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: UNIPROT:P04637 (p53)
77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transgenic mice that contain the simian virus 40 (SV40) enhancer-promoter and large tumor (T) antigen gene develop papillomas of the choroid plexus. The tumors remain well differentiated on histological examination and express normal levels of tissue-specific mRNAs for transthyretin (TTR) and the 5-HT1C serotonin receptor, two differentiated cell markers. Both Northern (RNA) blot analysis and in situ cytohybridization have been used to monitor the steady-state levels of the mRNAs from the viral oncogene (T antigen) and from several cellular oncogenes. In situ hybridization demonstrated, in serial sections, increased levels of both T antigen mRNA and p53 mRNA localized in the tumor tissue but not in the normal brain tissue. The ratios of the steady-state levels of mRNA for p53/TTR and p53/L32, a ribosomal protein gene, were 2- to 20-fold higher in the tumor tissue than in the normal choroid plexus tissue. Several other oncogenes did not show elevated levels of mRNA in these tumors. p53 protein levels were not detectable in normal brain tissue, but p53 levels were very high in tumor tissue in which all of the p53 was found in a complex with the SV40 large T antigen. These data continue to show a close relationship between SV40 T-antigen-mediated tumorigenesis and the role of p53 in these tumors.
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PMID:Cellular gene expression in papillomas of the choroid plexus from transgenic mice that express the simian virus 40 large T antigen. 264 78

The Mdm2 gene is the best known cellular regulator of p53 tumor suppressor activity. We report here the cloning and characterization of Xdm2, its homolog in Xenopus laevis. Human, mouse and Xenopus MDM2 proteins are more than 65% identical in several regions which are likely to be important for the biological activities of MDM2. Region I is sufficient for binding p53 and inhibiting its G1 arrest and apoptosis functions. Region II contains most of a central acidic region required for interaction with the L5 ribosomal protein and a putative C4 zinc finger. Region III is nearly identical from Xenopus to human and comprises the RING finger domain. We show that this structural conservation is associated with the conservation of three biochemical activities of MDM2; binding to the p53 and L5 proteins and specifically to RNA. Lastly, Xdm2 expression during early development is mainly restricted from the oocyte stage I/II to the blastula stage and is possibly independent of transcriptional activation by p53. These data as well as the utilization of Xenopus laevis to investigate the roles of MDM2 and p53 during early embryogenesis are discussed.
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PMID:Conservation of structural domains and biochemical activities of the MDM2 protein from Xenopus laevis. 913 86

The wild-type p53 protein is a DNA-binding transcription factor that activates genes such as p21, MDM2, GADD45, and Bax that are required for the regulation of cell cycle progression or apoptosis in response to DNA damage. Mutant forms of p53, which are transforming oncogenes and are expressed at high levels in tumor cells, generally have a reduced binding affinity for the consensus DNA sequence. Interestingly, some p53 mutants that are no longer effective at binding to the consensus DNA sequence and transactivating promoters containing this target site have acquired the ability to transform cells in culture, in part through their ability to transactivate promoters of a number of genes that are not targets of the wild-type protein. Certain p53 mutants are therefore considered to be gain-of-function mutants and appear to be promoting proliferation or transforming cells through their ability to alter the expression of novel sets of genes. Our goal is to identify genes that have altered expression in the presence of a specific mutant p53 (Arg to Trp mutation at codon 248) protein. Through examining differential gene expression in cells devoid of p53 expression and in cells that express high levels of mutant p53 protein, we have identified three ribosomal protein genes that have elevated expression in response to mutant p53. Consistent with these findings, the overexpression of a number of ribosomal protein genes in human tumors and evidence for their contribution to oncogenic transformation have been reported previously, although the mechanism leading to this overexpression has remained elusive. We show results that indicate that expression of these specific ribosomal protein genes is increased in the presence of the R248W p53 mutant, which provides a mechanism for their overexpression in human tumors.
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PMID:Elevated expression of ribosomal protein genes L37, RPP-1, and S2 in the presence of mutant p53. 1056 57

To identify genes that are specifically involved in apoptosis, poly(A)(+) RNAs were isolated from untreated control rat thymocytes and from adriamycin-induced apoptotic thymocytes. Directionally cloned cDNA libraries were then constructed in UNIZAP-XR vectors followed by biotin-based subtractive hybridization. Three clones were confirmed to be differentially expressed by dot blotting. Sequence analysis revealed homology to two genes previously identified, whereas one clone was novel and did not have homology to any known sequence. One clone was identical to the ribosomal protein S29, and the other was homologous to L8 ribosomal protein. Northern blot analysis revealed a marked increase in the expression of mRNA encoding ribosomal protein S29 in the apoptotic thymocytes compared to the controls. Transfection studies revealed that enhanced S29 expression resulted in increased apoptosis in rat thymocytes and HeLa cells as assessed by various morphological and biochemical characteristics, including cell shrinkage, chromatin condensation, membrane blebbing, formation of apoptotic bodies, TUNEL, FACS, and internucleosomal DNA fragmentation. This was accompanied by upregulation of p53, Caspase 3, and bax, whereas bcl-2 was downregulated as revealed by Western blotting. The current findings provide the first hint of a role for ribosomal protein S29 in the apoptotic process.
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PMID:Differential gene expression in apoptosis: identification of ribosomal protein S29 as an apoptotic inducer. 1103 47

Coordinate regulation of the ribosomal protein genes is entrusted to a number of signal transduction pathways that can abruptly induce or silence the ribosomal genes. We have uncovered a cellular model system, which selectively induces the ribosomal protein S25 gene in hepatoma cells that are stressed by nutrient deprivation. Our results indicate that p53 along with two other identified proteins, MTF-1 and La, post-transcriptionally regulate the synthesis of the S25 protein by controlling the nuclear export of the stress-induced S25 mRNA. This system is unique in that the nuclear-retained S25 mRNA is exported to the cytosol only upon replenishment or alternatively after prolonged starvation to participate in a p53-mediated apoptotic sequence of events. This p53-dependent survival or death pathway involves a previously unreported protein relationship among these three actors, one of which, MTF-1, has not yet been shown to have RNA-binding characteristics.
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PMID:Ribosomal protein S25 mRNA partners with MTF-1 and La to provide a p53-mediated mechanism for survival or death. 1174 12

Nucleophosmin (NPM) is a ubiquitously expressed nucleolar phosphoprotein that continuously shuttles between the nucleus and cytoplasm. It has been proposed to function in ribosomal protein assembly and transport, and also as a molecular chaperone that prevents proteins from aggregating in the crowded environment of the nucleolus. The NPM gene is involved in several tumour-associated chromosome translocations, which have resulted in the formation of fusion proteins that retain the amino terminus of NPM, including NPM ALK, NPM RAR and NPM MLF1 (ref. 6). It is generally thought that the NPM component is not involved in the transforming potential of these fusion proteins, but instead provides a dimerization interface for the oligomerization and the oncogenic conversion of the various NPM partners (ALK, RAR, MLF1). Here we show that NPM interacts directly with the tumour suppressor p53, regulates the increase in stability and transcriptional activation of p53 after different types of stress, and induces p53-dependent premature senescence on overexpression in diploid fibroblasts. These findings indicate that NPM is a crucial regulator of p53 and suggest that alterations of the NPM function by NPM fusion proteins might lead to deregulation of p53 in tumours.
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PMID:Nucleophosmin regulates the stability and transcriptional activity of p53. 1208 Mar 48

Non-small cell lung cancer (NSCLC) is the most prevalent type of lung cancer especially in India and displays resistance to anticancer treatment. In our earlier study we had isolated a cDNA clone from rat thymocytes induced to undergo apoptosis, which was found to encode S29 ribosomal protein [Biochem. Biophys. Res. Commun. 277 (2000) 476]. In the present study an attempt has been made to find out whether enhanced expression of S29 cDNA can kill NSCLC H520 cells. We found that S29 induced apoptosis and augmented the effect of anticancer drugs. Expressions of several molecular determinants of apoptosis were analyzed in order to understand the mechanism of apoptosis induced by S29. We observed downregulation of the expression of inhibitors of apoptosis proteins (IAPs) Bcl-2, Bcl-X(L), and survivin and upregulation of pro-apoptotic p53 and Bax as assessed by Western blotting. Mitochondrial release of cytochrome c and activation of initiator caspase-8 and -9 and effector caspase-3, followed by cleavage of nuclear substrate poly(ADP-ribose) polymerase, were also observed. Permeability transition as determined by changes in DeltaPsi(m) was not a requirement for cytochrome c release. There was a marginal increase in the release of apoptosis inducing factor (AIF) and reduction of NF-kappaB dependent transcriptional activity. There was non-involvement of calcium and the telomerase activity, a proliferation marker.
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PMID:S29 ribosomal protein induces apoptosis in H520 cells and sensitizes them to chemotherapy. 1270 79

The oncoprotein MDM2 associates with ribosomal proteins L5, L11, and L23. Both L11 and L23 have been shown to activate p53 by inhibiting MDM2-mediated p53 suppression. Here we have shown that L5 also activates p53. Overexpression of L5 stabilized ectopic p53 in H1299 cells and endogenous p53 in U2OS cells. Consequently, L5 enhanced p53 transcriptional activity and induced p53-dependent G1 cell cycle arrest. Furthermore, like L11 and L23, L5 also remarkably inhibited MDM2-mediated p53 ubiquitination. The interaction of L5 with MDM2 was also enhanced by treatment with a low dose of actinomycin D. Actinomycin D-induced p53 was inhibited by small interference RNA against L5. By reciprocal co-immunoprecipitation, we further showed that there were at least two MDM2-ribosomal protein complexes in cells: MDM2-L5-L11-L23 and p53-MDM2-L5-L11-L23. We propose that the MDM2-L5-L11-L23 complex functions to inhibit MDM2-mediated p53 ubiquitination and thus activates p53.
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PMID:Inhibition of MDM2-mediated p53 ubiquitination and degradation by ribosomal protein L5. 1530 43

The importance of coordinating cell growth with proliferation has been recognized for a long time. The molecular basis of this relationship, however, is poorly understood. Here we show that the ribosomal protein L23 interacts with HDM2. The interaction involves the central acidic domain of HDM2 and an N-terminal domain of L23. L23 and L11, another HDM2-interacting ribosomal protein, can simultaneously yet distinctly interact with HDM2 together to form a ternary complex. We show that, when overexpressed, L23 inhibits HDM2-induced p53 polyubiquitination and degradation and causes a p53-dependent cell cycle arrest. On the other hand, knocking down L23 causes nucleolar stress and triggers translocation of B23 from the nucleolus to the nucleoplasm, leading to stabilization and activation of p53. Our data suggest that cells may maintain a steady-state level of L23 during normal growth; alternating the levels of L23 in response to changing growth conditions could impinge on the HDM2-p53 pathway by interrupting the integrity of the nucleolus.
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PMID:Inhibition of HDM2 and activation of p53 by ribosomal protein L23. 1531 74

P2P-R is a nuclear protein with potential functional roles in the control of gene expression and mitosis. The P2P-R protein also interacts with the p53 and Rb1 tumor suppressor proteins. To search for additional functional associations of P2P-R, we employed the WebQTL database that contains the results of cDNA microarray analysis on forebrain, cerebellum, and hematopoietic stem cell (HSC) specimens of multiple BXD recombinant inbred strains of mice. Using WebQTL, gene products were identified that show genetically based coexpression with P2P-R. Initial studies identified general groups of mRNAs that share common functional roles and high covariation in expression with P2P-R. These functional groups involved the regulation of transcription, nucleotide binding, translation control, and ion transport. The findings related to translational mechanisms were further evaluated. In HSCs, expression of P2P-R mRNA demonstrates an impressive expression correlation with a group of gene products associated with translation; high expression of P2P-R specifically was associated with decreased expression of 29 ribosomal protein mRNAs. In all three tissues that were screened using the WebQTL database, a strong positive expression covariance between P2P-R and the Pum2 gene product also was observed. PUM2 is a member of the highly conserved Puf family of RNA binding proteins that often function as gene-specific translation regulators. The ability of Puf proteins to repress translation is mediated by their binding to specific elements located in the 3' untranslated region (UTR) of their target mRNAs. To assess the functional significance of the strong genetic correlation in expression of P2P-R and PUM2, the 3' UTR of the P2P-R mRNA was analyzed and found to contain one perfect consensus and two near-perfect consensus PUM2 binding sequences. PUM2 pull-down methods combined with reverse transcription and RT-PCR confirmed that PUM2 does indeed bind P2P-R mRNA. These results suggest that P2P-R expression may be translationally regulated by PUM2 and that P2P-R may modulate translation by influencing ribosomal protein gene expression. This study represents the first description of a RNA target for mammalian Puf proteins and the first molecular confirmation of information obtained using the WebQTL database.
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PMID:P2P-R expression is genetically coregulated with components of the translation machinery and with PUM2, a translational repressor that associates with the P2P-R mRNA. 1561 1


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