UNIPROT:P04637 - FACTA Search

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

The human polyomavirus JC virus (JCV) is highly tumorigenic in rodents, but transforms cells in culture inefficiently. To explore the basis for JCV's restricted transforming behavior, nonpermissive Rat2 cells were contransfected with pSV2-neo (encodes G418 resistance) and viral DNAs including prototype, variant, and mutant JCV genomes and two JCV-SV40 chimeras. By selecting cells displaying G418 resistance, lines were established that contain viral DNA and exhibit a wide range of transformed phenotypes. The G418-resistant lines were tested for their ability to grow under anchorage-independent conditions, to overgrow a monolayer of untransformed cells, and to form dense colonies on plastic. Expression of the viral T and t proteins and interaction of T protein with the cellular anti-oncoprotein p53 were measured. Also determined was the number of intact viral early coding regions integrated within the cellular DNA. The results of these studies suggested that most of the G418-resistant lines failed to express JCV T protein above a minimum threshold level required for their conversion to a fully transformed phenotype. In anchorage-independent growth assays, higher levels of a 17-kDa T-related peptide in JCV transformants appeared to compensate for decreased T antigen levels. Comparison of the T to p53 ratios in the cell lysates suggested that the quaternary structure of the JCV protein differed from that of its SV40 counterpart in the T-p53 complex. The presence of multiple vs single integrated copies of the viral genome in the cells did not correlate with elevated T antigen expression or an enhanced transformation status.
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PMID:Analysis of G418-selected Rat2 cells containing prototype, variant, mutant, and chimeric JC virus and SV40 genomes. 839 98

The p53 gene, which is frequently mutated in various tumors, encodes a phosphoprotein thought to have a key role in the regulation of cell proliferation. To explore their biological effects, the HeLa carcinoma line, which does not express p53, was co-transfected with plasmid constructs expressing wild-type or mutant p53 proteins, or unrelated proteins, along with a plasmid conferring resistance to a neomycin-kanamycin antibiotic analog (G418). Both wild-type and mutant forms of p53 stimulated the number of G418-resistant colonies between 5- and 36-fold. Further investigation of colony development revealed that p53 enhanced cell survival, leading to increased colony numbers, but did not stimulate cell growth. Nonetheless, we suggest that an initial slowing of cell growth caused by expression of the unintegrated p53 plasmids renders the transfectants resistant to selection with G418, thus causing a higher frequency of G418-resistant colonies. p53 constructs were found to be expressed transiently in HeLa cells as expected, but the G418-resistant colonies frequently failed to express p53. This loss of p53 expression may be due to negative regulatory effects of p53 on the cytomegalovirus promoter that drives the selection marker.
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PMID:p53 confers a selective advantage on transfected HeLa cells. 845 34

Cancer-related mutations of the p53 tumor suppressor gene are clustered in the four so-called 'hot spots', codons 175, 248, 273 and 281/282. By using recombination PCR in vitro mutagenesis, we introduced point mutations into the codon 273 of wild-type (wt) p53 (pC53-SN3) from Arg to His (pC53-273H [273H]), Asp (273D), Pro (273P), Lys (273K), Leu (273L) or Thr (273T), and compared their biological and biochemical activities with wt p53 and cancer-derived 175H, 248W and 273H/309S. Among them, 273H/309S, 273H and 273D as well as wt p53 transactivated the chloramphenicol acetyltransferase (CAT) gene placed downstream of the p53 binding consensus, while none of the other mutants including 273L did. Transcriptions from human c-fos and rat PCNA promoters were suppressed by wt p53 and 273D, while they were enhanced variously by all other mutants in Saos-2 and/or NIH3T3 cells. On the other hand, growth of human squamous carcinoma cell lines measured by the plating efficiency of G418-resistant colonies was enhanced by transfection of 175H, 248W, 273H/309S and 273P, while suppressed by not only wt p53, 273D and 273H but also 273L. Thus, 273H/309S enhanced cell growth in spite of its p53-specific transactivation activity, while 273L suppressed cell growth in spite of its complete loss of the p53-specific transactivation. We concluded that the sequence-specific transactivation of p53 is not always correlated with its growth inhibitory activity.
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PMID:The 273rd codon mutants of p53 show growth modulation activities not correlated with p53-specific transactivation activity. 864 76

We investigated the effects of transfection of wild-type TP53 on the growth properties of a human gingival carcinoma cell line, KOSC-3, in which the TP53 gene is mutated at codon 248 and overexpressed. The wild-type TP53 expression plasmid, pCDM8-p53/neo and the control plasmid, pCDM8/neo, were each stably transfected into KOSC-3 cells by using the calcium phosphate method. The number of G418-resistant colonies from wild-type TP53-transfected cells was approximately half that from plasmid controls. Exogenous wild-type TP53 transcripts were identified in four of the 20 G418-resistant clones analysed by reverse transcription PCR. Although the growth rates of the wild-type TP53+ clones did not drastically change during log phase, their saturation density was significantly reduced. The wild-type TP53+ cells were morphologically flat and enlarged when cultured in vitro, and were less able to form colonies in soft agar. In nude mice, the wild-type TP53+ clones formed subcutaneous tumours with conspicuous keratinisation and notable cell death that was not manifested in the parental and plasmid control cells. These findings indicate that the wild-type TP53 gene, even when it coexists with a mutated form, may function as a growth suppressor and differentiation inducer under restricted conditions in gingival squamous cell carcinoma.
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PMID:Transfection of wild-type TP53 induces differentiation in human gingival carcinoma cells. 881 3

Due to their limited life time in culture and their relative resistance to DNA transfection, primary fibroblasts derived from UV-hypersensitive patients could not be used for cloning DNA repair gene and studying stable complementation with wild-type DNA repair genes. Primary cells were only used for complementation analysis after transient expression through cell fusion. DNA microinjection and transfection. We report the retroviral-mediated highly efficient transfer and stable expression of XPD/ERCC2 gene in fibroblast strains from eight different patients using the LXPDSN retroviral vector. Cells derived from skin biopsies of xeroderma pigmentosum and trichothiodystrophy patients were incubated with vector-containing suspension and selected with the neomycin-analog G418. LXPDSN vector specifically complemented cells belonging to the XP-D group. Long-term reversion of repair-deficient phenotype, monitored by UV survival and UDS analysis, has been achieved in these diploid fibroblasts. We demonstrate this methodology is a powerful tool to study phenotypic reversion of nucleotide excision repair-deficient cells such as cellular DNA repair properties and we suggest that it may be used to study other cellular parameters (cell cycle regulation, p53 stability or immunosurveillance-controlling factors) involved in UV-induced skin cancers and which reliability requires the use of untransformed cells.
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PMID:Long-term complementation of DNA repair deficient human primary fibroblasts by retroviral transduction of the XPD gene. 896 Jan 28

In vitro cell transformation is a valuable approach for studying the mechanisms of multistep carcinogenesis of human cells. Since immortalization is an essential step for in vitro neoplastic transformation of human cells, this study addresses the question of whether mutant p53 contributes to the immortalization process of human cells. The mutant p53 gene (mp53: codon273Arg-His) was introduced into normal human fibroblasts (OUMS-24 line) and a G418-resistant clone, OUMS-24/P6 line, was obtained. This clone showed an extended life span and chromosome abnormalities, but senesced at the 79th population doubling level (PDL). When these cells were subjected to intermittent X-ray treatment, they became an immortalized cell line (OUMS-24/P6X). Although these immortalized cells showed chromosome abnormalities, they were not tumorigenic. On the other hand, normal OUMS-24 cells into which mp53 had not been introduced were not immortalized by the same X-ray treatment. These results indicate that introduction and expression of mp53 alone were not sufficient for immortalization of human cells, and that mutations of the remaining wild-type p53 or other genes may have been necessary for immortalization. In fact, no expression of the wild-type p53 was detected in the immortalized cells by RT-PCR. Expression of p21, which is located downstream of p53, was remarkably reduced in the immortalized cells, resulting in an increase in cdk2 and cdc2 kinase activity. These findings indicate that the p53-p21 cascade may play some role in the immortalization of human cells. On the other hand, there was no significant difference in expression of proteins such as Rb, p16, cdk4, cdk6, cyclin A and cyclin D1 between the normal and immortalized human fibroblasts.
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PMID:Transformation of normal human fibroblasts into immortalized cells with the mutant p53 gene and X-rays. 898 2

Activation of ras proto-oncogenes occurs frequently in vivo in chemically induced rodent tumours, including rat hepatomas induced by aflatoxin B1. This study examines the in vitro activation of a human ras gene by this mycotoxin. A plasmid containing the human Ha-ras proto-oncogene, together with a neomycin resistance gene (pECneo), was incubated in vitro with a microsomal system generating aflatoxin B1 8,9-epoxide. Subsequent transfection of the plasmid into mouse NIH 3T3 fibroblasts, followed by G418 selection and s.c. injection of surviving cells into immunodeficient mice demonstrated that the proto-oncogene had acquired transforming capacity. Although a single tumour resulted from similar treatment of incubated unconjugated plasmid, no tumours were produced by a secondary round of transfections using DNA from this tumour. Selective PCR amplification of the human Ha-ras gene in extracted tumour DNA followed by sequencing demonstrated the presence of G-->T transversions either at the first or middle base of codon 12 in tumours resulting from transfection with the aflatoxin-B1-modified pECneo plasmid, but this was not detected in the single tumour resulting from transfection with the unmodified plasmid. Thus, although a mutation in the Ha-ras gene has not been reported for human primary hepatomas occurring in aflatoxin-exposed populations, metabolically activated aflatoxin B1 is capable of mutating this proto-oncogene to its oncogenic form in vitro. No mutations were observed in codon 61. It appears that, in contrast to the frequently reported G-->T transversions in codon 249 of the p53 gene in primary hepatomas in aflatoxin-exposed humans, the failure to detect Ha-ras mutations in these tumours is not due to an inability of aflatoxin B1 to activate this proto-oncogene. The G-->T transversions observed in this study contrast with the most frequent aflatoxin B1 in vivo induced mutations, G-->A transitions in the rat Ki-ras gene. Possible mechanisms for these differences are discussed.
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PMID:In vitro activation of the human Harvey-ras proto-oncogene by aflatoxin B1. 916 74

The human hepatocellular carcinoma (HCC) cell line, HLF, expresses only mutant-type p53 (mt-p53), which has an amino acid substitution at the 244th residue from glycine to alanine. HLF cells were transfected with wild-type p53 (wt-p53) cDNA construct pC53-SN3, mt-p53 cDNA construct pC53-SCX [which differs by a single nucleotide, resulting in alanine instead of valine at the 143rd residue in p53 (p53-143)], or pCMV-Neo-Bam, as a control, by a liposome method. After G418 selection, three wt-p53 stable transformants (WT), four mt-p53 transformants (MT), and three control vector transformants (VT) were obtained. We analyzed the cell growth and morphological changes of these transformants under different culture conditions [fetal calf serum (FCS), 10%, 1%, and 0%]. Whereas no difference from control in the growth rate and morphology was observed under the 10% FCS conditions, serum starvation induced remarkable phenotypical changes in all three WTs, but not in the other transformant. Corresponding to these phenotypical changes, the transcriptional activity of wt-p53 was increased more than nine fold. These results indicated that serum starvation would induce wt-p53 biological function, which is tightly linked to morphological changes and growth suppression. To induce these changes, the introduction of the wt-p53 gene itself was not sufficient, and additional triggering, i.e., serum starvation, was indispensable.
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PMID:Wild-type p53 gene-induced morphological changes and growth suppression in hepatoma cells. 921 46

The study of in vitro cell transformation is valuable for understanding the multistep carcinogenesis of human cells. The difficulty in inducing neoplastic transformation of human cells by treatment with chemical or physical agents alone is due to the difficulty in immortalizing normal human cells. Thus, the immortalization step is critical for in vitro neoplastic transformation of human cells. We transfected a mutant p53 gene (mp53: codon 273Arg-His) into normal human fibroblasts and obtained two G418-resistant mp53-containing clones. These clones showed an extended life span but ultimately senesced. However, when they were treated with either 4-nitroquinoline 1-oxide or X-rays, they were immortalized. The immortalized cells showed both numerical and structural chromosome abnormalities, but they were not tumorigenic. The expression of mutant but not wild type p53 was detected in the immortalized cells by RT-PCR. Expression of p21, which is located downstream of p53, was remarkably reduced in the immortalized cells, resulting in increased cdk2 and cdc2 kinase activity. However, there was no significant difference between the normal and immortalized human cells in expression of another tumor suppressor gene, p16. These findings indicate that the p53-p21 cascade may play an important role in the immortalization of human cells.
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PMID:Immortalization of mutant p53-transfected human fibroblasts by treatment with either 4-nitroquinoline 1-oxide or X-rays. 933 45

We have constructed wt-p53 gene recombinant retroviral vector. The p53 cDNA with positive regulative sequence was subcloned into the Xho I site between the two LTRs of the N2A retroviral vector which contained the cytomegalovirus promotor/enhancer for expression and a neomycin resistance gene allowing G418 selection in reverse orientation and established the PA317 packaging cell line producing virus. The recipient cell line of Hep2 (laryngocarcinoma) containing the abnormal p53 gene was transfected in vitro with fresh retroviral stock produced. The result showed that the constructed wt-p53 gene recombinant retroviral vector was able to suppress growth of laryngocarcinoma cell in vitro. These observations indicate that recombinant retrovirus expressing wild-type p53 may be the useful vectors for gene therapy of human laryngocarcinoma.
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PMID:[Construction of the wt-p53 gene recombinant retroviral vector. Inhibiting the growth of laryngocarcinoma cell line]. 938 72

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