UMLS:C0596263 - FACTA Search

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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Perturbation of p53 protein function is a common, if not universal, finding in human cancer. Tumor suppression by p53 is due, at least in part, to its ability to activate transcription of certain genes involved in cell cycle control and apoptosis (programmed cell death). Two additional members of the mammalian p53 family, p73 and p51, which is also known as p40, p63, KET, or p73L, were recently identified. Both of these proteins share substantial sequence homology with p53 and can, at least when overproduced, activate p53-responsive promoters and induce apoptosis. Nonetheless, data on differences between these proteins and p53 are emerging. For example, p73 is not induced by DNA damage and is not targeted for inactivation by viral oncoproteins such as simian virus 40 (SV40) T antigen, adenovirus E1B 55K, and human papillomavirus E6. In contrast to p53, neither p73 nor p51 appears to be frequently mutated in human cancers on the basis of the limited studies reported to date. Finally, unlike p53, cells produce multiple p73 and p51 isoforms as a result of alternative splicing, and production of p73 and p51 appears to be restricted to certain tissues. Additional studies are required to determine the role, if any, that p73 and p51 play in cell growth control and carcinogenesis.
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PMID:The emerging p53 gene family. 1020 77

After the identification of p73, a second homologue of the human p53 tumor suppressor gene has been reported and named p63/p73L/p51/p40/CUSP/KET. We have investigated the hypotheses that: (a) p63 is mutated in diverse types of human cancers; and (b) p63 functions in the same pathway as p53 and p73 in the process of carcinogenesis; therefore, mutations in these three genes would be mutually exclusive. We have analyzed the genomic structure of the p63 gene and have performed mutational analyses on 54 human cell lines using intronic primers flanking each exon. We have confirmed that the human p63 open reading frame encodes the same length of protein as murine p63 that was initially reported to be 39 amino acids longer than human p63. By mutational analysis, we have shown that DLD1 and SKOV3 cells have either heterozygous mutations or polymorphisms in the putative DNA binding domain of p63. In these cell lines, p63 is biallelically expressed. We conclude that mutations in the p63 gene are rare in human cell lines. The fact that DLD1 is abnormal for both p63 and p53 genes suggests that they may not be involved in the same tumor suppressor pathway.
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PMID:Mutational analysis of the p63/p73L/p51/p40/CUSP/KET gene in human cancer cell lines using intronic primers. 1048 47

Genetic mutation of p53, which monitors DNA damage and operates cellular checkpoints, is a major factor in the development of human malignancies. A novel gene p63/p73L/p51, encoding a protein with significant homology to p53 and p73, was recently identified at 3q27-9. To investigate the penetration of p63 in cervical carcinogenesis, mutation and transcription analyses of p63 were performed in cervical carcinoma. A certain isotype of p63 called TAp63gamma encodes the acidic N-terminus and possesses a short C-terminus. Using reverse transcriptase-polymerase chain reaction-single strand conformation polymorphism (RT-PCR-SSCP) analysis for TAp63gamma, one mutation was found in the cervical carcinoma cell line SKG-I. However, no mutations causing amino acid substitutions or frameshifts were found in 54 cases examined for TAp63gamma, which is thought to be a tumor suppressor gene. While cervical carcinomas tended to yield a positive signal in the RT-PCR reaction designed to amplify transcripts encoding the acidic N-terminus, normal cervix and cervical intraepithelial neoplasia (CIN) did not express this transcript. These data suggest that the p63 gene does not play an essential role as a tumor suppressor gene, but expression of TAp63gamma may be speculatively associated with tumor growth in cervical carcinogenesis.
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PMID:Mutation and transcription analyses of the p63 gene in cervical carcinoma. 1056 21

p73 and p63 are two recently discovered p53 homologs. Like p53, these proteins can recognize canonical p53 DNA-binding sites and, when overproduced, can activate p53-responsive target genes and induce apoptosis. Unlike p53, these genes undergo complex alternative splicing which, at least in the case of p63, yields proteins with widely divergent biological properties. In addition p73 and p63 are, in contrast to p53, rarely mutated in human cancer. Furthermore, p73 inactivation is not required for viral transformation. Thus, there is currently no firm evidence that p63 and p73 should be considered tumor suppressors. The early suggestion that monoallelic expression of p73 contributed to carcinogenesis needs to be interpreted cautiously in light of data showing interindividual and intraindividual variation with respect to monoallelic expression of p73 and the finding that p73 mRNA levels are generally increased, rather than decreased, in a host of tumors relative to normal cells.
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PMID:The p53 gene family. 1061 10

A burgeoning family of p53-related genes have been described recently, including p73 and p63. Both these genes encode proteins with many similarities to p53 but also with the potential for forming a range of related species by alternative promoter usage and alternative splicing. In order to begin the characterization of p63, we generated a polyclonal serum (designated SC1) that recognizes the C-terminus of p63alpha. We have shown that this reagent recognizes p63alpha but not p53 nor p73. By western blot analysis both p63alpha and the N-terminal truncated form of p63alpha (DeltaNp63alpha) were found in a range of cell lines. Similar immunoblot analysis of tissues reveals considerable complexity with at least four SC1-immunoreactive isoforms being identified. In immunohistological studies SC1 immunoreactivity is widely detectable, being predominantly associated with proliferative compartments in epithelia. However, non-proliferative populations can also show SC1 immunostaining. No simple relationship between the isoforms identified by immunoblotting of tissue lysates and the tissue immunostaining characteristics was identified. A previously unrecognized species intermediate in mobility between p63alpha and DeltaNp63alpha was found in several tissues, including nerve and peripheral blood lymphocytes. Interestingly, there is suppression of p63alpha expression in HaCat cells in a time- and concentration-dependent manner after UV and MMS treatment. Our data provide further information about the complexity of p63 and the SC1 serum will prove to be a useful tool in further studies of this p53 homologue.
Carcinogenesis 2000 Feb
PMID:Expression of the p53 homologue p63alpha and deltaNp63alpha in normal and neoplastic cells. 1065 51

p63, a recently identified member of the p53 gene family, encodes multiple products with transactivating, death-inducing, and dominant-negative activities. To explore the penetrance of p63 in bladder carcinogenesis, we performed expression and mutation analyses of two major isotypes, TAp63 and deltaNp63, in 63 bladder specimens. In 12 normal tissues, TAp63 was expressed at an easily detectable level whereas deltaNp63 was absent or extremely low. While none of 47 carcinomas showed allelic deletion of the gene, marked reduction of TAp63 and abnormal overexpression of deltaNp63 were found in 25 (53.2%) and 30 (63.8%) carcinomas, respectively. Tumor-specific alteration of TAp63 and deltaNp63 expression was identified in two and three of six matched sets, respectively. In addition, reduced expression of TAp63 showed a correlation with tumor stage and grade. Abnormal expression of TAp63 or deltaNp63 isoform was also observed in three of four cell lines, and treatment with 5-Aza-2'-deoxycytidine led to up- or down-regulation of TAp63 and/or deltaNp63 expression, suggesting that the promoters of both isoforms might be affected by DNA methylation, but not in a reciprocal fashion. No sequence alteration of p63 was identified in 47 carcinomas whereas 17 (34.8%) of these showed p53 mutations, and no association between p63 expression and the mutational status of p53 or expression of p21Waf1, MDM2, and 14-3-3sigma was recognized. Our data suggest that altered expression of p63 is a frequent event in bladder carcinogenesis and might contribute to the progression of bladder tumors, possibly via the mechanism(s) distinct from the p53 pathway.
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PMID:Frequent alteration of p63 expression in human primary bladder carcinomas. 1091 40

We previously identified a non-p53, p53-responsive DNA element (p53RE)-binding protein named NBP, functionally analogous to p53, from human cervical carcinoma Hela cells. Here we report a biochemical study demonstrating that this activity is the recently cloned p53 analog p63. NBP was purified through conventional and DNA affinity chromatography to apparent homogeneity with a prominent polypeptide migrating in between the 43 and 68 kDa positions on a SDS gel. This polypeptide immunoreacted with monoclonal anti-p63 but not anti-p53 or anti-p73 antibodies. Also, NBP co-purified with p63 through each step of fractionation, as detected with anti-p63 antibodies. DNA-protein complexes formed with purified NBP and p53RE-containing oligomers derived from the p21(waf1) promoter were supershifted by anti-p63 but not anti-p53 antibodies. Thus, these results demonstrate that NBP is encoded by the p53 homolog p63 gene.
Carcinogenesis 2001 Feb
PMID:NBP is the p53 homolog p63. 1118 41

The p53 tumor suppressor is a transcription factor that upon activation by DNA-damaging agents induces growth arrest or apoptosis mainly through transactivation and transrepression of its downstream target genes. Two additional p53 family members, p73 and p51/p63, were recently identified and characterized. Although the three family members share some similarities in transcription activation and apoptosis induction, each of them appears to play a distinct role in development and tumor suppression. We have previously identified a nuclear protein, p53CP (p53 competing protein), that is not p53 but binds to the p53 consensus sequence. Here we report the partial purification of p53CP from HeLa cells by ammonium sulfate precipitation, followed by a series of chromatography steps through heparin-agarose, Mono S ion exchange and DNA affinity columns, coupled with a gel shift assay. Although p53CP activity is readily detectable in HeLa cells by gel shift assay, only a trace amount of p53CP protein was partially purified, which was not sufficient for direct protein sequencing. Using a monoclonal antibody (4A4) specific for all p51/p63 isoforms or a polyclonal antibody (N-18) recognizing the N-terminus-containing p51/p63 isoforms we detected a significant enrichment of p51/p63 protein in p53CP-containing fractions following each step of purification. Significantly, p51/p63 was detected only in the DNA affinity column fractions that contain p53CP activity. Thus, p53CP appears to be p51/p63, the third member of the p53 gene family.
Carcinogenesis 2001 Feb
PMID:p53CP is p51/p63, the third member of the p53 gene family: partial purification and characterization. 1118 51

P73, a p53-homologue gene, has been studied for its possible role in head and neck squamous epithelium (HNSE) differentiation and carcinogenesis. P73 RNA and protein were analysed in 50 biopsies, including well- and moderately-differentiated carcinomas, and 21 matched normal adjacent tissues. P73 immunohistochemical analyses revealed intense p73 nuclear staining in basal and parabasal cells of normal squamous epithelium, in contrast with complete absence of staining in the more superficial cell layers. Moderately-differentiated carcinomas demonstrated homogeneous and diffuse staining in all tumour cells, while only basal cells were stained in well-differentiated carcinomas as in normal tissue. No correlation was observed between p73 and p53 protein expression. Immunostaining for p63, another p53-related protein previously described as being involved in HNSE morphogenesis and overexpressed in head and neck squamous cell carcinomas (HNSCC), was found to be similar to p73 labelling in carcinomas, but spread to the more differentiated layers in normal epithelium. Biallelic expression of p73 was found in tumours as well as in matched normal tissues. Comparison of p73 transcript levels between tumours and normal tissues showed decreased mRNA expression in 5/17 (30%) tumours independently of the differentiation status. Mutation and loss of heterozygosity analyses of the p73 gene revealed wild type status and no deletion. Our results strongly suggest that: (i) p73 is associated with homeostasis and control of differentiation of head and neck squamous epithelium probably in concert with p53 and p63; (ii) down-regulation of p73 expression could participate in HNSE carcinogenesis.
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PMID:P73 expression in basal layers of head and neck squamous epithelium: a role in differentiation and carcinogenesis in concert with p53 and p63? 1153 43

The human prostatic epithelial cell line BPH-1 is normally nontumorigenic in nude mice. The present report demonstrates that this cell line can be permanently transformed by its microenvironment to become tumorigenic. The establishment of a series of tumorigenic sublines based on this parental cell line is described. BPH-1 cells were induced to form tumors either by recombination with human prostatic carcinoma-associated fibroblasts (CAFs) or by exposure to carcinogenic doses of testosterone and estradiol (T+E2) after recombination with rat urogenital sinus mesenchyme. Epithelial cells isolated from these tumors were established as cell strains in culture. When regrafted to nude mouse hosts epithelial cells isolated from CAF- or T+E2-induced tumors were found to be consistently tumorigenic even in the absence of CAF or T+E2. The T+E2-induced cell strains have been designated BPH1(TETD)-A and -B and the CAF-induced strains are designated BPH1(CAFTD)-01 through -08. In vitro, the cells had an epithelial morphology with a less well-defined cobblestone pattern than the parental line. They express SV40 large T antigen, confirming their derivation from the parental BPH-1 line. The BPH1(CAFTD) strains formed colonies in soft agar, whereas the parental BPH-1 cells and the BPH1(TETD) sublines did not. There was no immunocytochemically detectable expression of androgen (AR), alpha-estrogen (ERalpha), or progesterone (PR) receptors by the parental BPH-1 cell line or by any of the tumor-derived cell strains. The cells uniformly coexpressed both basal and luminal cell-type cytokeratins and the basal cell marker p63. When grafted beneath the renal capsule of athymic mouse hosts, all of the tumor-derived cell strains consistently formed tumors. These were predominantly poorly or moderately differentiated squamous or adenosquamous tumors, similar in organization to the primary tumors from which the cell strains were derived. The cell strains continued to express both basal- and luminal-type cytokeratins in vivo. Some of the cell strains also coexpressed vimentin. E-cadherin expression was absent from many of the cells, although patches of cells expressing this marker were seen. The cells continued to express SV40T antigen. These cell strains, which are all derived from a common nontumorigenic progenitor, represent a useful resource for examining genetic and phenotypic changes during carcinogenesis.
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PMID:Malignant transformation in a nontumorigenic human prostatic epithelial cell line. 1171 42

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