTLV-I) infection to T-lymphocytes. The physiological significance of the calpain and calpastatin system is yet to be elucidated, and accumulating information definitely suggested the role of calpain/calpastatin in health and disease.
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PMID:[Calpain and calpastatin]. 219 87

The enzyme thyroid peroxidase (TPO) plays a central role in thyroid hormone synthesis and is the target for the autoimmune attack in lymphocytic thyroiditis. We have examined the activation of the TPO gene in cultured human thyrocytes using slot-blot hybridization with a synthetic 40 mer oligonucleotide probe derived from the nucleotide sequence of the human TPO gene. The oligonucleotide probe was shown by Northern blotting to hybridize specifically to an approximately 3 kb RNA species from thyroid tissue of patients with Graves' disease, but not to RNA preparations from human or bovine retinal tissue, providing compelling evidence for the specificity of the probe for TPO mRNA. Addition of TSH (10 mU/ml) to primary thyroid cultures for 4 h led to increased TPO mRNA levels which were maximal after 48 h and significantly higher than basal even after 7 days of co-culture. Activation of TPO mRNA by TSH showed dose dependency over a wide range (0.01-100 mU/ml), with a maximal effect at 10 mU TSH/ml in cells cultured for a period of 72 h. Comparison of TPO mRNA levels with the accumulation of thyroglobulin mRNA levels following stimulation by TSH indicated that the induction of the gene encoding thyroglobulin precedes transcription of the TPO gene. The adenylate cyclase activator forskolin (1-100 microM) mimicked TSH in increasing TPO mRNA levels whilst, in contrast, the phorbol ester 12-O-tetradecanoyl phorbol 13-acetate (TPA; 0.01-1 microM) led to levels of TPO mRNA that were lower than basal. Thus TSH induces a specific dose-dependent activation of TPO mRNA which is mimicked by agents which increase cyclic AMP. In contrast, TPA-induced activation of protein kinase C inhibits this response.
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PMID:Activation of the thyroid peroxidase gene in human thyroid cells: effect of thyrotrophin, forskolin and phorbol ester. 274 42

Protein F1 is a neuron-specific, synaptic-enriched, membrane-bound substrate of protein kinase C (PKC) whose phosphorylation is related to synaptic plasticity in the adult. The sequence of 26 N-terminal amino acids was determined from purified rat protein F1. A 78-mer synthetic oligonucleotide designed from the partial N-terminal sequence enabled identification of protein F1 cDNA clones in a rat brain library. F1 protein is a 226 amino acid protein encoded by a 1.5 kb brain-specific, developmentally-regulated mRNA. Transcripts for protein F1 can be detected at birth, and their level declines after maturation. A full-length cDNA clone was transcribed and translated in vitro. Translation products could be immunoprecipitated with anti-F1 antibodies. In situ hybridization analysis revealed protein F1 transcripts in hippocampal pyramidal cells, but not in granule cells. In cerebellum, granule cells contained protein F1 mRNA, while Purkinje cells did not. Co-localization of protein F1 with protein kinase C-II [PKC-II (beta)], rather than PKC-I (gamma) suggests that PKC-II may phosphorylate protein F1.
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PMID:Primary structure and mRNA localization of protein F1, a growth-related protein kinase C substrate associated with synaptic plasticity. 342 69

We have identified 20-mer phosphorothioate oligodeoxynucleotides which potently (IC50 values of 100-200 nM) and specifically inhibit protein kinase C (PKC)-alpha mRNA and protein expression in human lung carcinoma (A549) cells. These oligonucleotides target multiple, diverse sites on PKC-alpha mRNA including the AUG translation codon and 3'-untranslated sequences. 2'-O-Methyl phosphorothioate analogs of these oligonucleotides were without effect on PKC-alpha mRNA levels, suggesting that the reduction in targeted PKC-alpha mRNA is through RNase H-mediated cleavage. One oligonucleotide, however, was effective at inhibiting PKC-alpha protein levels as a 2'-O-methyl phosphorothioate at concentrations 2-3-fold greater than its phosphorothioate/deoxy homolog. These results suggest that the ability to serve as an RNase H substrate, although not required for all oligonucleotides, certainly increases their potency. These oligonucleotides have been used to examine the role played by PKC-alpha in mediating the phorbol ester-induced changes in mRNA levels of the cell adhesion molecule ICAM-1. In A549 cells, ICAM-1 mRNA is increased 10-20-fold by treatment of cells with the phorbol ester phorbol 12-myristate 13-acetate. When PKC-alpha protein levels are depleted by oligonucleotide treatment of A549 cells, the increase in ICAM-1 expression in response to phorbol 12-myristate 13-acetate is greatly reduced, demonstrating that PKC-alpha plays a major role in this process.
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PMID:Inhibition of protein kinase C-alpha expression in human A549 cells by antisense oligonucleotides inhibits induction of intercellular adhesion molecule 1 (ICAM-1) mRNA by phorbol esters. 791 67

A 20-mer phosphorothioate oligodeoxynucleotide designed to hybridize to the AUG translation initiation codon of mRNA encoding murine protein kinase C-alpha (PKC-alpha) inhibits the expression of PKC-alpha both in vitro and in vivo. In mouse C127 mammary epithelial cells, the reduction in PKC-alpha mRNA expression was both dose and time dependent. The oligodeoxynucleotide exhibited an IC50 value of 100-200 nM and reduced PKC-alpha mRNA expression for up to 48 hr. This reduction was specific for PKC-alpha versus other PKC isozymes (delta, epsilon, and zeta) and completely dependent upon oligodeoxynucleotide sequence. When administered intraperitoneally in mice, the same oligodeoxynucleotide caused a dose-dependent, oligodeoxynucleotide sequence-dependent reduction of PKC-alpha mRNA in liver, with an IC50 value of 30-50 mg/kg of body weight. Inhibition of expression was 64 +/- 11% after a single 50-mg/kg dose. The expression of PKC-delta, epsilon, and zeta mRNA was unaffected by this treatment. The oligodeoxynucleotide activity in vivo did not require the presence of cationic liposomes or any other delivery systems, although in vitro, the oligodeoxynucleotide required cationic liposomes for inhibition of PKC-alpha expression. This study demonstrates the utility of phosphorothioate oligodeoxynucleotides as specific inhibitors of gene expression in vivo after systemic administration.
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PMID:Inhibition of protein kinase C-alpha expression in mice after systemic administration of phosphorothioate antisense oligodeoxynucleotides. 797 37

We have examined the cellular association and internalization of phosphodiester (PO) oligodeoxynucleotides (oligos) with HL60 cells. At 4 degrees C, a 15-mer PO homopolymer of thymidine (FOdT15) exhibits apparent saturation binding (Km = 22 +/- 1 nM) that is competitive with the binding of phosphorothioate (PS) oligos. The value of Kc for SdC28, a PS 28-mer homopolymer of cytidine, is 5 +/- 2 nM. SdC28 was used to strip cell surface fluorescence: Internalized fluorescence accumulated in a (concentration)(time)-dependent fashion, consistent with a pinocytotic mechanism. PS, and to a lesser extent, PO oligos inhibited the rate of internalization of fluorescent albumin, also a marker of pinocytosis. This was correlated with direct in vitro inhibition of protein kinase C (PKC) beta 1 by the PS and PO oligos. Furthermore, other PKC inhibitors (H7, staurosporine, DMSO, PKC pseudosubstrate polypeptide) also inhibited intracellular accumulation of pinocytosed materials, perhaps by stimulating the exocytosis rate. In HL60 cells, the pinocytotic internalization of charged oligos appears to be dependent on intact PKC kinase activity, which is inhibited in vitro by PS and PO oligos.
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PMID:Dynamics of the internalization of phosphodiester oligodeoxynucleotides in HL60 cells. 849 26

The mammalian Ras GTPase-activating protein (p120Ras-GAP) interacts with activated members of the Ras superfamily of GTP-binding proteins to accelerate their deactivation by sharply increasing their rates of GTP hydrolysis. Among the Ras-family proteins interacting with p120Ras-GAP is Rap1A/Krev1, whose activity is not affected by p120Ras-GAP but which competes with Ras for p120Ras-GAP. A second protein that interacts with p120Ras-GAP is P190Rac-GAP, which activates the GTPase of guanine nucleotide-binding proteins of the Rho family (including Rac1 and Rac2). Both these p120Ras-GAP-binding proteins are of interest in connection with the regulation of the respiratory burst oxidase, Rap1A/Krev1 because it copurifies with cytochrome b558 and p190Ras-GAP because it inhibits the Rac2-dependent activation of the respiratory burst oxidase in a cell-free system. Using an 18-mer antisense oligonucleotide, we were able to decrease the expression of p120Ras-GAP in Epstein-Barr virus-transformed B lymphocytes. Under conditions where p120Ras-GAP expression was significantly depressed by antisense oligonucleotides, we observed a 40% increase in protein kinase C-dependent but not receptor-dependent O2 production. In contrast, sense and scrambled oligonucleotides had no effect on either p120Ras-GAP expression or O2 production. Our results suggest a role for p120Ras-GAP as a negative regulator in the protein kinase C-mediated activation of the respiratory burst oxidase.
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PMID:Enhancement of protein kinase C-dependent O2 production in Epstein-Barr virus-transformed B lymphocytes by p120Ras-GAP antisense oligonucleotide. 862 95

A 20-mer phosphorothioate oligodeoxynucleotide (ISIS 3521) designed to hybridize sequences in the 3'-untranslated region of human protein kinase C-alpha (PKC-alpha) mRNA has been shown to inhibit the expression of PKC-alpha in multiple human cell lines. In human bladder carcinoma (T-24) cells, inhibition of PKC-alpha was both concentration dependent and oligonucleotide sequence specific. ISIS 3521 had a IC50 of 50-100 nM for PKC-alpha mRNA reduction and was without effect on the expression of other members of the PKC family of genes (PKC-eta and zeta). Toxicity studies in mice revealed that the oligodeoxynucleotide was well tolerated at repeat doses of 100 mg/kg i.v. for up to 14 days, with no acute toxicity apparent. The oligodeoxynucleotide was found to also inhibit the growth of three different human tumor cell lines, the T-24 bladder, human lung carcinoma (A549), and Colo 205 colon carcinoma grown in nude mice. The inhibition was dose dependent with ID50 values for the growth inhibition between 0.06 and 0.6 mg/kg daily when given i.v., depending on the cell line examined. Three control phosphorothioate oligodeoxynucleotides not targeting human PKC-alpha were without effect on the growth of the tumors at doses as high as 6 mg/kg. Recovery of ISIS 3521 from tumor tissue and resolution by capillary gel electrophoresis revealed that 24 It after the final dose of oligodeoxynucleotide, intact, full-length 20-mer material was present as well as some apparent exonuclease degradation products (e.g., n-1 and n-2 mers). These studies demonstrate the in vivo antitumor effects of an antisense oligodeoxynucleotide targeting PKC-alpha and suggest that this compound may be of value as a chemotherapeutic agent in the treatment of human cancers.
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PMID:Inhibition of growth of human tumor cell lines in nude mice by an antisense of oligonucleotide inhibitor of protein kinase C-alpha expression. 875 18

Heparin is a complex glycosaminoglycan that inhibits vascular smooth muscle cell (SMC) growth in vitro and in vivo. To define the mechanism by which heparin exerts its antiproliferative effects, we asked whether heparin interferes with the activity of intracellular protein kinase C (PKC). The membrane-associated intracellular PKC activity increased following stimulation of cultured rat SMCs with fetal calf serum and was suppressed by heparin in a time- and dose-dependent manner. Heparin acted through a selective inhibition of the PKC-alpha since preincubation of the cells with a 20-mer phosphorothioate PKC-alpha antisense oligodeoxynucleotide (ODN) eliminated the heparin effect. In vivo, following balloon injury of the rat carotid artery, particulate fraction PKC content increased with a time course and to an extent comparable with the observed changes in vitro. Heparin, administered at the time of injury or shortly thereafter, inhibited the activity of the particulate PKC and suppressed the in situ phosphorylation of an 80-kDa myristoylated alanine-rich protein kinase C substrate (MARCKS), a substrate of PKC. The topical application of the phosphorothioate antisense ODN selectively suppressed the expression of the PKC-alpha isoenzyme in vivo but did not affect injury-induced myointimal proliferation. Topical application of the ODN also eliminated the antiproliferative activity of heparin. These results therefore suggest that heparin might block SMC proliferation by interfering with the PKC pathway through a selective direct inhibition of the PKC-alpha isoenzyme.
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PMID:Protein kinase C alpha expression is required for heparin inhibition of rat smooth muscle cell proliferation in vitro and in vivo. 882 27


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