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)

We used 21 monoclonal antibodies (PAbs 100 to 117, 405, 419, and KT3) specific for different determinants in simian virus 40 (SV40) large T antigen (T) and one antibody specific for p53 that coprecipitates T complexed with p53 (T-p53) to analyze T in SV40-infected CV1 cells. We measured the ATPase specific activity, extent of adenylylation, and p53 content of T precipitated by antibodies directed against the N-terminal region I (0.65 to 0.62 map units), the midregion III (0.43 to 0.28 map units) containing both the ATPase- and nucleotide-binding sites, and the C-terminal region IV (0.28 to 0.17 map units) of T. Lytic T appeared to exist in three different forms with respect to p53 binding and ATPase activity. The most ATPase-active form of T was that precipitated by PAb 122. This T-p53 complex contained only 6% of the total T but contributed 35% of the ATPase activity, on average. Free p53 isolated from 3T6, Ann-1, or L929 cells had no apparent ATPase activity. A second form of T precipitated by several antibodies had little associated p53 but appreciable ATPase activity, accounting for 15 to 20% of total T and 60 to 70% of the ATPase activity. The rest of T constituted the third form and was also depleted in p53 but had a decreased ATPase specific activity. Thus, the remaining 75 to 80% of T had 15 to 20% of the ATPase specific activity. Antibodies specific for region III precipitated T with both altered ATPase activity and altered amounts of bound p53. PAbs 104 and 114 reacted with ATPase-active T but inhibited ADP hydrolysis, suggesting that they were inactivating antibodies. T that was preferentially adenylylated in vitro corresponded to T that was also preferentially ATPase active. T bound to p53 was adenylylated to a higher specific activity than total T. In addition, p53 itself was significantly adenylylated under these conditions. The results suggest that ATPase activity and p53 binding are structurally and functionally related and that p53 alters biochemical activities of T and plays a role in productive infection.
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PMID:Characterization of simian virus 40 large T antigen by using different monoclonal antibodies: T-p53 complexes are preferentially ATPase active and adenylylated. 244 96

The expression of genes coding for the ATP/ADP translocase, calcyclin, ornithine decarboxylase, vimentin, proto-onc genes p53 and c-Ha-ras1 and also for two genes JE and KC with as yet unknown function was studied during regeneration of rat liver. Genes highly induced were: JE (2-8 h of regeneration), ATP/ADP translocase (8-18 h), c-Ha-ras-1 (6-48 h) and p53 (6-12 h). Vimentin and KC gene transcripts were not detectable in the first 48 h of liver regeneration, whereas ornithine decarboxylase and calcyclin gene transcripts were present at constant levels. Our findings extend the list of genes expressed at the early stages of liver regeneration.
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PMID:Expression of "cell-cycle-dependent" genes in regenerating rat liver. 245 62

We have compared the ATPase, DNA-binding, and helicase activities of free simian virus 40 (SV40) large T antigen (To) and T antigen complexed with cellular p53 (T+p53). Each activity is essential for productive viral infection. The T+p53 and To fractions were prepared by sequential immunosorption of infected monkey cells with monoclonal antibodies specific for p53 and T antigen. The immune-complexed T fractions were then assayed in parallel. For ATP hydrolysis, the Vmax for T+p53 was 143 nmol of ADP per min per mg of protein, or 18-fold greater than for To. ATP had no effect on the stability of the T+p53 complex. The T+p53 complex was significantly more active than To in hydrolyzing dATP, dGTP, GTP, and UTP. Of the nucleotide substrates tested, the greatest relative increase (T+p53/To) was in hydrolyzing dGTP and GTP. In DNase footprinting assays performed under replication conditions, the T+p53 complex protected regions I, II, and III of origin DNA while equivalent amounts of To protected only regions I and II. Region III is known to contribute to the efficiency of DNA replication and contains the SP1-binding sites of the early viral promoter. The T+p53 fraction was also a more efficient helicase than To, especially with a GC-rich primer and template. Thus, the T+p53 complex has enhanced ATPase, GTPase, DNA-binding, and helicase activities. These findings imply that complex formation between cellular monkey p53 and SV40 T antigen modulates a number of essential activities of T in SV40 productive infection.
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PMID:The p53 complex from monkey cells modulates the biochemical activities of simian virus 40 large T antigen. 252 75

Both the tumor suppressor gene products, the retinoblastoma sensitivity gene product pRb110 and p53, are found in oligomer complexes with the oncogene products of the DNA tumor viruses. It has been demonstrated that p53 binds to the M(r) 70,000 heat shock protein family. However, the protein association of pRb110 with the M(r) 70,000 heat shock protein family is not yet known. We analyzed the immunoprecipitates made with TYK-nu human ovarial carcinoma cell lysate and anti-pRb110 or anti-heat shock protein monoclonal antibodies. In this paper, we demonstrate that pRb110 is associated with the M(r) 73,000 heat shock cognate protein, but not with the M(r) 72,000 heat shock protein. This selective protein association was also detected in HeLa cervical carcinoma cells. Furthermore, the protein complexes of the M(r) 73,000 heat shock cognate protein and pRb110 were dissociated with the presence of ATP, but not with ADP and the nonhydrolyzable ATP analogue, ATP gamma S. This indicates that the dissociation is dependent on the ATP hydrolysis. These data may suggest an as yet undefined important role of M(r) 73,000 heat shock cognate protein in the cell growth control in collaboration with pRb110.
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PMID:Protein interaction of retinoblastoma gene product pRb110 with M(r) 73,000 heat shock cognate protein. 845 45

We have recently reported that mutant but not wild-type (wt) p53 protein was ADP-ribosylated in primary rat cells overexpressing the temperature-sensitive murine p53val135 gene. To examine whether the lack of susceptibility to modification is a specific feature of p53val135 adopting wt conformation or rather a general property of this tumor suppressor protein, we have studied ADP-ribosylation of wt p53 of different origin in vitro using semi-purified poly(ADP-ribose) transferase (pADPRT). In vitro pADPRT modified human and mouse wt p53 and p53val135. Under limiting substrate concentration, the molar mass of ADP-ribosylated p53 was only slightly altered. Chase experiments with high NAD concentration resulted in the formation of poly(ADP-ribosyl)ated p53 protein shifted to 64 kD. However, preincubation of wt p53 proteins with a p53 consensus sequence resulting in complex formation abolished the modification of wt p53. This indicates that in the cellular environment the specific DNA binding of wt p53 prevents its covalent modification by poly(ADP-ribose).
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PMID:ADP-ribosylation of wild-type p53 in vitro: binding of p53 protein to specific p53 consensus sequence prevents its modification. 869 40

Poly(ADP-ribosyl)ation of mutant and wild-type p53 was studied in transformed and nontransformed rat cell lines constitutively expressing the temperature-sensitive p53135val. It was found that in both cell types at 37.5 degrees C, where overexpressed p53 exhibits mutant conformation and cytoplasmic localization, a considerable part of the protein was poly(ADP-ribosyl)ated. Using densitometric scanning, the molecular mass of the modified protein was estimated as 64 kD. Immunofluorescence studies with affinity purified anti-poly(ADP-ribose) transferase (pADPRT) antibodies revealed that, contrary to predictions, the active enzyme was located in the cytoplasm, while in nuclei chromatin was depleted of pADPRT. A distinct intracellular localization and action of pADPRT was found in the cell lines cultivated at 32.5 degrees C, where p53 adopts wild-type form. Despite nuclear coexistence of both proteins no significant modification of p53 was found. Since the strikingly shared compartmentalization of p53 and pADPRT was indicative of possible complex formation between the two proteins, reciprocal immunoprecipitation and immunoblotting were performed with anti-p53 and anti-pADPRT antibodies. A poly(ADP-ribosyl)ated protein of 116 kD constantly precipitated at stringent conditions was identified as the automodified enzyme. It is concluded that mutant cytoplasmic p53 is tightly complexed to pADPRT and becomes modified. At 32.5 degrees C binding to DNA of p53 or its temperature-dependent conformational alteration might prevent an analogous modification of the tumor suppressor protein.
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PMID:ADP-ribosylation of p53 tumor suppressor protein: mutant but not wild-type p53 is modified. 883 78

Platelet activation induced by anti-CD9 mAb, which depends upon Fc gammaRII, has been considered to be similar to that induced by Fc gammaRII cross-linking. In this work, we present several lines of evidence to suggest that the mode of platelet activation induced by anti-CD9 mAb is distinct from that induced by Fc gammaRII cross-linking. Ca2+ release from intracellular Ca2+ stores induced by anti-CD9 mAb depended almost totally upon thromboxane A2 production and released ADP, whereas that induced by Fc gammaRII was affected only minimally by these factors. Fc gammaRII cross-linking induced Ca2+ channel opening, which is dependent upon the depletion of intracellular Ca2+ stores. In contrast, anti-CD9 mAb appeared to directly open Ca2+ channels, irrespective of intracellular Ca2+ stores (Kuroda et al., 1995. J. Immunol. 155: 4427). The Ca2+ requirement for the Ca2+ channels opened by Fc gammaRII cross-linking was also distinct from that induced by anti-CD9 mAb. The early phase of Fc gammaRII tyrosine phosphorylation was dependent upon thromboxane A2 production with anti-CD9 mAb-induced activation, whereas that of Fc gammaRII cross-linking was not. p72(syk) and p53/56(lyn) appeared to associate with Fc gammaRII in platelet activation induced by Fc gammaRII cross-linking, whereas there was little, if any, association between Fc gammaRII and these tyrosine kinases in anti-CD9 mAb-induced activation. Piceatannol, a selective inhibitor of p72(syk), enhanced Fc gammaRII tyrosine phosphorylation induced by Fc gammaRII cross-linking, whereas it attenuated the process in anti-CD9 mAb-induced platelet activation. It is suggested that the regulatory mechanism of Fc gammaRII tyrosine phosphorylation differs between these two modes of platelet activation.
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PMID:Differential activation of human platelets induced by Fc gamma receptor II cross-linking and by anti-CD9 monoclonal antibody. 895 16

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

Poly(ADP-ribose) polymerase [PARP; NAD+ ADP-ribosyltransferase; NAD+: poly(adenosine-diphosphate-D-ribosyl)-acceptor ADP-D-ribosyltransferase, EC 2.4.2.30] is a zinc-finger DNA-binding protein that detects specifically DNA strand breaks generated by genotoxic agents. To determine its biological function, we have inactivated both alleles by gene targeting in mice. Treatment of PARP-/- mice either by the alkylating agent N-methyl-N-nitrosourea (MNU) or by gamma-irradiation revealed an extreme sensitivity and a high genomic instability to both agents. Following whole body gamma-irradiation (8 Gy) mutant mice died rapidly from acute radiation toxicity to the small intestine. Mice-derived PARP-/- cells displayed a high sensitivity to MNU exposure: a G2/M arrest in mouse embryonic fibroblasts and a rapid apoptotic response and a p53 accumulation were observed in splenocytes. Altogether these results demonstrate that PARP is a survival factor playing an essential and positive role during DNA damage recovery.
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PMID:Requirement of poly(ADP-ribose) polymerase in recovery from DNA damage in mice and in cells. 920 86

Signals of etoposide (ETO) induced apoptosis were studied in a human (B) lymphoma cell line, HT58. Morphology and DNA fragmentation assays proved the appearance of apoptosis after a short ETO treatment (4 hours). Modulation of signal components of this apoptotic pathway resulted the following a) phorbol ester (PMA) or heat shock inhibited apoptosis, which was prevented by staurosporine b) 3-amino-benzamide, a potent poly(ADP-ribose)polymerase inhibitor, had no significant effect; c) cysteine reactive compounds, such as iodoacetamide and phenylarsine oxide, as well as protease inhibitor TPCK were very active inhibitors of apoptosis; d) protein synthesis inhibitor, cycloheximide, potentiated cell death; e) the ETO-induced p53 protein overexpression had neither enhancing nor protecting effect on the apoptotic process. In conclusion, in the majority of HT58 lymphoma cells the apoptotic machinery is "primed" (the components are already expressed) and ETO-induced apoptosis is regulated by STA sensitive phosphorylation and proteolysis by cystein proteases, but not affected by ADP-ribozylation or p53.
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PMID:Modulation of apoptosis signaling in etoposide-treated lymphoma cells. 925 89


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