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)

Giant cell glioblastoma is a rare glioblastoma variant characterized by the presence of large, bizarre, multinucleated giant cells. This glioblastoma subtype develops clinically de novo after a short clinical history and contains a high frequency of p53 mutations. In this study, we screened a series of 18 giant cell glioblastomas for additional genetic alterations. PCR-SSCP followed by DNA sequencing revealed PTEN mutations in 5 of 15 tumors (33%). Of these, two mutations were located in exon 5, two mutations in exon 6, and one mutation each in exons 1 and 9. Four mutations were point mutations and two mutations were deletions. One neoplasm contained two PTEN mutations (exons 5 and 6). None of the giant cell glioblastomas showed a homozygous deletion of PTEN orp16, or amplification of MDM2. Immunohistochemically, MDM2 overexpression was either not observed or detected in only a minor fraction of tumor cells. Differential PCR revealed EGFR amplification in only one of 17 tumors (6%). These results indicate that giant cell glioblastomas occupy a hybrid position, sharing with primary (de novo) glioblastomas a short clinical history, the absence of a less malignant precursor lesion and a 30% frequency of PTEN mutations. With secondary glioblastomas that develop through progression from low-grade astrocytomas, they have in common a younger patient age at manifestation and a high frequency (>70%) of p53 mutations.
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PMID:Genetic profile of the giant cell glioblastoma. 1006 1

The binding of RB to MDM2 is shown to be essential for RB to overcome both the antiapoptotic function of MDM2 and the MDM2-dependent degradation of p53. The RB-MDM2 interaction does not prevent MDM2 from inhibiting p53-dependent transcription, but the RB-MDM2 complex still binds to p53. Since RB specifically rescues the apoptotic function but not the transcriptional activity of p53 from negative regulation by MDM2, transactivation by wild-type p53 is not required for the apoptotic function of p53. However, an RB-MDM2-p53 trimeric complex is active in p53-mediated transrepression. These data link directly the function of two tumor suppressor proteins and demonstrate a novel role of RB in regulating the apoptotic function of p53.
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PMID:RB regulates the stability and the apoptotic function of p53 via MDM2. 1007 1

Osteosarcoma is one of the most commonly biopsied primary tumor of bone. High-grade osteosarcomas in particular exhibit a wide spectrum of cytogenetic changes. Molecular cytogenetic studies on osteosarcomas have shown that genomic amplification, especially of both the TP53-binding MDM2 gene and the flanking SAS gene, plays an important role in the biology of these tumors. We applied CGH in order to obtain a global view of DNA-sequence losses and gains in osteosarcoma. CGH was performed on 20 high-grade medullary osteosarcomas (13 primary tumors prior to chemotherapy, 5 tumors after chemotherapy, 2 established cell lines [MB63, HOS58]) using genomic DNA of snap-frozen tumor specimens. CGH revealed DNA copy number aberrations, mostly gains, in all the tumors studied with an average of 18.5 aberrations/tumor (range 8-32). High-level amplifications were observed in all cases (average 4.1 amplifications/tumor [range 1-10]). Amplicons affecting at least five tumors were mapped to 1p21-31 (9/20 cases), 3q25-qter (6/20), 6p12-21 (6/20), 8q12-qter (10/20), 12p11-12 (9/20), 12q12-15 (enclosing MDM2 and SAS loci, 7/20). Losses were most frequently seen at 3p, 10q, 11p and 13 (all 10/20). In conclusion, our CGH data indicated that genomic amplification plays an important role in the biology of osteosarcoma. CGH demonstrated the complexity of genetic aberrations in osteosarcomas. The detection of novel non-random DNA amplifications in our study has defined regions for further targeted molecular genetic research aimed at identifying those oncogenes that are characteristic of osteosarcoma development.
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PMID:[Comparative genomic hybridization (CGH) for detecting a heretofore undescribed amplified chromosomal segment in high-grade medullary osteosarcoma]. 1009 31

The main aim of this study was to compare the prognostic impact of different histologic grading systems, the expression of the cell cycle-associated antigen DNA-topoisomerase-II-alpha (Ki-S1) and the expression of cell cycle regulators in malignant fibrous histiocytomas (MFH) using multivariate analyses. Paraffin-embedded tissue of 161 cases of MFH were studied immunohistochemically for the expression of the proliferation marker Ki-S1, cell cycle regulators (p53, MDM2, waf-1, pRb, p16) and the oncoprotein EGFR. The percentage of immunolabelled tumor cells (index) was assessed. The histologic grade was determined by the two-level grading systems of Costa, Tsujimoto and Pezzi, by the three-level grading systems of Coindre and Van Unnik and by the grading system presented here. Univariate analyses using the LOG rank test showed that all of the applied grading systems produce highly significant differences in survival between the grades of malignancy. Multivariate analyses with COX regression demonstrated that only the grading system presented here, based on the parameters necroses, mitoses and cellularity, had independent prognostic relevance. Moreover, the inclusion of the proposed grading system, the Ki-S1-index and a prognostic index primarily based on the expression of cell cycle regulators into the COX regression was suited for predicting survival in MFH. The grading system presented shows considerable advantages over the grading systems compared in this study for use in the routine pathology of MFH. The prognostic power of the proposed grading system can be enhanced by the combined study of cell cycle regulators and Ki-S1.
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PMID:Prognostic relevance of histologic grading, the cell cycle-associated antigen Ki-S1 and cell cycle regulators in malignant fibrous histiocytomas: a multivariate analysis. 1009 40

Histological differentiation between chondroma and chondrosarcoma is a common problem in surgical pathology. In a former study (3) we were able to show, that immuno-histochemical p53-accumulation in chondromatous neoplasias might be an additional hint for malignancy. Now we tried to find out, whether p53-accumulation is caused by TP53-aberrations or functional inactivation of p53-wildtype protein by MDM2. For this purpose, paraffin-embedded material of 80 chondromatous neoplasms (18 chondromas, 18 chondromatous neoplasms of uncertain dignity (i.e. cytologically suspicious but without definite invasive growth), and 44 chondrosarcomas (24 GI, 13 GII, 7 GIII)) were screened for TP53 gene-aberrations by means of DGGE (denaturing gradient gel electrophoresis; exons 5-8). The results were correlated with immunohistochemical p53-accumulation (DO-7, DAKO) and MDM2-expression (AB-1, Oncogene). A total of 43% of all chondromatous neoplasms showed TP53-aberrations in DGGE-analysis, i.e. 27% of chondromas, 50% of chondromatous neoplasms of uncertain dignity, 46% of GI-, 46% of GII- and 71% of GIII-chondrosarcomas. Exon 6 (58% of all cases with aberrations) and exon 8 (47%) were affected most frequently. No significant correlation between TP53-aberration and either p53-accumulation or MDM2-expression was present. A statistically significant correlation could be found between p53-accumulation and MDM2-expression (p < 0.0001). Regarding histological tumor-classification, p53-accumulation and MDM2-expression discriminated between chondromas/chondromatous neoplasms of uncertain dignity and well differentiated chondrosarcomas in a statistically significant manner. In the subgroup of p53-positive and MDM2-negative cases significantly more TP53-aberrations were detected by DGGE-analysis than in the other groups. Interestingly, the subgroup of p53- and MDM2-negative cases showed the second highest rate of TP53-DGGE-aberrations. Nearly 50% of these aberrations, however, were localized in exon 8, a mutation that is known to cause no p53-protein-accumulation. In conclusion, TP53-aberrations occur frequently in chondromatous neoplasms and show no significant association to either immunohistochemical p53-accumulation or MDM2-expression. Functional inactivation of p53 wildtype protein by MDM2-expression seems to be the major cause of p53-accumulation in chondromatous neoplasms and emphasizes the role of these parameters as additional hint for malignancy.
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PMID:[TP53 gene aberrations in chondromatous neoplasms: correlation with immunohistochemical p53 accumulation and MDM2 expression]. 1009 48

Expression of a beta-lactoglobulin (BLG)/mdm2 transgene (BLGmdm2) in the epithelial cells of the mouse mammary gland causes an uncoupling of S phase from M phase, resulting in polyploidy and tumor formation. The cell cycle defects are independent of interactions with p53. Because MDM2 also binds and activates the S phase-specific transcription factor E2F1, we hypothesized that increased E2F1 activity causes the development of the BLGmdm2 phenotype. We, therefore, generated BLGmdm2 mice that were null for E2F1. We observed no notable differences in histology or cyclin gene expression between BLGmdm2 and BLGmdm2/E2F1-/- mice, indicating that endogenous E2F1 activity was not required for the BLGmdm2 phenotype. Because, depending on the experimental system, either loss of E2F1 function or overexpression of E2F1 results in transformation, we also tested whether overexpression of E2F1 augmented the severity of the BLGmdm2 phenotype by generating mice that were bitransgenic for BLGmdm2 and BLGE2F1. We observed a unique mixture of the two single transgenic phenotypes histologically and found no significant changes in cyclin levels, indicating that overexpression of E2F1 had no effect on the BLGmdm2 transgenic phenotype. Thus, increased expression or absence of E2F1 does not affect the ability of MDM2 to disrupt the cell cycle.
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PMID:Overproduction of MDM2 in vivo disrupts S phase independent of E2F1. 1009 28

The region q13-15 of chromosome 12 contains SAS, CDK4, and MDM2 genes that are rearranged or amplified in a variety of human sarcomas. This study evaluated SAS gene amplification, and MDM2 and CDK4 protein expression in 20 tumor samples of central low-grade osteosarcoma (16 primary, 3 recurrences, 1 lung metastasis). SAS amplification was analyzed by quantitative polymerase chain reaction (PCR), while from the same paraffin-embedded samples, MDM2 and CDK4 protein expression was evaluated by immunohistochemistry. MDM2 and CDK4 proteins were found strongly expressed in 35% and 65%, respectively, of the samples. SAS was found amplified in 15% of the samples. These findings indicate that these genes may be involved in tumorigenesis and progression of low-grade osteosarcoma.
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PMID:Analysis of SAS gene and CDK4 and MDM2 proteins in low-grade osteosarcoma. 1010 94

The MDM2 oncoprotein encodes a 90 kDa nuclear phosphoprotein capable of abrogating the growth suppressive functions of p53 and pRb tumor suppressor proteins by direct interaction. Alternative splicing of MDM2 protein coding sequences has been documented during tumor progression in human ovarian and bladder carcinomas. The aim of this study was to determine whether alternative splicing of MDM2 occurs during breast tumorigenesis in mice and humans and whether protein coding sequences were affected. Specimens representing normal and malignant breast tissues from the murine D2 mammary tumor model system and human breast carcinomas were examined. Three distinct mdm2 mRNA transcripts of 3.3, 1.6 and 1.5 kb were detected in normal and malignant murine mammary tissues by Northern blot analysis using a full-length mdm2 cDNA probe. Additional Northern blot analysis using a probe derived from exon 12 of murine mdm2 demonstrated that the 1.5 and 1.6 kb transcripts lack sequences encoding the C-terminus of the protein. No evidence of internal deletions of protein coding sequences of mdm2 was detected in any of the normal mammary tissues or D2 murine mammary tumors examined by reverse transcription PCR (RT-PCR). Three distinct MDM2 transcripts of 6.7, 4.7 and 1.9 kb were detected in malignant human breast tissue by Northern blot analysis using a cDNA probe specific for the complete open reading frame of human MDM2. However, a cDNA probe specific for the last exon of human MDM2 hybridized only to the 6.7 and 4.7 kb transcripts, demonstrating that the 1.9 kb transcript lacked protein coding sequences contained in exon 12. Similarly, no internal deletions were detected in a panel of malignant human breast tissues using RT-PCR and analogous primers within human MDM2. Therefore, breast tumors differ from other solid tumors reported previously in that no internal deletions of MDM2 protein coding sequences were observed. However, the data document the presence of multiple MDM2 mRNA transcripts in both normal and malignant breast tissues. A subset of MDM2 transcripts were shown to lack the last exon which contains sequences coding for the RING and zinc fingers and domains which are targets for caspase-3 mediated proteolytic degradation and are required to target p53 for proteosomal degradation.
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PMID:Expression of MDM2 during mammary tumorigenesis. 1018 33

Wild-type (wt) p53 is a tumor-suppressor protein which acts via transcriptional and transcriptional-independent mechanisms. The transcriptional function of p53 is mediated by specific responsive elements (REs). The MDM2, WAF1/Cip1 and Bax genes possess p53REs and their activation by wt p53 induces cell cycle progression, arrest and programmed cell death (apoptosis), respectively. Mutations of the p53 gene are detected in more than 50% of the human malignant tumors. p53 mutants seem to have a more stable conformation and are suggested to exert dominant-negative inhibition of wt p53 in cells containing both wt and mutant (mt) alleles. However, recent studies show that certain mt p53 proteins posses a "gain of function" phenotype. In the present study, we examined the effects of the second most frequent p53 mutant R273H on the p53REs of the MDM2, WAF1/Cip1 and Bax genes in the H1299 non-small cell lung carcinoma cell line. Although mt p53 R273H alone was unable to bind and transactivate the corresponding p53REs, it enhanced the MDM2-p53RE mediated gene transcription of wt p53 (positive-dominant effect) and prevented the wt p53 transactivation of the p53REs of WAF1/Cip1 and Bax genes (negative-dominant effect). Our data suggest that in the appropriate environment, differential transcription of critical p53 target genes by certain p53 mutant proteins may illustrate another mechanism implicated in tumor development.
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PMID:Modulation of wild-type p53 activity by mutant p53 R273H depends on the p53 responsive element (p53RE). A comparative study between the p53REs of the MDM2, WAFI/Cip1 and Bax genes in the lung cancer environment. WAFI/Cip1 = WAF1/Cip1. 1022 2

The MDM2 protein regulates the functional activity of the p53 tumor suppressor through direct physical association. Signals that control MDM2 expression are poorly understood but are likely to play an important role in the regulation of p53 activity. We show here that the half-life of MDM2 protein is shorter in proliferating than in quiescent peripheral blood mononuclear cells. We also demonstrate that MDM2 protein half-life is extended in some, but not all, p53 mutant human leukemic cell lines. In at least one of these p53 mutant lines, increased MDM2 protein stability is associated with higher amounts of MDM2 protein. Moreover, we demonstrate that MDM2 protein accumulates to a much greater extent in proteasome inhibitor-treated cells containing unstable MDM2 than in cells possessing stable MDM2. These results demonstrate that MDM2 expression is regulated by events that control the stability of the protein and suggest that the normal regulation of MDM2 turnover can be altered in tumor cell lines.
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PMID:The pathway regulating MDM2 protein degradation can be altered in human leukemic cells. 1023 88

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