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)

The induction of murine erythroleukemia cells (MELC) to terminal differentiation by hexamethylene bisacetamide (HMBA) is accompanied by changes in the levels of c-myb and c-myc mRNA, and in p53 protein levels. We simultaneously examined the effects of HMBA on modulation of c-myb, c-myc and p53 mRNA and protein levels, and examined the relationship between these changes and commitment to terminal cell division. In MELC cultured with HMBA, c-myb protein levels paralleled c-myb mRNA levels except at 24h, when the protein level was equivalent to the level in control cultures, whereas the mRNA had decreased. The c-myc protein paralleled c-myc mRNA throughout induction. The p53 mRNA and protein behaved in a discordant fashion. The p53 protein decreased to very low levels between 4 and 8 h and remained low, while the mRNA, which initially decreased, reaccumulated by 24 and 48 h. Transfer of MELC after 12 to 48 h of culture with HMBA to medium without inducer resulted in rapid (less than 3 h) reaccumulation of the c-myb mRNA, c-myb protein, and p53 protein, and cessation of recruitment of cells to commitment. Cells already induced to commit to terminal differentiation continued to express the differentiated phenotype.
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PMID:Modulation of the c-myb, c-myc and p53 mRNA and protein levels during induced murine erythroleukemia cell differentiation. 264 54

Quantitative treatment of multiparametric determination on cells using flow cytofluorometry was made possible by the development of a computer program that allows the relative quantification of a specific protein as a function of the position of cells during the cell cycle. This type of analysis provides interesting information about the distribution of a given protein throughout the cell cycle. Four examples showing the distribution of specific proteins illustrate such a quantification during the cell cycle in two different cell lines. The program also allows for the handling of a series of histograms obtained by the analysis of protein distribution as a function of DNA content in relation to a third parameter. To illustrate possible applications for this program, the evolution of the distribution of two proteins, the oncoprotein p53 and the histone H1(0), during the induced differentiation of murine erythroleukemia cells has been studied.
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PMID:Flow cytofluorimetric determination of protein distribution throughout the cell cycle. 267 Apr 86

The p53 gene is rearranged in a high proportion of erythroleukemic cell lines derived from the spleens of mice infected with Friend leukemia virus. These rearrangements result in either the synthesis of a truncated protein or the inactivation of the p53 gene. Here we have molecularly characterized the rearrangements in two murine erythroleukemic cell lines induced by Friend leukemia virus, DP20-1 and CB3, that contain a rearranged p53 gene and fail to express p53 protein. The rearrangement in the DP20-1 cell line is due to the insertion of Friend spleen focus-forming provirus (SFFV) in the 3' end of the p53 gene in intron sequences between exons 9 and 10. Transfection of molecular clones of this SFFV provirus into NIH3T3 cells results in the generation of infectious virus as determined by its ability, in the presence of helper virus, to induce rapid splenomegaly and polycythemia when injected into adult DBA/2J mice. Insertion of SFFV in DP20-1 cells resulted in the expression of an aberrant 2.9 kb RNA species. Analysis of a molecular clone of the rearranged p53 gene in a second cell line, CB3, revealed that the p53 gene in this clone has sustained a large deletion within the p53 gene resulting in the loss of coding sequences between exons 4 and 8. The 5' end of the deletion originates within exon 4 and extends 3' to within the eighth intron. The significance of these findings with regard to the multi-stage nature of Friend virus induced erythroleukemia is discussed.
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PMID:Inactivation of the p53 oncogene by internal deletion or retroviral integration in erythroleukemic cell lines induced by Friend leukemia virus. 284 14

The erythroleukemia induced by the Friend spleen focus-forming virus (SFFV) in mice exemplifies a multistep oncogenic process. Its sequential steps include a rapid polyclonal hyperplastic stage and a more slowly developing malignant stage characterized by autonomous erythroid cells. We report here that the helper virus normally present in mice infected by SFFV is not required for development of the second stage of transformation. In this study, mice were infected with a polycythemia-inducing variant of SFFV which was prepared as a helper-free stock (L. Wolff and S. Ruscetti, 1985, Science 228, 1549). Highly malignant cells could be detected in helper-free SFFV-infected mice by their transplantability into the omentum of sublethally irradiated mice, and erythroleukemia cell lines, typical of previously isolated Friend murine erythroleukemia cell lines, could be established from diseased spleens. Like their helper virus-containing counterparts, the lines established with helper-free SFFV are inducible for hemoglobin synthesis with a variety of chemicals, but not erythropoietin, and express p53, a marker of malignant transformation. Although the cells expressed SFFV encoded proteins, none expressed gene products of replication competent murine leukemia viruses.
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PMID:Induction of the autonomous stage of transformation in erythroid cells infected with SFFV: helper virus is not required. 301 73

Hexamethylene bisacetamide (HMBA), a highly polar compound, induces murine erythroleukemia (MEL) cells to express the erythroid phenotype, including cessation of proliferation. Inducer-mediated differentiation of MEL (DS19) cells is a multistep process characterized by a latent period during which a number of changes occur including alterations in ion flux, an increase in membrane-bound protein kinase C (PKC) activity, the appearance of Ca2+ and phospholipid-independent PKC activity in the cytosol, and modulation in expression of a number of genes such as c-myc, c-myb, c-fos and the p53 genes. HMBA-mediated commitment to terminal differentiation is first detected at about 12 hours and increases in a stochastic fashion until over 95% of the population is recruited to terminal differentiation by 48 to 60 hours. Commitment is associated with persistent suppression of c-myb gene expression. By 36 to 48 hours, transcription of the globin genes has increased 10 to 30 fold, whereas transcription from rRNA genes is suppressed. The steroid, dexamethasone, or the tumor promoter, phorbol-12-myristate-13-acetate (TPA), suppress HMBA-induced MEL cell terminal differentiation. These agents appear to act at a late step during the latent period. MEL cell lines derived from DS19 by selection for resistance to vincristine are: 1) induced to commit without a detectable latent period, 2) markedly more sensitive to HMBA, and 3) resistant to dexamethasone or TPA inhibition of HMBA-induced commitment. The data suggests that vincristine-resistant MEL cells express a factor which circumvents essential HMBA-mediated early events. In vitro studies with HMBA provide a basis for the application of HMBA to clinical therapy of human cancers. Clinical trials with HMBA have been initiated.
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PMID:Hexamethylene bisacetamide-induced differentiation of transformed cells: molecular and cellular effects and therapeutic application. 304 66

Among the early events of induced differentiation of murine erythroleukemia cells that we studied was the variations of cell distribution in the cell cycle as a function of the time of induction. Flow-cytofluorimetry measurements of DNA content and BrdU incorporation allowed for a precise determination of the variations of the cell cycle parameters. Cells underwent a transient arrest in both G1 and G2 + M between 6 to 16 h of induction. The progression of the cells through S phase seems not to be affected during this period. After this time cells escaped from G1 and reentered the S phase. We described previously [S. Khochbin et al. (1988) J. Mol. Biol. 200, 55-64], that p53 decreased continuously during the induction of MELC and remained at a steady-state level after 18 to 20 h of induction. In order to look for a possible redistribution of the protein along the cell cycle during the induction process, we measured the accumulation of the protein along the cell cycle. In noninduced cells there were four steps in the accumulation of the protein throughout the cell cycle: the amount of p53 was constant during G1 and it increased as cells progressed through S phase, which is characterized by an increased accumulation at the G1/S transition and a more moderate accumulation during progression through the rest of the S phase. A constant level in G2/M, approximately twice that obtained in G1, was achieved. There was no change in this distribution that correlated with the various modifications of the cell cycle in induced cells. It seems then, that p53 is associated neither with the progression of the cells in the S phase nor with the resumption of the DNA synthesis after the G1 block.
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PMID:Early events in murine erythroleukemia cells induced to differentiate: variation of the cell cycle parameters in relation to p53 accumulation. 305 33

Oncogenes may play a crucial role in the genetic program of cellular differentiation; even, probably, at a very early stage in this program, which can be described as pre-commitment. We have investigated the variation in, and the control level of, the accumulation of the transformation-associated cellular protein p53 in murine erythroleukemia cells induced to differentiate by hexamethylene bisacetamide. Using flow cytofluorimetry after double staining of the cells, we have found that p53 decreased from two hours after the input of the inducer, to reach a basal level of about 30% of the starting value. The stability of the protein was found to be affected neither by the inducer nor by the position of the cells in the cell cycle. Looking for the regulation mechanism of the p53 decay, we found that the mRNA started to decrease as early as half an hour after the hexamethylene bisacetamide was put in the culture medium, and that the transcription rate of the gene itself could not account for the observed down-regulation of the mRNA, suggesting a post-transcriptional control for the mRNA accumulation. This control did not require the de-novo synthesis of a protein component, as shown by cycloheximide experiments, but seemed to be governed by the induced synthesis of an RNA molecule. Hypothetical models for such a regulation process are discussed in the light of recent reports on the metabolism of mRNA.
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PMID:Early events in murine erythroleukemia cells induced to differentiate. Accumulation and gene expression of the transformation-associated cellular protein p53. 328 60

We have investigated a mutation in the p53 gene leading to expression of a truncated 46,000-dalton protein in a Friend virus-induced erythroleukemia cell line. cDNA sequence analysis revealed a deletion of nucleotide sequences in exon 7 and part of exon 8; 17 additional nucleotides, derived from intron 6, were present in the cDNA and served to maintain the reading frame of the encoded protein. Comparison with p53 protein from other species indicated that the region of the molecule missing in p46 included a highly conserved region. In addition, p46 failed to bind SV40 large T antigen in vitro under conditions which promoted binding of p53 to large T. It seems likely, therefore, that an important functional property of p53 may be affected by the mutation.
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PMID:Loss of a highly conserved domain on p53 as a result of gene deletion during Friend virus-induced erythroleukemia. 329 Aug 8

The erythroleukemia induced by Friend virus complex in adult mice is a multistage malignancy characterized by the emergence, late in the disease, of tumorigenic cell clones. We have previously shown that a significant proportion of these clones have unique rearrangements in their cellular p53 oncogene. The clonal relationships among Friend tumor cells isolated in the late stages of Friend erythroleukemia were analyzed by examining the unique integration site of Friend murine leukemia virus and the unique rearrangement in their cellular p53 oncogene. The majority of clones isolated from individual mice infected with Friend virus were clonally related as judged by the site of Friend murine leukemia virus integration. However, Southern gel analysis of DNA from individual Friend cell clones indicated that all of the clones with a normal p53 gene from the same mice were clonally related, but were unrelated to the Friend cell lines with a rearranged p53 gene. These results suggest that Friend tumor cells with rearrangements in their p53 gene arise as the result of a unique transformation event, rather than by progression from already existing tumor cells with a normal p53 gene. They also suggest that such rearrangements in the p53 gene confer a strong selective advantage to these cells in vivo.
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PMID:Multistage Friend erythroleukemia: independent origin of tumor clones with normal or rearranged p53 cellular oncogenes. 330 14

The protein p53 is functionally implicated in the normal regulation of cell proliferation. We have previously reported that the rate of p53 protein synthesis is reduced during the cessation of cellular proliferation which accompanies the in vitro induced differentiation of Friend-erythroleukemia cells. In this work we followed the p53 mRNA expression during the differentiation of these cells. We report on a new type of p53 mRNA with a slower electrophoretic mobility on gels, which appeared in the cytoplasmic fraction of the erythroleukemia cells between 1 to 3 days following induction of differentiation and persisted in the cells until Day 7. The larger type of p53 mRNA was found associated with polysomes, suggesting that it is translatable in cells. The difference in size between the noninduced and the differentiation-specific type of p53 mRNAs (about 200 nucleotides) was not abrogated following the deadenylation of the mRNAs, thus excluding the possibility that the altered size might result from a longer poly(A) tract. S1 nuclease mapping of the 3' termini of the p53 mRNAs revealed that the 3' ends of both p53 mRNA types were identical, suggesting that either alternative splicing or a longer 5' noncoding region could cause this heterogeneity in p53 mRNA transcripts.
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PMID:Changes in p53 mRNA expression during terminal differentiation of murine erythroleukemia cells. 331 97


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