UNIPROT:P43146 - FACTA Search

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Query: UNIPROT:P43146 (tumour suppressor)
5,935 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Microcell transfer of intact normal human chromosomes into immortal mouse and hamster fibroblast cell lines has revealed growth suppressive activity associated with a small sub-set of the human complement. Here, we describe the results of a detailed study aimed at identifying the gene or genes responsible for the rapid growth-arrest response obtained with human chromosome-9. Initially, STS-PCR deletion mapping of segregants arising in monochromosome transfer experiments was used successfully to localize the active sub-chromosomal region to 9p21. Subsequent fine-structure deletion mapping of previously uniformative hybrid segregants, employing additional markers between D9S162 and D9S171, provided strong evidence that the cyclin-dependent kinase (cdk) inhibitor gene CDKN2A (p16INK4A) was solely responsible for the chromosome-9 effect; 9p21 microdeletions in a significant proportion of segregant clones were restricted to a single CDKN2A exon. Transfection experiments with CDKN2A and CDKN2B cDNA expression vectors, using mouse A9 cells and three human malignant melanoma cell lines as recipients, provided further evidence in support of this hypothesis. Collectively, our results indicate that expression of human CDKN2A (controlled either by its natural regulatory elements, or by a cytomegalovirus promoter) is incompatible with in vitro proliferation in immortalized rodent cells and in human melanoma cell lines. The rapidity of the growth inhibitory effects of CDKN2A was inconsistent with a mode of action involving induction of replicative cell senescence via telomerase repression, but was consistent with a mechanism based on cell cycle arrest through cdk inhibition. The study described here has generated a panel of microdeleted monochromosome-9 donor hybrids which may prove valuable in functional investigations aimed at identifying other important tumour suppressor genes located on human chromosome-9.
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PMID:Identification of human tumour suppressor genes by monochromosome transfer: rapid growth-arrest response mapped to 9p21 is mediated solely by the cyclin-D-dependent kinase inhibitor gene, CDKN2A (p16INK4A). 876 11

The p127 tumour suppressor protein encoded by the lethal(2)giant larvae, [l(2)gl], gene of Drosophila melanogaster is a component of a cytoskeletal network distributed in both the cytoplasm and on the inner face of the plasma membrane. The p127 protein forms high molecular mass complexes consisting mainly of homo-oligomerized p127 molecules and at least ten additional proteins. One of these proteins has been recently identified as nonmuscle myosin type II heavy chain. To determine the functional interactions between p127 and other proteins present in the p127 complexes, we analyzed p127 for posttranslational modifications and found that p127 can be phosphorylated at serine residues. In this report we describe the characteristics of a serine kinase which is associated with p127, as judged by its recovery in p127 complexes purified by either gel filtration or immuno-affinity chromatography. This kinase phosphorylates p127 in vitro and its activation by supplementing ATP results in the release of p127 from the plasma membrane. Moreover, similar activation of the kinase present in immuno-purified p127 complexes dissociates nonmuscle myosin II from p127 without affecting the homo-oligomerization of p127. This dissociation can be inhibited by staurosporine and a 26mer peptide covering amino acid positions 651 to 676 of p127 and containing five serine residues which are evolutionarily conserved from Drosophila to humans. These results indicate that a serine-kinase tightly associated with p127 regulates p127 binding with components of the cytoskeleton present in both the cytoplasm and on the plasma membrane.
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PMID:A serine-kinase associated with the p127-l(2)gl tumour suppressor of Drosophila may regulate the binding of p127 to nonmuscle myosin II heavy chain and the attachment of p127 to the plasma membrane. 879 24

The p53 tumour suppressor protein plays a central role in the cellular defence against agents which cause genetic damage. The activity of p53 is regulated at different levels and is subject to multi-site phosphorylation by a variety of different protein kinases. In this paper we have characterised p53 N-terminus-targeted protein kinase (p53NK) activities, present in a range of cell lines, following fractionation of cellular lysates by ion exchange chromatography on HiTrap Q and Mono Q resins. Three peaks of p53NK activity were observed following fractionation of HeLa cell lysates; these activities were each able to catalyse phosphorylation of up to three residues (serines 4, 6 and 9 in murine p53) within the N-terminus of the p53 protein. Similarly, multiple p53NK activities were detected in the MethAp53(ts) cell line (which expresses the valine 135 temperature-sensitive p53 protein). Strikingly, when these cells were shifted from 38 degrees C (the non-permissive temperature) to 28 degrees C, at which the p53 adopts a wild type conformation, a fivefold stimulation of kinase activity was detected. Moreover, when the DNA damage-inducing drugs etoposide or camptothecin were added to the cells, a further stimulation of kinase activity was observed following growth at 28 degrees C, but not 38 degrees C. These data are consistent with a regulatory model in which p53 is sensitive to stress or DNA damage through phosphorylation at its N-terminus.
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PMID:p53 N-terminus-targeted protein kinase activity is stimulated in response to wild type p53 and DNA damage. 887 76

The p53 tumour suppressor protein plays a key role in the integration of stress signals. Multi-site phosphorylation of p53 may play an integral part in the transmission of these signals and is catalysed by many different protein kinases including an unidentified p53-N-terminus-targeted protein kinase (p53NK) which phosphorylates a group of sites at the N-terminus of the protein. In this paper, we present evidence that the delta and epsilon isoforms of casein kinase 1 (CK1delta and CK1epsilon) show identical features to p53NK and can phosphorylate p53 both in vitro and in vivo. Recombinant, purified glutathione S-transferase (GST)-CK1delta and GST-CK1epsilon fusion proteins each phosphorylate p53 in vitro at serines 4, 6 and 9, the sites recognised by p53NK. Furthermore, p53NK (i) co-purifies with CK1delta/epsilon, (ii) shares identical kinetic properties to CK1delta/epsilon, and (iii) is inhibited by a CK1delta/epsilon-specific inhibitor (IC261). In addition, CK1delta is also present in purified preparations of p53NK as judged by immunoanalysis using a CK1delta-specific monoclonal antibody. Treatment of murine SV3T3 cells with IC261 specifically blocked phosphorylation in vivo of the CK1delta/epsilon phosphorylation sites in p53, indicating that p53 interacts physiologically with CK1delta and/or CK1epsilon. Similarly, over-expression of a green fluorescent protein (GFP)-CK1delta fusion protein led to hyper-phosphorylation of p53 at its N-terminus. Treatment of MethAp53ts cells with the topoisomerase-directed drugs etoposide or camptothecin led to increases in both CK1delta-mRNA and -protein levels in a manner dependent on the integrity of p53. These data suggest that p53 is phosphorylated by CK1delta and CK1epsilon and additionally that there may be a regulatory feedback loop involving p53 and CK1delta.
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PMID:p53 is phosphorylated in vitro and in vivo by the delta and epsilon isoforms of casein kinase 1 and enhances the level of casein kinase 1 delta in response to topoisomerase-directed drugs. 934 7

The RNA-regulated protein kinase, (PKR) is an interferon-inducible enzyme of widespread occurrence in eukaryotic organisms. This serine/threonine-specific protein kinase is activated by double-stranded RNA by a mechanism involving autophosphorylation. Once activated, the enzyme phosphorylates the alpha subunit of protein synthesis initiation factor eIF2, thereby inhibiting translation. Recent evidence suggests that there may be additional substrates, and that signal transduction and gene transcription pathways also may be regulated by the protein kinase. As well as being important in mediating the antiviral effects of interferons, PKR is implicated in regulating cell proliferation in uninfected cells and may have a tumour suppressor function under normal conditions. Studies using cell lines expressing inactive mutants of PKR and mice with homozygous disruptions of the PKR gene are leading to greater insights into the biological significance of this enzyme.
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PMID:PKR--a protein kinase regulated by double-stranded RNA. 937 75

Ras proteins act as molecular switches, responding to signals by entering the active GTP-bound, rather than the inactive GDP-bound, state. The inhibition of normal Ras proteins by microinjection of neutralizing antibody or expression of dominant-negative mutants has shown that Ras signalling is required for growth factors to stimulate DNA synthesis [1] [2], but the link between Ras and the cell-cycle machinery is not clear. Regulation of the phosphorylation state of the retinoblastoma protein (pRb), the product of the tumour suppressor gene Rb, is a key event in the progression of cells from G1 phase into S phase. In growth-arrested or early G1 cells, pRb is hypophosphorylated and binds to transcription factors of the E2F family [3]. These pRb-E2F complexes act to suppress gene transcription required for entry into DNA synthesis either by preventing E2F from stimulating transcription or by actively repressing transcription [4]. During G1, cyclin-dependent kinases (CDKs) become activated and phosphorylate pRb at multiple sites, leading to the dissolution of pRb-E2F complexes and gene transcription [5]. Here, we have tested the hypothesis that Ras signalling is required for the inactivation of pRb. A neutralizing antibody directed against p21Ras was microinjected into cells derived from mutant mouse embryos that lack Rb or CDK inhibitors (CDKIs). Cells without pRb or the p16 CDKI were more resistant to the inhibitory effects of the anti-Ras antibody. DNA synthesis in some tumour cell lines was completely resistant to the anti-Ras injection, indicating that p21Ras is required for pRb inactivation but also has other functions in cell-cycle progression.
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PMID:Ras signalling is required for inactivation of the tumour suppressor pRb cell-cycle control protein. 939 36

The mRNA expressions of various growth regulatory molecules in single human anagen hair follicles were analysed by reverse transcription and polymerase chain reaction. Approximately 370 hair follicles were isolated from 20 normal individuals, and 0.90 +/- 0.34 microgram (mean +/- SD) total RNA was extracted per whole hair follicle. The mRNAs of fibroblast growth factor (FGF)-1, FGF-2, FGF-5, FGF-7, transforming growth factor (TGF)-alpha, TGF-beta 1, hepatocyte growth factor, insulin-like growth factor (IGF)-I, tumour suppressor gene p53 and high sulphur protein were detected in most or all of the examined hair follicles per target gene. In contrast, none of the mRNAs of FGF-3, FGF-4, FGF-6, FGF-9 and IGF-II was detected, and those of TGF-beta 2 and TGF-beta 3 were detected in only a limited number of the examined hair follicles. Among cyclin-dependent kinase inhibitors, the mRNAs of p21waf1/cip1 and p27kip1 were expressed in almost all the hair follicles, while those of p15INK4B and p16INK4A were not detected. These results suggest that both positive and negative factors for the proliferation and differentiation of follicular epithelial cells coexist in a human anagen hair follicle.
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PMID:Genes for a range of growth factors and cyclin-dependent kinase inhibitors are expressed by isolated human hair follicles. 941 26

Netrin-1 is known to function as a chemoattractant for several classes of developing axons and as a chemorepellent for other classes of axons, apparently dependent on the receptor type expressed by responsive cells. In culture, growth cones of embryonic Xenopus spinal neurons exhibited chemoattractive turning toward the source of netrin-1 but showed chemorepulsive responses in the presence of a competitive analog of cAMP or an inhibitor of protein kinase A. Both attractive and repulsive responses were abolished by depleting extracellular calcium and by adding a blocking antibody against the netrin-1 receptor Deleted in Colorectal Cancer. Thus, nerve growth cones may respond to the same guidance cue with opposite turning behavior, dependent on other coincident signals that set the level of cytosolic cAMP.
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PMID:cAMP-dependent growth cone guidance by netrin-1. 942 46

Two opposing enzymatic reactions control the activity of the retinoblastoma tumour suppressor protein, pRB. Phosphorylation inactivates pRB's ability to sequester miscellaneous cellular proteins, mostly involved in regulating gene transcription, whereas pRB dephosphorylation restores this ability. For some time now it has been suspected that members of the cyclin/cyclin-dependent kinase (cyclin/cdk) family mediate pRB inactivation. Recent results indicate that pRB phosphorylation is not executed by single kinase but by a combination of cyclin/cdks, each one phosphorylating a subset of pRB's phosphorylation sites. The different kinases appear to be activated by growth factors through distinct signal transduction pathways. This lends itself to an attractive model whereby pRB phosphorylation may constitute an integration point for these signalling pathways, perhaps allowing cell cycle progression only when concurrent activation of these signalling pathways has been achieved.
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PMID:Control of pRB phosphorylation. 952 1

The p53 tumour suppressor protein is regulated by several mechanisms including multisite phosphorylation. One of the protein kinases which has an established role in regulating p53 function is the protein kinase CK2. The regulation by CK2 occurs both through interaction of p53 with CK2 itself (the regulatory beta subunit) and phosphorylation at the penultimate residue of p53, serine 386 (murine p53). Strikingly, this phosphorylation event controls several independent functions of p53 including site-specific DNA binding, strand renaturation, transcriptional repression and the anti-proliferative function of p53. However, CK2 is a constitutively-active enzyme and therefore the mechanism by which the phosphorylation of p53 at serine 386 is itself regulated, or indeed the question as to whether phosphorylation of this site is regulated at all, remains unresolved. In this paper we provide evidence that serine 386 is highly resistant to dephosphorylation in cultured cells, even though this site can be dephosphorylated in vitro by recombinant protein phosphatase 1. These data suggest that, once phosphorylated at the CK2 site, a p53 molecule remains in this modified form throughout its lifespan. To address the issue of whether the level of serine 386 phosphorylation may be regulated through controlling the subcellular compartmentalisation of p53 and CK2, we examined the subcellular localisation of p53 and CK2alpha in C57MG cells and Rat-1 fibroblasts by immunofluorescence staining. Both proteins were present in the cytoplasm and enriched in the nucleus, with minor variations in the intensity of subcellular location over the course of the cell cycle. Similarly, activation of p53 by UV irradiation or DNA damage-inducing drugs had no effect on either the localisation or levels of CK2alpha, even although significant nuclear p53 accumulation was observed. A striking observation arising from these studies was the intense staining of CK2alpha with the centrosomes, suggesting a potentially important role for this kinase in microtubule formation and/or chromosomal segregation.
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PMID:Protein kinase CK2-dependent regulation of p53 function: evidence that the phosphorylation status of the serine 386 (CK2) site of p53 is constitutive and stable. 1009 8

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