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)

TG.AC transgenic mice harbor a v-Ha-ras transgene and retain two normal c-Ha-ras alleles and are susceptible to skin tumor formation by 12-O-tetradecanoylphorbol-13-acetate (TPA). To determine whether normal c-Ha-ras antagonizes the oncogenic potential of the v-Ha-ras transgene and/or whether additional non-Ha-ras 7,12-dimethylbenz(a)anthracene (DMBA) initiation target genes exist in mouse skin, which could cooperate with v-Ha-ras to increase the frequency of initiation, rate of promotion, or risk of malignant conversion, we treated TG.AC mouse skin with a single subthreshold dose of DMBA. This was followed by limited TPA or diacylglycerol promotion to select for cells with additional genetic alterations over those cells containing the v-Ha-ras transgene only. DMBA-treated/TPA-promoted TG.AC mice demonstrated a 10-fold increase in the average number of papillomas per mouse, a greater incidence of papilloma bearing-mice, and an increased papilloma growth rate when compared to acetone-treated/TPA-promoted TG.AC mice. These profound changes in papilloma frequency and growth occurred in the absence of the characteristic DMBA-induced A182-->T mutation in c-Ha-ras and immunohistochemical nuclear staining for p53 protein. DMBA-treated/acetone-promoted TG.AC mice did not develop any tumors. Limited promotion with the model diacylglycerol, sn-1,2-didecanoylglycerol, similarly produced an average of 10-fold more papillomas in DMBA-treated mice than in acetone-treated/sn-1,2-didecanoylglycerol-promoted TG.AC mice. DMBA-treated/TPA-promoted TG.AC mice developed their first malignancy by 16 weeks, and by 30 weeks, 50% of the mice developed malignancies, whereas no malignancies were observed in acetone-treated/TPA-promoted TG.AC mice. These results indicate that there exist unidentified DMBA initiation target genes in TG.AC mouse skin that cooperate with mutant Ha-ras to increase papilloma frequency, growth, and malignant conversion, and that promoter treatment can influence malignant conversion by selecting for cells with multiple genetic alterations.
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PMID:Genetic alterations cooperate with v-Ha-ras to accelerate multistage carcinogenesis in TG.AC transgenic mouse skin. 760 38

Previous work has shown that a fusion protein bearing a "nonremovable" N-terminal ubiquitin (Ub) moiety is short-lived in vivo, the fusion's Ub functioning as a degradation signal. The proteolytic system involved, termed the UFD pathway (Ub fusion degradation), was dissected in the yeast Saccharomyces cerevisiae by analyzing mutations that perturb the pathway. Two of the five genes thus identified, UFD1 and UFD5, function at post-ubiquitination steps in the UFD pathway. UFD3 plays a role in controlling the concentration of Ub in a cell: ufd3 mutants have greatly reduced levels of free Ub, and the degradation of Ub fusions in these mutants can be restored by overexpressing Ub. UFD2 and UFD4 appear to influence the formation and topology of a multi-Ub chain linked to the fusion's Ub moiety. UFD1, UFD2, and UFD4 encode previously undescribed proteins of 40, 110, and 170 kDa, respectively. The sequence of the last approximately 280 residues of Ufd4p is similar to that of E6AP, a human protein that binds to both the E6 protein of oncogenic papilloma viruses and the tumor suppressor protein p53, whose Ub-dependent degradation involves E6AP. UFD5 is identical to the previously identified SON1, isolated as an extragenic suppressor of sec63 alleles that impair the transport of proteins into the nucleus. UFD5 is essential for activity of both the UFD and N-end rule pathways (the latter system degrades proteins that bear certain N-terminal residues). We also show that a Lys --> Arg conversion at either position 29 or position 48 in the fusion's Ub moiety greatly reduces ubiquitination and degradation of Ub fusions to beta-galactosidase. By contrast, the ubiquitination and degradation of Ub fusions to dihydrofolate reductase are inhibited by the UbR29 but not by the UbR48 moiety. ufd4 mutants are unable to ubiquitinate the fusion's Ub moiety at Lys29, whereas ufd2 mutants are impaired in the ubiquitination at Lys48. These and related findings suggest that Ub-Ub isopeptide bonds in substrate-linked multi-Ub chains involve not only the previously identified Lys48 but also Lys29 of Ub, and that structurally different multi-Ub chains have distinct functions in Ub-dependent protein degradation.
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PMID:A proteolytic pathway that recognizes ubiquitin as a degradation signal. 761 50

In this study we examine the relationship between p21CIP1/Waf1 (CIP1), a 21 kDa protein that binds to and modulates the activity of several cyclin dependent kinases and expression of wild-type (WT) p53 in human breast epithelial cells. Basal CIP1 protein, but not CIP1 mRNA levels correlated well with expression of WT p53 in human breast epithelial cells. To obtain more direct evidence that WT p53 regulated the level of CIP1 protein, the Human Papilloma Virus (HPV) E6 protein was introduced into immortalized 184B5 breast cells. Residual WT p53 levels correlated well with CIP1 protein but not CIP1 mRNA levels in isolated clones of transfected cells. CIP1 protein was increased at early times after growth factor arrested cells were stimulated to proliferate. The rise in CIP1 protein was due to a concomitant increase in CIP1 mRNA levels in MCF10, but not in normal mammary epithelial cells. DNA damage induced by ionizing radiation resulted in a transient increase in WT p53 levels but a prolonged induction of CIP1 protein. The sustained increase in CIP1 protein 24 h after radiation could not be attributed to a concomitant increase in CIP1 mRNA levels. Although the half-life of the CIP1 protein was not altered following irradiation, a fourfold increase in the amount of radioactivity incorporated into CIP1 protein was detected. When considered together these data suggest that wild-type p53 affects CIP1 protein accumulation at a posttranscriptional level in human breast epithelial cells under different physiologic and stress conditions.
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PMID:Effects of cell cycle, wild-type p53 and DNA damage on p21CIP1/Waf1 expression in human breast epithelial cells. 762 42

The regulation of p53 protein synthesis and p53-mediated gene transactivation were evaluated in cultured mouse keratinocytes maintained as basal cells or induced to differentiate by Ca2+ > 0.1 mM. p53 protein half-life, p53 protein synthesis and the level of p53 mRNA decreased during terminal differentiation, as detected by immunoprecipitation with a panel of p53-specific antibodies and Northern blotting. Thus differentiating keratinocytes have lower levels of p53 protein. This decline is not observed following growth arrest alone, or in papilloma cell lines which do not terminally differentiate in response to Ca2+. In contrast, the ability of endogenous p53 to transactivate transcription from the PG13 CAT plasmid increased during differentiation in vitro. This change in activity cannot be explained by changes in p53 conformation or nuclear localization. Consistent with these findings, mRNA for the p53-mediated genes WAF1 and mdm-2 increased with Ca(2+)-induced differentiation in a time dependent manner, suggesting activation of p53 contributes to the differentiated phenotype. However, p53-null mice exhibit histologically normal skin and epidermal keratinocytes from these mice express the appropriate markers of differentiation and suppression of DNA synthesis in vitro when the [Ca2+] is > 0.1 mM. The observation that proliferating cells have higher levels of p53 protein which is less active for its function than differentiated cell types could have a consequence for the selection of p53 gene mutations during carcinogenesis, depending upon the stage of differentiation of the tumor cell type.
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PMID:p53-mediated transcriptional activity increases in differentiating epidermal keratinocytes in association with decreased p53 protein. 778 75

2-Amino-3,4-dimethylimidazo[4,5-f]quinoline (MeIQ), a food mutagen, induces forestomach tumors in CDF1 mice. We established a polymerase chain reaction (PCR)-single-strand conformation polymorphism (SSCP) analysis system to detect mutations in the mouse p53 gene exons 2-10, which encompass all five regions conserved among species, and a system to examine loss of heterozygosity (LOH) that uses newly identified polymorphisms between BALB/c and DBA mice, the parental strains of CDF1 mice. Four original forestomach tumors (one papilloma, two carcinomas, and one lymph-node metastasis) and four cell lines derived from four independent forestomach tumors were examined with the PCR-SSCP system and by polymorphism analysis. Of the four original tumors, the papilloma had a G-->A transition at the second position of codon 171, and one carcinoma had a G-->T transversion at the second position of codon 113 with loss of the wild-type allele, whereas the other two carcinomas had no detectable mutations. Of the four cell lines, two had a base substitution and LOH, and the other two had double mutations (a base substitution and a deletion). By amplification of the double mutations in a fragment, the two cell lines were shown to have four kinds of alleles, indicating induction of recombination within the p53 gene. Our results show that our PCR-SSCP analysis system is efficient for detecting p53 mutations in mouse genomic DNA and that alteration of the p53 gene plays a significant role in MeIQ-induced mouse forestomach carcinogenesis.
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PMID:Mutation, loss of heterozygosity, and recombination of the p53 gene in mouse forestomach tumors induced by 2-amino-3,4-dimethylimidazo[4,5-f]quinoline. 781 62

To identify the genetic events which may play a role in the development of cervical carcinoma, we performed a detailed allelotype analysis utilizing DNA from 53 primary tumors and corresponding normal cells and 57 polymorphic probes mapped to each of the chromosomal arms, excluding the short arms of the acrocentric chromosomes. Loss of heterozygosity (LOH) of > 25% was observed at sites on 11 chromosomal arms, which included 1q (26%), 3p (35%), 3q (31%), 4q (46%), 5p (53%), 5q (38%), 6p (28%), 10q (28%), 11p (42%), 18p (38%), and Xq (26%). The most frequent LOH was noted on 4q (ADH3) and 5p (D5S19), suggesting that loss of candidate tumor suppressor genes on these chromosomal arms may play a role in the development of cervical carcinoma. The two sites of deletions identified on 5p and Xq represent novel candidate tumor suppressor gene sites which have so far not been reported in any other tumor type. Human papilloma virus status did not correlate with any of the sites which showed frequent LOH. TP53 mutation analysis by single-strand conformation polymorphism analysis was performed in 17 tumors that either showed 17p deletions (TP53, D17S5, or D17S28) or were human papilloma virus negative. One of the 7 human papilloma virus-negative tumors, which also showed LOH at the D17S28 locus, had a mutation in exon 5. This study represents the first comprehensive genetic analysis of this cancer and identifies several novel features of significance to genetic etiology of cervical carcinoma.
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PMID:Allelotype analysis of cervical carcinoma. 804 99

The points of this presentation are reform of the theory relating to "Dysplasia and Carcinogenesis" and the cytological methods. In 1976, Meisels and Fortin reported that dysplasia is the disease caused by Human papilloma virus (HPV), and surprisingly, intermediate cells infected by HPV possessed the ability of proliferation and mitosis, resulting in binucleation and multinucleation. In cytology, dysplasia is thought to be delivered from basal cells and abnormal cells are differentiated from lower layer to upper layer, the grade of dysplasia is judged from the level of cell-differentiation. In histology, however, differentiated cells are thought to be normal cells from the histological definition. Therefore, the histological theory cannot explain the fact that the appearance of the abnormal cells from the all layers in cytology of the mild dysplasia. This discrepancy can be understood well if we think it is caused by HPV infection. HPV (ds-DNA) can only proliferate using cellular factors. And as keratinocytes is important with relating to this proliferation, HPV affects human intermediate layer and upper layer. In HPV-infected cells, HPV-E6 protein and E7 protein can bind the products of p53 and pRB, suppressor genes, respectively. These lead to degradation of these proteins' function, acceleration of cell proliferation, and abnormality of cell-cycle time. Our fundamental theory of dyskaryosis is based on these findings. Mild dysplasia is transferred from intermediate layer to upper layer and vanish after cell maturation. Immortalization, transformation, and gene alteration are important factors for carcinogenesis. The deletion of chromosome 3p is one of the most important genetic changes during carcinogenesis. On the basis of carcinogenesis theory described above, the cytological findings of HPV-infected cells are classified into three steps.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Gynecological cytology in theory and practice]. 808 7

In normal human diploid fibroblasts, cyclins of the A, B, and D classes each associate with cyclin-dependent kinases (CDKs), proliferating cell nuclear antigen (PCNA), and p21, thereby forming multiple independent quaternary complexes. Upon transformation of diploid fibroblasts with the DNA tumor virus SV40, or its transforming tumor antigen (T), the cyclin D/p21/CDK/PCNA complexes are disrupted. In transformed cells, CDK4 totally dissociates from cyclin D, PCNA, and p21 and, instead, associates exclusively with a polypeptide of 16 kD (p16). Quaternary complexes containing cyclins A or B1 and p21/CDK/PCNA also undergo subunit rearrangement in transformed cells. Both PCNA and p21 are no longer associated with CDC2-cyclin B1 binary complexes. Cyclin A complexes no longer contain p21, and a new 19-kD polypeptide (p19) is found in association with cyclin A. The pattern of subunit rearrangement of cyclin-CDK complexes in SV40-transformed cells is also shared in those containing adeno- or papilloma viral oncoproteins. Rearrangement also occurs in p53-deficient cells derived from Li-Fraumeni patients that carry no known DNA tumor virus. These findings suggest a mechanism by which oncogenic proteins alter the cell cycle of transformed cells.
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PMID:Subunit rearrangement of the cyclin-dependent kinases is associated with cellular transformation. 810 26

Normal mammary epithelial cells are efficiently immortalized by the E6 gene of human papillomavirus (HPV)-16, a virus commonly associated with cervical cancers. Surprisingly, introduction of the E6 gene from HPV-6, which is rarely found in cervical cancer, or bovine papillomavirus (BPV)-1, into normal mammary cells resulted in the generation of immortal cell lines. The establishment of HPV-6 and BPV-1 E6-immortalized cells was less efficient and required a longer period in comparison to HPV-16 E6. These HPV-6- and BPV-1 E6-immortalized cells demonstrated dramatically reduced levels of p53 protein by immunoprecipitation. While the half-life of p53 protein in normal mammary epithelial cells was approximately 3 h, it was reduced to approximately 15 min in all the E6-immortalized cells. These results demonstrate that the E6 genes of both high-risk and low-risk papilloma viruses immortalize human mammary epithelial cells and induce a marked degradation of p53 protein in vivo.
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PMID:Enhanced degradation of p53 protein in HPV-6 and BPV-1 E6-immortalized human mammary epithelial cells. 838 14

Two uncommon tumors of the head and neck first revealed primary roles for two classes of cancer genes (oncogenes, tumor suppressor genes) in the origin of human cancer. In Burkitt's lymphoma the initiating event is a chromosomal translocation that leads to unregulated expression of an oncogene (MYCC), whereas retinoblastoma involves loss of function of both copies of a tumor suppressor gene (RB1). In osteosarcoma the RB1 gene is often affected, as is the gene (TP53) that codes for the p53 protein. TP53 is frequently mutated in carcinomas of the head and neck, as in one of the ras oncogenes. Multiple genetic changes typify carcinomas. Some carcinomas of the head and neck contain one of the human papilloma viruses that produce proteins that combine with and inactivate p53 and pRB proteins, rendering mutations in these genes unnecessary.
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PMID:Genetics of tumors of the head and neck. 839 Dec 74

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