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)

The p53 tumour suppressor protein is thought to play a major role in the defence of the cell against agents which damage DNA. p53 is phosphorylated at multiple sites in vivo and by several different protein kinases in vitro. In this report, we have examined the phosphorylation of murine p53 by protein kinase C (PKC). Phosphopeptide mapping, phosphoamino acid analysis and radiosequence analysis of p53 phosphorylated by PKC in vitro indicated that serine 370 and threonine 377 were the major targets for phosphorylation and suggested that serine 372 and threonines 365 and 371 were minor phosphorylation sites. Site-directed mutagenesis confirmed that residues 370-372, all of which lie within the epitope for monoclonal antibody PAb421, were phosphorylated in vitro. The p53 from 32P-labelled SV3T3 cells showed a phosphopeptide pattern which includes peptides with mobilities similar to those arising from phosphorylation of residues 370-372 by PKC in vitro. Only two of these in vivo-labelled phosphopeptides co-migrated in two dimensions with peptides labelled in vitro within the PAb421 epitope and their phosphorylation was not stimulated by the addition of the PKC activator o-tetradecanoylphorbol 13-acetate (TPA) to the cells, even though this treatment led to a fourfold stimulation of p53 phosphorylation by MAP kinase. Moreover, when the p53 proteins containing mutations at residues 370-372 were expressed in COS cells, there was no loss of any of the in vivo phosphopeptides, indicating that phosphorylation within the PAb42I epitope was undetectable in the cell. These data suggest that p53 and PKC may not interact in vivo. The two-dimensional migration pattern of the novel group of peptides is consistent with phosphorylation of previously uncharacterised sites within the central DNA binding region of p53.
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PMID:Murine p53 is phosphorylated within the PAb421 epitope by protein kinase C in vitro, but not in vivo, even after stimulation with the phorbol ester o-tetradecanoylphorbol 13-acetate. 870 May 48

The term "nonfunctioning" pituitary adenomas (NFPA) implies heterogeneity, since it relies on a clinical definition that is mainly related to tumor mass. The first complaint is often of impaired visual function, and despite the secretion of gonadotropins, hypogonadism is frequent. NFPA must be differentiated from prolactinomas, because of the therapeutic implications, but although prolactin (PRL) levels greater than 200 ng/mL indicate prolactinoma, PRL levels of 100 to 150 ng/mL are equivocal. An assessment of gonadotropin response to gonadotropin-releasing hormone (GnRH) is of no use, but the thyrotropin-releasing hormone (TRH) test is invaluable. NFPA are monoclonal in origin, but genetic mutations data have not clarified their etiology, which remains largely unknown. Proliferating cell nuclear antigen expression is increased in recurrent adenomas, as is abnormality and overexpression of the protein kinase C family in aggressive tumors. Mutations of tumor-suppressor genes, such as the p53 and Rb genes, and of the metastasizing suppressor gene nm23, have been found in invasive tumors. Immunohistochemistry data confirm that most NFPA originate from gonadotroph cells; many NFPA are negative for all anterior pituitary hormones tested, although isolated or clustered cells are often positive for glycoprotein hormones or their subunits. Silent gonadotroph and also silent growth hormone (GH) or corticotroph tumors can constitute the anatomical basis for clinical NFPA. The heterogeneity of the immunohistochemistry data is reflected in the receptor complex of these tumors. Dopaminergic receptors have recently been visualized in vivo and there are also receptors for TRH or GnRH, since levels of alpha or beta subunits and intact gonadotropins increase after TRH or GnRH stimulation. As a result, three second-line pharmacological approaches have been tried: dopamine agonists, octreotide, and GnRH superagonists or antagonists, with tumor shrinkage of up to 11% to 20%. However, surgery should be tried first.
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PMID:Nonfunctioning adenomas of the pituitary. 876 90

Activation of the latent DNA binding function of human p53 protein by the bacterial Hsp70, DnaK, represents a unique reaction in which a heat shock protein can interact with a native protein to affect its function. We have localized a likely DnaK interaction site on native human p53 tetramers to a motif flanking the COOH-terminal casein kinase II and protein kinase C phosphorylation sites. Murine p53 is less efficiently activated by DnaK, which has permitted a search for factors that might cooperate in p53 activation by DnaK. We show that optimal activation by DnaK may be dependent upon the phosphorylation state of murine p53, in particular, modification of p53 at the cdc2 phosphorylation site by point mutation decreases the extent of activation by DnaK. Additionally, the monoclonal antibody PAb241, binding in the vicinity of the cdc2 phosphorylation site, is able to activate the specific DNA binding function of p53. This has led us to propose a second regulatory motif flanking the tetramerization domain of p53 that cooperates with factors binding at the negative regulatory domain in the extreme COOH terminus.
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PMID:Modification of two distinct COOH-terminal domains is required for murine p53 activation by bacterial Hsp70. 894 78

We examined the effects of a cell-permeable ceramide analog, C2-ceramide, on the growth of TNF-alpha-resistant B lymphoma Raji cells lacking TNF-alpha-receptors (TNF-R). C2-ceramide inhibited the clonal growth of not only TNF-alpha-sensitive myeloid leukemia cells (HL60 and U937) but also Raji cells. Following stimulation with C2-ceramide, HL60 and U937 cells showed apoptotic cell death, whereas Raji cells did not show a detectable level of apoptosis. However, a cell-cycle arrest in G0/G1 phase was observed in Raji cells after the treatment with C2-ceramide, which was accompanied by the dephosphorylation of retinoblastoma (RB) gene products and decreased expression of p53 proteins. Failure of C2-ceramide to induce apoptosis in Raji cells might be explained by the lack or low expression of apoptosis-inducing proteins by two lines of evidence: (1) Raji cells were resistant to apoptosis induced by ceramide even in the presence of transcription/translation inhibitors; (2) Bax protein expression was not detectable in Raji cells, although Bcl-2 protein expression in Raji cells was even less than that in HL60 and U937 cells. Moreover, protein kinase C (PKC), whose activation has been described to inhibit ceramide-induced apoptosis, inhibitor H-7 did not induce apoptotic cell death in Raji cells, suggesting that an imbalance between PKC and ceramide pathways is not the reason for the resistance of Raji cells against ceramide-induced apoptosis. Finally, ceramide-induced activation of nuclear factor kappaB (NF-kappaB) was observed in Raji cells as well as HL60 cells, indicating that activation of this molecule may not be specific for apoptosis. By using the present model, one can dissect cell-cycle arrest and apoptosis induced by ceramide.
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PMID:Cell-permeable ceramide inhibits the growth of B lymphoma Raji cells lacking TNF-alpha-receptors by inducing G0/G1 arrest but not apoptosis: a new model for dissecting cell-cycle arrest and apoptosis. 894 36

The Apo-1/Fas (CD95) antigen is known to be involved in the process of T cell-mediated target cell killing and has recently been shown to be expressed on myeloma cell lines and native malignant plasma cells. Several cytokines have been reported to interfere with spontaneous and even Apo-1/Fas-induced apoptosis, but no attempt has been made yet to investigate these interactions and the possible underlying mechanisms in myeloma cells. Since in myeloma patients Interferon (IFN)-alpha2 displays a profound therapeutic effect in vivo, which is usually attributed to its growth inhibitory and/or immunomodulatory capacity, we set out to study the potential interference of IFN-alpha2 with Apo-1/Fas-induced apoptosis. Contrary to expectations, IFN-alpha2 reduced the degree of apoptosis caused by the treatment of five Apo-1/Fas-sensitive myeloma cell lines with a Fas monoclonal antibody (mAb). Simultaneous application of IFN-alpha2 and Fas mAb was superior to the prolonged (i.e. >8 h) preincubation with the cytokine as far as inhibition of Apo-1/Fas-induced apoptosis was concerned. This effect of IFN-alpha2 was neither explained by a down-regulation of the Apo-1/Fas receptor nor caused by modulation of the expression levels of c-myc, bcl-2-, bcl-xL, bax- or p53 genes. IFN-alpha2 did not alter the Apo-1/Fas-induced activity of Mitogen-activated protein kinase (MAPK) 1 and did not inhibit the Apo-1/Fas-mediated proteolytic cleavage of ADP-ribosyltransferase, a substrate of Interleukin-beta1 converting enzyme (ICE) and homologues. However, activation of protein kinase C (PKC) by phorbol 12-myristate 13-acetate (PMA) mimicked the effects of IFN-alpha2. Furthermore, the bis-indolylmaleimide GF 109203X, a specific inhibitor of PKC, inhibited the effect of PMA as well as that of IFN-alpha2 on Apo-1/Fas-induced apoptosis. These results point to a PKC-dependent mechanism of transient interaction between the intracellular signaling along the IFN-alpha2 and the Apo-1/Fas pathway (downstream of MAPK signaling as well as of ICE homologues), which becomes exhausted by prolonged stimulation with the cytokine. According to our data IFN-alpha2, applied continuously and in high doses resembling the therapeutic situation in vivo, inhibits myeloma growth. However, based on the observed inhibitory effect of IFN-alpha2 on Apo-1/Fas-induced apoptosis, a partial inhibition of the natural immune surveillance on myeloma cells by endogenous IFN-alpha2 present in the bone marrow microenvironment of this malignancy should be investigated.
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PMID:Modulation of Apo-1/Fas (CD95)-induced programmed cell death in myeloma cells by interferon-alpha 2. 897 13

The rapid accumulation of the p53 gene product is considered to be an important component of the cellular response to a variety of genotoxins. In order to gain insights on the biochemical pathways leading to p53 stabilization, the effect of (+/-) 7,8-dihydroxy-anti-9, 10-epoxy-7,8,9,10-tetrahydrobenzo(a)-pyrene [(+/-)-anti-BPDE] induced DNA damage on p53 protein levels was investigated in various repair-proficient and repair-deficient human cells. Brief exposure of normal human fibroblasts to 0.05-1 microM (+/-)-anti-BPDE resulted in elevated p53 protein levels as compared to the constitutive levels of control cells. The rapid induction response, detectable within a few hours, was sustained up to a period of at least 24 h. Repair-proficient and repair-deficient (XPA) human lymphoblastoid cells showed a similar response. The poly(ADP-ribose) polymerase inhibitor, 3-aminobenzamide (3-AB), diminished the p53 induction response by concomitantly decreasing the extent of (+/-)-anti-BPDE induced DNA damage in cells pretreated with the inhibitor. However, the direct involvement of poly ADP-ribosylation was also apparent as 3-AB was able to attenuate (approximately 50%) the p53 response by post-damage inhibitor treatment of the cells. Inhibition of cellular DNA replication by hydroxyurea and AraC, in the presence or absence of DNA damage, also resulted in rapid p53 accumulation in repair-deficient cells. On the contrary, inhibition of protein kinase C (PKC) by calphostin-C led to an abrogation of (+/-)-anti-BPDE mediated p53 induction. Analysis of the downstream effects of carcinogen treatment showed that the lymphoblastoid cells undergo DNA fragmentation indicative of apoptosis while fibroblasts exhibit cell cycle arrest at the G1-S boundary.
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PMID:Modulation of (+/-)-anti-BPDE mediated p53 accumulation by inhibitors of protein kinase C and poly(ADP-ribose) polymerase. 904 87

UCN-01 (7-hydroxyl-staurosporine) was originally isolated as a Ca2+- and phospholipid-dependent protein kinase C selective inhibitor and now is being developed as an anticancer agent. Results from our and other laboratories have suggested that UCN-01 induces preferential G1-phase accumulation in several human tumor cell lines tested. To elucidate this mechanism, we examined the effects of UCN-01 on several cell cycle-regulatory proteins critical for G1-S-phase transition in p53-mutated human epidermoid carcinoma A431 cells. After 24 h exposure at around 50% growth-inhibitory concentrations (IC50s), 260 and 520 nM, UCN-01 induced the accumulation of pRb (the dephosphorylated retinoblastoma protein form). The protein expression of cyclin A but not cyclin E was markedly reduced and that of cyclin D1 was partially reduced under the same condition. UCN-01 also showed the concentration-dependent inhibitions of the activity of cyclin-dependent kinase 2 (CDK2) using histone H1 and pRb as substrates in vitro (IC50, 530 and 640 nM, respectively). In addition, CDK2 activities of the cells pretreated with UCN-01 for 24 h at 260 and 520 nM were markedly inhibited, giving IC50s of far less than 260 nM. When the same cell lysates were analyzed by Western blotting for CDK2, the lower band (e.g., active and phosphorylated CDK2) was remarkably reduced, in accordance with the reduced activity. Furthermore, UCN-01 induced the expression of the CDK inhibitor p21 protein and its complex formation with CDK2 after 24 h exposure at 260 and 520 nM, whereas the expression level was very low or undetectable in untreated or DNA-damaged cells. The increase of p21 mRNA levels was also induced under the same condition. UCN-01 further increased luciferase activities in A431 cells transiently transfected with p21 promoter-luciferase reporter plasmid after 24 h exposure at 260 and 520 nM. UCN-01 also increased the expression of the CDK inhibitor p27 protein after 24 h exposure at 260 and 520 nM. These results suggest that G1-phase accumulation induced by UCN-01 is associated with dephosphorylation of Rb and CDK2 proteins as well as induction of CDK inhibitors p21 and p27.
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PMID:G1 phase accumulation induced by UCN-01 is associated with dephosphorylation of Rb and CDK2 proteins as well as induction of CDK inhibitor p21/Cip1/WAF1/Sdi1 in p53-mutated human epidermoid carcinoma A431 cells. 910 51

The continued progress in our understanding of the biology of neoplasia and in the identification, cloning, and sequencing of genes critical to tumor cell function permits the exploitation of this information to develop specific agents that may directly modulate the function of these genes or their protein products. Antisense oligonucleotides are being investigated as a potential therapeutic modality that takes direct advantage of molecular sequencing. The antisense approach uses short oligonucleotides designed to hybridize to a target mRNA transcript through Watson-Crick base pairing. The formation of this oligonucleotide: RNA heteroduplex results in mRNA inactivation and consequent inhibition of synthesis of the protein product. A fundamental attraction of the antisense approach is that this method potentially may be applied to any gene product, in theory, for the treatment of malignant and non-malignant diseases. However, this simple and attractive model has proven to be much more complex in practice. A number of important challenges in the preclinical development of antisense oligonucleotides have been identified, including stability, sequence length, cellular uptake, target sequence selection, appropriate negative controls, oligonucleotide: protein interactions, and cost of manufacture. Although the biological activity of an oligonucleotide against its molecular target is theoretically sequence-dependent, the animal pharmacokinetics and toxicology of phosphorothioate analogues directed against vastly disparate gene products appear relatively non-sequence-specific. In oncology, a number of clinical trials have been initiated with antisense oligonucleotides directed against molecular targets including: p53; bcl-2; raf kinase; protein kinase C-alpha; c-myb. The experience gained from these early clinical trials will be applicable to the next generation of antisense agents in development. These may include molecules with novel backbones or other structural modifications, chimeric oligonucleotides, or peptide nucleic acids. Continued progress in this arena will require that many of the preclinical challenges confronting antisense development are satisfactory resolved.
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PMID:Antisense oligonucleotides as therapeutics for malignant diseases. 912 89

Human cyclin G2 together with its closest homolog cyclin G1 defines a novel family of cyclins (Horne, M. C., Goolsby, G. L., Donaldson, K. L., Tran, D., Neubauer, M., and Wahl, A. F. (1996) J. Biol. Chem. 271, 6050-6061). Cyclin G2 is highly expressed in the immune system where immunologic tolerance subjects self-reactive lymphocytes to negative selection and clonal deletion via apoptosis. Here we investigated the effect of growth inhibitory signals on cyclin G2 mRNA abundance in different maturation stage-specific murine B cell lines. Upon treatment of wild-type and p53 null B cell lines with the negative growth factor, transforming growth factor beta1, or the growth inhibitory corticosteroid dexamethasone, cyclin G2 mRNA levels were increased in a time-dependent manner 5-14-fold over control cell levels. Unstimulated immature B cell lines (WEHI-231 and CH31) and unstimulated or IgM B cell receptor (BCR) -stimulated mature B cell lines (BAL-17 and CH12) rapidly proliferate and express low levels of cyclin G2 mRNA. In contrast, BCR-stimulated immature B cell lines undergo growth arrest and coincidentally exhibit an approximately 10-fold increase in cyclin G2 transcripts and a decrease in cyclin D2 message. Costimulation of WEHI-231 and CH31 cells with calcium ionophores and protein kinase C agonists partially mimics anti-IgM stimulation and elicits a strong up-regulation of cyclin G2 mRNA and down-regulation of cyclin D2 mRNA. Signaling mutants of WEHI-231 that are deficient in the phosphoinositide signaling pathway and consequently resistant to the BCR stimulus-induced growth arrest did not display a significant increase in cyclin G2 or decrease in cyclin D2 mRNAs when challenged with anti-IgM antibodies. The two polyclonal activators lipopolysaccharide and soluble gp39, which inhibit the growth arrest response of immature B cells, suppressed cyclin G2 mRNA expression induced by BCR stimulation. These results suggest that in murine B cells responding to growth inhibitory stimuli cyclin G2 may be a key negative regulator of cell cycle progression.
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PMID:Cyclin G2 is up-regulated during growth inhibition and B cell antigen receptor-mediated cell cycle arrest. 913 21

We show that, in vitro, Ca2+-dependent protein kinase C (PKC) phosphorylates recombinant murine p53 protein on several residues contained within a conserved basic region of 25 amino acids, located in the C-terminal part of the protein. Accordingly, synthetic p53-(357-381)-peptide is phosphorylated by PKC at multiple Ser and Thr residues, including Ser360, Thr365, Ser370 and Thr377. We also establish that p53-(357-381)-peptide at micromolar concentrations has the ability to stimulate sequence-specific DNA binding by p53. That stimulation is lost upon phosphorylation by PKC. To further characterise the mechanisms that regulate PKC-dependent phosphorylation of p53-(357-381)-peptide, the phosphorylation of recombinant p53 and p53-(357-381)-peptide by PKC were compared. The results suggest that phosphorylation of full-length p53 on the C-terminal PKC sites is highly dependent on the accessibility of the phosphorylation sites and that a domain on p53 distinct from p53-(357-381)-peptide is involved in binding PKC. Accordingly, we have identified a conserved 27-amino-acid peptide, p53-(320-346)-peptide, within the C-terminal region of p53 and adjacent to residues 357-381 that interacts with PKC in vitro. The interaction between p53-(320-346)-peptide and PKC inhibits PKC autophosphorylation and the phosphorylation of substrates, including p53-(357-381)-peptide, neurogranin and histone H1. Conventional Ca2+-dependent PKC alpha, beta and gamma and the catalytic fragment of PKC (PKM) were nearly equally susceptible to inhibition by p53-(320-346)-peptide. The Ca2+-independent PKC delta was much less sensitive to inhibition. The significance of these findings for understanding the in vivo phosphorylation of p53 by PKC are discussed.
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PMID:The in vitro phosphorylation of p53 by calcium-dependent protein kinase C--characterization of a protein-kinase-C-binding site on p53. 918 6


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