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)

We report two cases affected by neoplasia after colectomy with ileo-rectal anastomosis (IRA) with a positive family history of colon cancer. Case 1, a 41-year-old ulcerative colitis (UC) patient, underwent IRA in 1977. In 1986, biopsies showed high-grade dysplasia. She underwent resection of the rectal stump in 1986. Submucosal invasive carcinoma was found in the surgical specimen. The immunohistological study demonstrated p53 protein overexpression in the neoplastic lesion. Her family history fulfilled the Amsterdam criteria of hereditary non-polyposis colorectal cancer (HNPCC). Case 2, a 47-year-old UC patient, underwent ascending colostomy in 1975 and the following year IRA. Endoscopic mucosal resection (EMR) for a sessile adenoma was performed in 1995 and subsequently polypectomy was performed for the residual tumor. Recurrent adenoma and dysplasia in another area were detected. The immunohistological study demonstrated p53 protein overexpression only in dysplasia. Renal cancer in the right kidney was detected. Resection of the rectal stump with ileal pouch-anal anastomosis (IAA), loop ileostomy and right nephrectomy were performed in 1998. Her mother and her mother's sister had been diagnosed with colon cancer. Only in the dysplastic lesion did we detect microsatellite instability at D5S644. Both cases with neoplasia had two relatives with colorectal carcinoma. In 33 cases with UC who had been followed up, 30 cases (96.8%) without neoplasia had no family history of colorectal carcinoma. These findings suggest that UC patients with a family history of colon cancer should be put under close surveillance. It should also be emphasized that IAA is the procedure of choice for UC patients with this particular condition.
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PMID:Ulcerative colitis patients with a family history of colorectal cancer should be subjected to close and careful surveillance. 1056 1

ATM mutations predispose cells to malignancy by promoting chromosomal instability. We have identified a family with multiple cancers that segregates a mutant allele of ATM, IVS61+2insTA, which causes skipping of exon 61 in the mRNA, as well as a previously undescribed polymorphism, IVS61+104C(54):T(46). The mutation was inherited by two sisters, one who developed breast cancer at age 39 and the second at age 44, from their mother, who developed kidney cancer at age 67. Molecular studies were undertaken to determine the role of the ATM gene in the development of cancer in this family. Studies of irradiated lymphocytes from both sisters revealed elevated numbers of chromatid breaks, typical of A-T heterozygotes. Studies on lymphoblastoid cell lines established from these individuals revealed abnormal p53 induction and apoptosis after DNA damage. Loss of heterozygosity (LOH) in the ATM region of chromosome 11q23.1 showed that the normal ATM allele was lost in the breast tumor of the older sister. LOH was not seen at the BRCA1 or BRCA2 loci. BRCA2 is not likely to be a cancer-predisposing gene in this family because each sister inherited different chromosomes 13 from each parent. The sisters share their maternal BRCA1 allele, although no mutation in this gene was detected in the family. Our findings suggest that haploinsufficiency at ATM may promote tumorigenesis, even though LOH at the locus supports a more classic two-hit tumor suppressor gene model.
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PMID:High incidence of cancer in a family segregating a mutation of the ATM gene: possible role of ATM heterozygosity in cancer. 1057 46

Sarcomatoid renal cell carcinomas (SRC) are rare neoplasms associated with a very poor prognosis. The aim of this study was to evaluate biomarker expression and clinical significance in this uncommon renal cancer. Cytokeratin, epithelial membrane antigen, vimentin, desmin, smooth muscle actin, CD34, S-100 protein, MIB 1, p53, Fas and Fas ligand immunohistochemical expression was investigated in seven renal cell carcinomas with sarcomatoid changes. No significant difference between sarcomatoid and nonsarcomatoid areas was observed with the different biomarkers, excepted for Fas ligand. Fas expression was diffuse in sarcomatoid and nonsarcomatoid areas. However, Fas ligand had a higher expression in sarcomatoid in comparison to nonsarcomatoid areas. Our results showed that Fas and Fas ligand are both expressed in renal cancer. We suggest that the aggressive behavior of sarcomatoid carcinoma may be related to a higher expression of Fas ligand by tumor sarcomatoid cells. These findings may indicate that Fas ligand is a possible therapeutic molecular target for treatment of SRC.
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PMID:Immunohistochemical detection of Fas and Fas ligand in sarcomatoid renal cell carcinoma. 1150 80

CD44 is an adhesion molecule involved in cell-to-cell and cell-to-matrix interactions. Recent evidence indicates a role of CD44 in tumor growth and metastatic potential of tumor cells. Moreover, it is widely known that the p53 tumor suppressor gene controls cell proliferation and loss of its normal function may lead to carcinogenesis. To investigate the role of these biomarkers in renal cancer, we analyzed the immunohistochemical distribution of CD44's expression on formalin fixed paraffin embedded tissue from 67 renal cell carcinomas and correlated with clinicopathologic parameters as well as with p53 suppressor gene expression. The monoclonal antibodies CD44 and p53 were applied to the tissues using the streptavidin biotin peroxidase method after microwave antigen retrieval. For CD44 and p53 more than 10% membranous and 5% nuclear staining, respectively, were estimated as positive. CD44's membranous immunoreactivity was detected in 24/67 tumors (35%) and mostly in carcinomas of clear/granular cell type. Nine tumors expressed nuclear immunoexpression of p53 protein (13.4%). Statistically significant correlation was noted between CD44 expression and nuclear grade (P < 0.001), tumor stage (P < 0.001), vascular invasion (P < 0.05) and p53 expression (P < 0.01). These results suggest that CD44s and p53 are markers of tumor progression in renal cell cancer.
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PMID:Expression of CD44 protein in renal cell carcinomas: association with p53 expression. 1247 36

The CDKN2A tumor-suppressor gene in chromosome band 9p21 encoding CDKN2A (also known as p16, INK4A), a negative regulator of cyclin-dependent kinases, and p14(ARF1), an activator of TP53, is inactivated in many human cancers by point mutations, promoter hypermethylation, or deletions. Homozygous deletions predominate in certain cancer types (e.g., bladder cancers). To understand why deletions are unusually prevalent at this locus, deletions in bladder and renal cancer cell lines were mapped in detail and several deletion breakpoints cloned. Deletions were interstitial and encompassed 0.1 to >30 Mb. Most deletion breakpoints were located in or close to LINE-1 retrotransposon clusters. Therefore, deletions of CDKN2A may be facilitated by the presence of LINE-1 clusters that flank the locus. All cloned junctions were products of non-homologous recombination and consistently contained exact 2-bp microhomologies. Microhomologies are otherwise hallmarks of DNA double-strand break repair by non-homologous end joining, but the consistent size found at the CDKN2A deletion junctions is difficult to reconcile with the known properties of this process. Therefore, an unknown mechanism appears to be involved in the generation of CDKN2A deletions during carcinogenesis.
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PMID:Peculiar structure and location of 9p21 homozygous deletion breakpoints in human cancer cells. 1269 62

Malignant cells characteristically exhibit altered metabolic patterns when compared with normal mammalian cells with increased reliance on anaerobic metabolism of glucose to lactic acid even in the presence of abundant oxygen. The inefficiency of the anaerobic pathway is compensated by increased glucose flux, a phenomenon first noted by Otto Warburg approximately 80 years ago and currently exploited for 2-fluoro-2-deoxy-D-glucose-positron emission tomography imaging in clinical radiology. The latter has demonstrated the glycolytic phenotype is a near-universal phenomenon in human cancers. The potential role of the glycolytic phenotype in facilitating tumor invasion has been investigated through mathematical models of the tumor-host interface. Modified cellular automaton and diffusion reaction models demonstrate protons will diffuse from the tumor into peritumoral normal tissue subjecting nontransformed cells adjacent to the tumor edge to an extracellular pH significantly lower than normal. This leads to normal cell death via p53-dependent apoptosis pathways, as well as degradation of the interstitial matrix, loss of intercellular gap junctions, enhanced angiogenesis, and inhibition of the host immune response to tumor antigens. Transformed cells maintain their proliferative capacity in acidic extracellular pH because of mutations in p53 or some other component in the apoptosis pathways. This allows tumor cells to remain proliferative and migrate into the peritumoral normal tissue producing the invasive phenotype. Mathematical models of invasive cancer based on tumor-induced acidification are consistent with extant data on tumor microenvironment and results from clinical positron emission tomography imaging, including the observed correlation between tumor invasiveness and glucose utilization. Novel treatment approaches focused on perturbation of the tumor microenvironment are predicted from the mathematical models and are supported by recent clinical data demonstrating the benefits of azotemia and metabolic acidosis in survival of patients with metastatic renal cancer. The evolutionary basis for adoption of the glycolytic phenotype during carcinogenesis remains unclear because it appears to confer significant competitive disadvantages on the tumor cells due to of inefficient energy production and expenditure of resources to remove the acid byproducts. We propose that the glycolytic phenotype represents a successful adaptation to environmental selection parameters because it confers the ability to invade. That is, the glycolytic phenotype allows the cell to move from the microenvironment of a premalignant lesion to adjacent normal tissue. There it competes with normal cells that are less fit than the populations within the tumor in a microenvironment of relative substrate abundance. The consequent unrestrained proliferation allows the glycolytic phenotype to emerge simultaneous with the transition from a premalignant lesion to an invasive cancer.
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PMID:The glycolytic phenotype in carcinogenesis and tumor invasion: insights through mathematical models. 1287 71

Wilms' tumor suppressor (WT1), a 52- to 54-kda transcription factor, is the gene product of Wilms' tumor 1 (wt1), one of at least three genes involved in the development of a pediatric kidney cancer. Expression patterns of WT1 indicate that it is not restricted to the kidney but may play a role in the development and homeostasis of other tissues as well. WT1 has been implicated in various cellular processes including proliferation, differentiation, and apoptosis. High levels of WT1 induce apoptosis independent of p53, whereas low levels of WT1 inhibit apoptosis. Because apoptosis has been suggested to play a role in neurodegeneration in Alzheimer's disease (AD), immunohistochemistry of WT1 and paired helical filament (PHF) in serial sections was carried out. Immunohistochemical localization of WT1 and PHF showed the presence of WT1 in approximately 42% of PHF-positive neurofibrillary tangle containing-neurons. Laser confocal microscopy of hippocampal neuron cultures undergoing apoptosis induced by amyloid beta peptide (Abeta) or staurosporine demonstrated significant time-dependent elevations of WT1 correlating with increased levels of apoptosis. Blockade of WT1 transcription by antisense oligonucleotide reduced WT1 expression and prevented neuronal apoptosis in both Abeta- and staurosporine-treated cultures. Together, these data suggest a role for WT1 in the neurodegeneration observed in AD brain.
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PMID:Wilms' tumor suppressor (WT1) is a mediator of neuronal degeneration associated with the pathogenesis of Alzheimer's disease. 1291 69

We identified five structurally related dimethane sulfonates with putative selective cytotoxicity in renal cancer cell lines. These compounds have a hydrophobic moiety linked to a predicted alkylating group. A COMPARE analysis with the National Cancer Institute Anticancer Drug Screen standard agent database found significant correlations between the IC50 of the test compounds and the IC50 of alkylating agents (e.g., r = 0.68, P < 0.00001 for chlorambucil). In this report, we examined whether these compounds had activities similar to those of conventional alkylating agents. In cytotoxicity studies, chlorambucil-resistant Walker rat carcinoma cells were 4- to 11-fold cross-resistant to the test compounds compared with 14-fold resistant to chlorambucil. To determine effects on cell cycle progression, renal cell carcinoma (RCC) line 109 was labeled with bromodeoxyuridine prior to drug treatment. Complete cell cycle arrest occurred in cells treated with an IC90 dose of NSC 268965. p53 protein levels increased as much as 5.7-fold in RCC line 109 and as much as 20.4-fold in breast cancer line MCF-7 following an 18-hour drug exposure. Finally, DNA-protein cross-links were found following a 6-hour pretreatment with all compounds. Thus, the dimethane sulfonate analogues have properties expected of some alkylating agents but, unlike conventional alkylating agents, appear to possess activity against RCC.
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PMID:In vitro evaluation of dimethane sulfonate analogues with potential alkylating activity and selective renal cell carcinoma cytotoxicity. 1525 46

Here we report the complex pattern of genomic imbalances and rearrangements in a panel of 19 renal cell carcinoma cell lines detected with molecular cytogenetic analysis. Consistent heterogeneity in chromosome number was found, and most cell lines showed a near-triploid chromosome complement. Several cell lines showed deletions of the TP53 (alias p53), CDKN2A (alias p16), and VHL genes. Multiplex fluorescence in situ hybridization (M-FISH) analysis revealed chromosome 3 translocated to several other partners chromosomes, as well as breakage events commonly affecting chromosomes 1, 5, 8, 10, and 17. The most common abnormality detected with comparative genomic hybridization (CGH) was deletions of chromosome 3p, with loss of the RASSF1, FHIT, and p44S10 loci frequently involved. CGH gain of 5q showed overrepresentation of the EGR1 and CSF1R genes. Recurrent alterations to chromosome 7 included rearrangement of 7q11 and gains of the EGFR, TIF1, and RFC2 genes. Several lines exhibited rearrangement of 12q11 approximately q14 and overrepresentation of CDK4 and SAS loci. M-FISH revealed several other recurrent translocations, and CGH findings included loss of 9p, 14q, and 18q and gain of 8q, 12, and 20. Further genomic microarray changes included loss of MTAP, IGH@, HTR1B, and SMAD4 (previously MADH4) and gains of MYC and TOP1. An excellent correlation was observed between the genomic array and FISH data, demonstrating that this technique is effective and accurate. The aberrations detected here may reflect important pathways in renal cancer pathogenesis.
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PMID:A combination of molecular cytogenetic analyses reveals complex genetic alterations in conventional renal cell carcinoma. 1586 Mar 50

Renal clear-cell carcinoma (RCC) is the predominant form of kidney cancer and is highly refractory to conventional anti-cancer therapies. The status of p53 tumor suppressor gene has been correlated with the efficacy of radio- and chemotherapies, where presence of mutant p53 is associated with reduced responsiveness to treatment. However, p53 itself is rarely mutated in RCC, rather suggesting that the p53 pathway might be compromized in RCC cells. In support of this notion, the transactivation property of normal p53 was shown to be repressed in various transformed kidney epithelial cells via an unknown dominant-negative mechanism. Mutation of the von Hippel-Lindau (VHL) gene causes familial VHL disease, which includes predisposition to RCC. Moreover, biallelic inactivation of VHL has been observed in the vast majority of sporadic RCC. Recently, the expression of pVHL in RCC cells was demonstrated to elevate the expression of p53 by inducing the binding of RNA-stabilizing protein HuR to the 3'untranslated region of p53 mRNA. Contrary to this finding, we report here that the reconstitution of a variety of VHL(-/-) RCC lines including 786-O, RCC4, and A498 or non-RCC cells with wild-type pVHL does not influence the expression of p53 and fails to induce p53-responsive gene p21CIP1/WAF1 or p53-responsive reporters. These results suggest that the expression of p53 in RCC cells is independent of pVHL.
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PMID:Expression of p53 in renal carcinoma cells is independent of pVHL. 1599 23

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