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)

Abnormalities of some oncogenes, antioncogenes and losses of heterozygosity (LOH) of chromosome 11p, 17p, and 17q in colorectal carcinomas (CC) was studied. Amplification of ERBB-1/HER-1 oncogene was detected in 2 of 56 cases; ERBB-2/HER-2- in 4 of 62. There was a lack of evidence for C-MYC oncogene amplification (67 cases). LOH of chromosome 11p (HRAS-1 probe) was found in 2 of 37 informative (heterozygous) cases; such events were not accompanied by point mutations in "hot" codons (12th or 61st) in the remaining allele. Prevalence of A3 and A4 alleles of HRAS-1 oncogene (68 cases) as compared to healthy donors was noted. RB-1 (41 cases) and p53 (62 cases) suppressor genes did not show any alterations in Southern-blot analysis. LOH of chromosome 17p (YNZ-22 probe) was found in 15 of 26 heterozygous CC; 17q (THH-59 probe)--in 4 of 16. Analysis of 175th codon of p53 gene revealed only one case of mutation in 35 CC studied. Finally, we were able to detect genetic alterations in 23 of 40 (58%) CC, that were studied on each parameter using Southern-blot. We failed to find any correlation between various molecular abnormalities or clinical characteristics. The data obtained are in disagreement with the view concerning frequent involvement of p53 antioncogene in chromosome 17p deletions.
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PMID:[Complex characteristics of the alterations of oncogenes HER-2/ERBB-2, HER-1/ERBB-1, HRAS-1, C-MYC and antioncogenes p53, RB1, as well as deletions of loci of chromosome 17 in colon carcinoma]. 147 Jan 78

The large T-antigens of SV40 and polyoma virus are nuclear, multifunctional proteins that are essential for replication of the respective viruses. They can also 'transform' cells in culture to varying extents; both can immortalise primary cells, and SV40 large T can additionally induce full transformation. Recently, p105Rb, the protein product of the anti-oncogene RB-1, has been shown to interact with both large T-antigens. SV40 large T-antigen also binds to a p105Rb related protein, p107. SV40 large T differs from that of polyoma virus in its ability to associate with another anti-oncogene product, p53. The significance of these properties to the transforming potential of both viruses is considered.
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PMID:Cell alterations induced by the large T-antigens of SV40 and polyoma virus. 196 92

Loss of function of one or both of the two tumour suppressor genes p53 and RB-1 has been recognised as an important step in the development of a variety of human neoplasias for some time. By virtue of the ability to manipulate the genome of murine embryonic stem cells in culture, it has become possible to generate strains of mice which bear inactivations of the murine counterparts of these genes. This article attempts to bring together some of the many results obtained from these murine strains which are shedding light both on the normal role played by both of these genes and the consequences of their dysfunction. Surprisingly neither gene product is revealed to have an indispensable role at the level of the single cell. Hence, even though the Rb-1 gene product clearly has an important role in cell cycle regulation animals constitutively deficient in this gene develop relatively normally for the first 10 days of embryogenesis. It is only at and beyond this stage of development that a requirement for Rb-1 becomes clear, in the regulation of certain cell populations through control of both proliferation and apoptosis. That loss of function of Rb-1 is associated with tumorigenesis is confirmed by the development of tumours of the pituitary gland within heterozygotes. The retinas of these animals, the target organ for tumorigenesis in human RB-1 heterozygotes, remain unaffected. The majority of mice homozygous for an inactivating p53 mutation survive to birth, but then rapidly succumb to tumorigenesis. Heterozygotes also develop tumours, but with a delayed time course and altered spectrum. Analysis of several tissue types from the mutant animals has shown p53 to be crucial for the normal induction of apoptosis following DNA damage, and it is thought that failure of this process is a key predisposing step towards tumorigenesis within the mutant animals. Finally, studies on these and other transgenic strains have revealed interactions between pathways governed by these two genes. For example, the fate of Rb-1 deficient cells has been shown, in some tissues at least, to be dependent upon the functional status of p53.
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PMID:Murine models of neoplasia: functional analysis of the tumour suppressor genes Rb-1 and p53. 755 30

Involvement of the retinoblastoma susceptibility (RB-1), p16INK4, p53 and telomerase genes in immortalisation was examined by determining their status in 15 human cell lines representing four immortalisation complementation groups. No abnormalities of RB-1, p53 and p16INK4 were detected in cell lines containing DNA tumour virus proteins known to bind to the protein products of the RB-1 and p53 genes. In contrast, in all other cell lines from each of the four groups either RB-1 was mutant or p16INK4 protein was undetectable and there were cell lines containing p53 mutations in three of the groups. Telomerase activity was detected in 12/15 lines, including some of the virally immortalised lines and in some lines from each group. Since none of these changes correlated with complementation group, other genetic changes must be required for immortalisation.
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PMID:Involvement of RB-1, p53, p16INK4 and telomerase in immortalisation of human cells. 767 56

Sixty DNA samples from breast carcinoma (BC) patients were analyzed by Southern blot to examine certain oncogene and anti-oncogene alterations. Amplification of the HER-2 oncogene was detected in 15 tumours (25%), c-myc in 2 (3%) only and HER-1 in none. Distribution of Hras-1 oncogene alleles in BC did not significantly differ from that seen in healthy donors. Not a single case of RB-1 anti-oncogene alteration and only one of p53 suppressor gene abnormality was found when appropriate cDNA copies were used as probes. With the use of DNA polymorphic markers, loss of heterozygosity (LOH) was revealed at chromosome 17p (probe YNZ-22) in 18 of 39 (46%) informative cases, at 17q (probe THH-59) in 10 of 34 (29%) and at 11p (probe Hras-1) in 8 of 30 (27%). The only significant correlation between these genetic alterations and the clinical characteristics of the tumours studied was the association of LOH at 17p with node-negative BC (p < 0.02). Also, the tendency for correlation (p < 0.2) between HER-2 amplification and loss of 17p sequences was revealed: 7 of 10 amplification-positive, but only 11 of 29 amplification-negative BC possessed LOH of YNZ-22 locus.
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PMID:Loss of heterozygosity at chromosome 17p is associated with HER-2 amplification and lack of nodal involvement in breast cancer. 841 94

Pancreatic cancer is the fifth leading cause of cancer death in the United States, and despite improvements in the results of surgical treatment for this disease, little impact has been made upon overall mortality. New advances in treatment will depend upon improved adjuvant therapy, early diagnosis, and a better understanding of tumor biology. This article summarizes the results of molecular genetic studies in pancreatic cancer and their potential clinical significance. Familial predisposition to pancreatic cancer, cytogenic studies, DNA ploidy analysis, and examination of specific oncogenes and tumor suppressor genes are reviewed. The most frequent mutations detected have been in the K-ras oncogene, which occur in 80% of pancreatic cancers. These mutations do not correlate with tumor stage or survival, but can be useful in differentiating pancreatic exocrine from endocrine tumors and chronic pancreatitis. Mutations in the p53 gene occur in approximately 50% of tumors, and appear to be an independent prognostic factor for patient survival. Mutations in the CDKN2 gene are frequently seen in sporadic pancreatic cancers, and have been implicated in cases of familial pancreatic cancer. The significance of mutations in APC, MCC, DCC, c-erbB-2, RB-1, and mismatch repair genes in the genesis of pancreatic cancer is less clear.
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PMID:The molecular genetics of pancreatic cancer. 936 57

In this study we evaluated the replication pattern and cell-cycle dynamics of cells from patients considered to have a premalignant condition (monoclonal gammopathy, or MGUS) and patients with multiple myeloma (MM), as well as healthy controls. We applied the fluorescence in situ hybridization (FISH) technique with the TP53, RB-1 and 21q22 loci on the patient's cells. Asynchrony was determined by the presence of one single and one set of double dots in the same cell. The rate of asynchronic replication was significantly higher in the cells from MM patients, with intermediate value in the cells from MGUS, while the lowest rate was in cells from controls. We suggest that these results may reflect the changes in gene replication and cell-cycle progression that occur in premalignant and malignant cells.
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PMID:Replication pattern in cancer: asynchronous replication in multiple myeloma and in monoclonal gammopathy. 997 21

Dual-color interphase FISH was performed to B-cell Non-Hodgkin's lymphomas to detect numerical genetic alterations in c-MYC, RB-1, TP53 and centromere 8 and 17. The probe combinations c-MYC/centromere 8, RB-1/centromere 8 and TP53/centromere 17 were applied, and the hybridization signals scored in a correlated fashion. Copy number aberrations was found in 24 of 45 lymphomas examined (53%). Nine tumors (20%) had increased c-MYC gene copy number (three to 8 copies). Seven of these nine had increase in c-MYC copies relative to centromere 8 copy number. Allelic loss of RB-1 was found in 9 tumors (20%), one tumor lacked both alleles. Nine cases (20%) showed hemizygous TP53 deletion. TP53 deletion was significantly associated with high-grade histology (P = 0.02). Numerical alterations in c-MYC and RB-1 were not associated with prognosis. Patients with hemizygous TP53 deletion had shorter survival (relative risk = 6.1, P<0.001) than the ones with two or more alleles.
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PMID:c-MYC, RB-1, TP53, and centromere 8 and 17 copy number in B-cell non-Hodgkin's lymphomas assessed by dual-color fluorescence in situ hybridization. 1032 17

Human low-grade astrocytomas frequently recur and progress to states of higher malignancy. During tumor progression TP53 alterations are among the first genetic changes, while derangement of the p16/p14ARF/RB-1 system occurs later. To probe the pathogenetic significance of TP53 and RB-1 alterations, we introduced a v-src transgene driven by glial fibrillary acidic protein (GFAP) regulatory elements (which causes preneoplastic astrocytic lesions and stochastically astrocytomas of varying degrees of malignancy) into TP53+/- or RB-1+/- mice. Hemizygosity for TP53 or RB-1 did not increase the incidence or shorten the latency of astrocytic tumors in GFAP-v-src mice over a period of up to 76 weeks. Single strand conformation analysis of exons 5 to 8 of non-ablated TP53 alleles revealed altered migration patterns in only 3/16 tumors analyzed. Wild-type RB-1 alleles were retained in all RB-1+/-GFAP-v-src mice-derived astrocytic tumors analyzed, and pRb immunostaining revealed protein expression in all tumors. Conversely, the GFAP-v-src transgene did not influence the development of extraneural tumors related to TP53 or RB-1 hemizygosity. Therefore, the present study indicates that neither loss of RB-1 nor of TP53 confer a growth advantage in vivo to preneoplastic astrocytes expressing v-src, and suggests that RB-1 and TP53 belong to one single complementation group along with v-src in this transgenic model of astrocytoma development. The stochastic development of astrocytic tumors in GFAP-v-src, TP53+/- GFAP-v-src, and RB-1+/- GFAP-v-src transgenic mice indicates that additional hitherto unknown genetic lesions of astrocytes contribute to tumorigenesis, whose elucidation may prove important for our understanding of astrocytoma initiation and progression.
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PMID:No complementation between TP53 or RB-1 and v-src in astrocytomas of GFAP-v-src transgenic mice. 1051 1

Ever since its discovery, the RB-1 gene and the corresponding protein, pRB, have been a focal point of cancer research. The isolation of E2F transcription factors provided the key to our current understanding of RB-1 function in the regulation of the cell cycle and in tumor suppression. It is becoming more and more evident that the regulatory circuits governing the cell cycle are very complex and highly interlinked. Certain aspects of RB-1 function, for instance its role in differentiation, cannot be easily explained by the current models of pRB-E2F interaction. One reason is that pRB has targets different from E2F, molecules like MyoD for instance. Another reason may be that we have not completely understood the full complexity of E2F function, itself. In this review, we will try to illuminate the role of E2F in pRB- and p53-mediated tumor suppression pathways with particular emphasis on the aspect of E2F-mediated transcriptional regulation. We conclude that E2F can mediate transcriptional activation as well as transcriptional repression of E2F target genes. The net effect of E2F on the transcriptional activity of a particular gene may be the result of as yet poorly understood protein-protein interactions of E2F with other components of the transcriptional machinery, as well as it may reflect the readout of the different ways of regulating E2F activity, itself. We will discuss the relevance of a thorough understanding of E2F function for cancer therapy.
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PMID:The E2F transcription factors: key regulators of cell proliferation. 1065 85

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