UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myelodysplastic syndrome (MDS) is an uncommon but serious complication of patients who undergo autologous bone marrow transplantation (auto-BMT) for non-Hodgkin's lymphoma or Hodgkin's disease. Some patients exhibit an indolent course, but others succumb to aggressive disease. p53 overexpression is rare in de novo MDS but common in therapy-associated MDS. We used an immunostaining method to analyze expression of p53, the p53-associated tumor suppressor gene products, MDM2, p21waf1, retinoblastoma gene protein (pRB), and the antiapoptotic oncoprotein bcl-2 before and after BMT in BM specimens from eight patients with clonal karyotypic abnormalities characteristic of MDS. Staining was compared with findings in normal BM specimens and specimens from auto-BMT controls and patients with de novo MDS. p53 protein was found in three (75%) of four post-transplantation specimens from patients in whom a clinically aggressive form of MDS developed. In contrast, p53 was absent in all of the specimens from four patients with karyotypic evidence of MDS, but with indolent disease. bcl-2 protein was overexpressed by immature myeloid cells in seven of eight pre-BMT specimens. After BMT, it was predominantly found at low levels in cases positive for p53. MDM2 was present only after transplantation and was found with equal frequency in patients with indolent and aggressive MDS. We detected p21waf1 in only one aggressive post-BMT MDS specimen. pRB was normally expressed in all of the specimens. These data show that p53 and bcl-2 staining patterns in post-transplantation MDS are similar to those described in therapy-associated MDS. p53 positivity is associated with poor prognosis in auto-BMT patients with MDS. Expression of MDM2, p21waf1, and pRB in this group of patients is not helpful in predicting outcome.
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PMID:Expression of p53, MDM2, p21waf1, bcl-2, and retinoblastoma gene proteins in myelodysplastic syndrome after autologous bone marrow transplantation for lymphoma. 938 63

Nineteen benign [World Health Organization (WHO) grade I; MI], 21 atypical (WHO grade II; MII), and 19 anaplastic (WHO grade III; MIII) sporadic meningiomas were screened for chromosomal imbalances by comparative genomic hybridization (CGH). These data were supplemented by molecular genetic analyses of selected chromosomal regions and genes. With increasing malignancy grade, a marked accumulation of genomic aberrations was observed; i.e., the numbers (mean +/- SEM) of total alterations detected per tumor were 2.9 +/- 0.7 for MI, 9.2 +/- 1.2 for MII, and 13.3 +/- 1.9 for MIII. The most frequent alteration detected in MI was loss on 22q (58%). In MII, aberrations most commonly identified were losses on 1p (76%), 22q (71%), 14q (43%), 18q (43%), 10 (38%), and 6q (33%), as well as gains on 20q (48%), 12q (43%), 15q (43%), 1q (33%), 9q (33%), and 17q (33%). In MIII, most of these alterations were found at similar frequencies. However, an increase in losses on 6q (53%), 10 (68%), and 14q (63%) was observed. In addition, 32% of MIII demonstrated loss on 9p. Homozygous deletions in the CDKN2A gene at 9p21 were found in 4 of 16 MIII (25%). Highly amplified DNA sequences were mapped to 12q13-q15 by CGH in 1 MII. Southern blot analysis of this tumor revealed amplification of CDK4 and MDM2. By CGH, DNA sequences from 17q were found to be amplified in 1 MII and 8 MIII, involving 17q23 in all cases. Despite the high frequency of chromosomal aberrations in the MII and MIII investigated, none of these tumors showed mutations in exons 5-8 of the TP53 gene. On the basis of the most common aberrations identified in the various malignancy grades, a model for the genomic alterations associated with meningioma progression is proposed.
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PMID:Analysis of genomic alterations in benign, atypical, and anaplastic meningiomas: toward a genetic model of meningioma progression. 940 79

The MDM2 oncogene encodes an inhibitor of the p53 tumor suppressor protein that regulates p53 in a negative feedback loop. MDM2 gene amplification and overexpression occur in several types of tumors and are often associated with poor prognosis. An MDM2 antisense phosphorothioate oligodeoxynucleotide has been identified that effectively inhibits MDM2 expression in tumor cells containing MDM2 gene amplifications. Antisense inhibition of MDM2 is associated with a decrease in MDM2-p53 complex formation, increase in p53-inducible gene expression, increase in p53 transcriptional activity, and apoptosis. Significantly, inhibition of MDM2 expression enhances the activation of p53 by a DNA-damaging cancer chemotherapy agent in a synergistic fashion. Therefore, the MDM2 negative feedback pathway is an important limiting factor in DNA damage-induced p53 activation. MDM2 antisense oligonucleotides may be useful as antitumor agents alone or as enhancers of other conventional DNA-damaging drugs.
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PMID:Synergistic activation of p53 by inhibition of MDM2 expression and DNA damage. 941 52

We have investigated the relationship between the development of tumor resistance towards the cytotoxic action of tumor necrosis factor-alpha (TNF) and p53 function, using the TNF-sensitive MCF7 human breast adenocarcinoma cell line and two TNF-resistant sublines, MCF7/R-A1 and MCF7/Adr. Use of single-strand conformation polymorphism (SSCP) analysis and DNA sequencing shows that MCF7 has a wild-type p53 gene, whereas both TNF-resistant sublines exhibit mutant p53. This includes a point mutation R280K in MCF7/R-A1 cells, and a point mutation at the splicing acceptor site on the upstream border of exon 5 resulting in a 21 pb deletion in MCF7/Adr cells. These mutations result in loss of p53 capacity to transactivate FASAY (functional assay in yeast). In contrast to what is observed for parental MCF7 cells, treatment of resistant sublines with TNF or gamma-irradiation fails neither to induce the expression of the p53-regulated gene products p21waf1/CIP1 and MDM2, nor to arrest the cells in the G1 phase of the cell cycle. Disruption of p53 wild-type function in MCF7 cells by transfection with human papillomavirus type-16 E6 gene, leads to abrogation of the cytotoxic, but not the cytostatic activity of TNF. Altogether, our results strongly suggest that wild-type p53 is involved in cytotoxic action of TNF, and point out that loss of p53 function contributes to resistance of tumor cell to TNF-induced killing.
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PMID:Resistance of MCF7 human breast carcinoma cells to TNF-induced cell death is associated with loss of p53 function. 941 72

The clinical potential of the p53 tumor suppressor gene is being evaluated currently for gene therapy of cancer. We have built a variant of wild-type p53, chimeric tumor suppressor 1 (CTS1), in which we have replaced the domains that mediate its inactivation. CTS1 presents some very interesting properties: (a) enhanced transcriptional activity; (b) resistance to the inactivation by oncogenic forms of p53; (c) resistance to the inactivation by MDM2; (d) lower sensitivity to E6-induced degradation; (e) ability to suppress cell growth; and (f ) faster induction of apoptosis. Thus, CTS1 is an improved tumor suppressor and an alternative for the treatment of wild-type p53-resistant human tumors by gene therapy.
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PMID:CTS1: a p53-derived chimeric tumor suppressor gene with enhanced in vitro apoptotic properties. 942 73

The E6 and E7 genes of the high-risk human papillomavirus (HPV) types encode oncoproteins, and both act by interfering with the activity of cellular tumor suppressor proteins. E7 proteins act by associating with members of the retinoblastoma family, while E6 increases the turnover of p53. p53 has been implicated as a regulator of both the G1/S cell cycle checkpoint and the mitotic spindle checkpoint. When fibroblasts from p53 knockout mice are treated with the spindle inhibitor nocodazole, a rereplication of DNA occurs without transit through mitosis. We investigated whether E6 or E7 could induce a similar loss of mitotic checkpoint activity in human keratinocytes. Recombinant retroviruses expressing high-risk E6 alone, E7 alone, and E6 in combination with E7 were used to infect normal human foreskin keratinocytes (HFKs). Established cell lines were treated with nocodazole, stained with propidium iodide, and analyzed for DNA content by flow cytometry. Cells infected with high-risk E6 were found to continue to replicate DNA and accumulated an octaploid (8N) population. Surprisingly, expression of E7 alone was also able to bypass this checkpoint. Cells expressing E7 alone exhibited increased levels of p53, while those expressing E6 had significantly reduced levels. The p53 present in the E7 cells was active, as increased levels of p21 were observed. This suggested that E7 bypassed the mitotic checkpoint by a p53-independent mechanism. The levels of MDM2, a cellular oncoprotein also implicated in control of the mitotic checkpoint, were significantly elevated in the E7 cells compared to the normal HFKs. In E6-expressing cells, the levels of MDM2 were undetectable. It is possible that abrogation of Rb function by E7 or increased expression of MDM2 contributes to the loss of mitotic spindle checkpoint control in the E7 cells. These findings suggest mechanisms by which both HPV oncoproteins contribute to genomic instability at the mitotic checkpoint.
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PMID:Human papillomavirus oncoproteins E6 and E7 independently abrogate the mitotic spindle checkpoint. 944 9

Epidermal growth factor (EGF) and insulin-like growth factor-I (IGF-I) receptors are implicated in the development and progression of several malignancies including osteogenic and soft tissue sarcomas (STS). To determine a role for ligand-mediated receptor activation in sarcoma progression, the relative expression and function of EGF-R, IGF-I-R, and several other molecular determinants implicated in the progression of mesenchymal neoplasms were evaluated in human sarcoma cells established from surgical specimens of primary and metastatic tumors. mRNA blot analyses demonstrated the expression of c-Met, p53, and MDM2-specific transcripts. Western blot analyses confirmed the production of high levels of p53 protein; however, minimal levels of MDM2 and c-Met proteins were detected. Analysis of STS cells #23, #26, and #50 originating from an unclassified sarcoma lung metastasis, a malignant fibrous histiocytoma lung metastasis, and a dedifferentiated chondrosarcoma, respectively demonstrated high steady-state levels of EGF-R and IGF-I-R mRNA transcripts and protein correlating with receptor-specific tyrosine kinase activity and autophosphorylation in response to ligand. Treatment of these STS cells with EGF resulted in a >5 fold increase in DNA synthesis and mitogenesis compared with untreated controls. In contrast, treatment with IGF-I showed a variable STS growth response correlating with the origin of the tumor. These data support the involvement of EGF-R and IGF-I-R in the growth and metastasis of human soft tissue sarcoma and may offer new targets for therapeutic intervention in the management of this disease.
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PMID:Epidermal growth factor receptor and insulin-like growth factor-I receptor expression and function in human soft-tissue sarcoma cells. 945 58

The GAS1 gene product induces growth arrest through a p53-dependent mechanism. To investigate whether GAS1 is a tumor suppressor gene, we transfected GAS1-negative human tumor cells with GAS1 plasmids and analyzed growth characteristics of stable transfectants. When a constitutively expressing GAS1 plasmid was transfected into A549 cells, no stable colonies expressing GAS1 were isolated. When A549 cells were transfected with a dexamethasone-inducible GAS1 plasmid, expression of GAS1 inhibited growth in vitro, and fewer slow-growing tumors arose in nude mice. GAS1 also inhibited proliferation of an HT1080 subline with wild-type (wt) p53 and normal MDM2. However, when the HT1080 subline HTD114 was transfected with the constitutive GAS1 plasmid, there was no reduction in colony number. GAS1-transfectant clones had unaltered growth in vitro, were morphologically unchanged and showed no difference in their ability to form tumors in nude mice. Although HTD114 cells contain wt p53, levels of MDM2 were elevated by 10-15 fold. The HT1080-6TGc5 subline with mutant p53 and normal MDM2 was also refractory to GAS1. Our results show that GAS1 suppresses the growth and tumorigenicity of human tumor cells and overexpression of MDM2 or p53 mutation inhibits the GAS1-mediated growth-suppressing pathway.
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PMID:Tumor-suppressive activity of the growth arrest-specific gene GAS1 in human tumor cell lines. 946 58

The INK4a gene encodes two distinct growth inhibitors--the cyclin-dependent kinase inhibitor p16Ink4a, which is a component of the Rb pathway, and the tumor suppressor p19Arf, which has been functionally linked to p53. Here we show that p19Arf potently suppresses oncogenic transformation in primary cells and that this function is abrogated when p53 is neutralized by viral oncoproteins and dominant-negative mutants but not by the p53 antagonist MDM2. This finding, coupled with the observations that p19Arf and MDM2 physically interact and that p19Rrf blocks MDM2-induced p53 degradation and transactivational silencing, suggests that p19Arf functions mechanistically to prevent MDM2's neutralization of p53. Together, our findings ascribe INK4a's potent tumor suppressor activity to the cooperative actions of its two protein products and their relation to the two central growth control pathways, Rb and p53.
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PMID:The Ink4a tumor suppressor gene product, p19Arf, interacts with MDM2 and neutralizes MDM2's inhibition of p53. 952 48

The INK4a-ARF locus encodes two unrelated proteins that both function in tumor suppression. p16INK4 binds to and inhibits the activity of CDK4 and CDK6, and ARF arrests the cell cycle in a p53-dependent manner. We show here that ARF binds to MDM2 and promotes the rapid degradation of MDM2. This interaction is mediated by the exon 1beta-encoded N-terminal domain of ARF and a C-terminal region of MDM2. ARF-promoted MDM2 degradation is associated with MDM2 modification and concurrent p53 stabilization and accumulation. The functional consequence of ARF-regulated p53 levels via MDM2 proteolysis is evidenced by the ability of ectopically expressed ARF to restore a p53-imposed G1 cell cycle arrest that is otherwise abrogated by MDM2. Thus, deletion of the ARF-INK4a locus simultaneously impairs both the INK4a-cyclin D/CDK4-RB and the ARF-MDM2-p53 pathways.
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PMID:ARF promotes MDM2 degradation and stabilizes p53: ARF-INK4a locus deletion impairs both the Rb and p53 tumor suppression pathways. 952 49

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