UMLS:C0178874 - FACTA Search

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Query: UMLS:C0178874 (tumor progression)
40,807 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gliomatosis cerebri (GC) is a rare tumor characterized by widespread infiltration of the brain and spinal cord. Although GC usually demonstrates histomorphological features of a low-grade tumor, the formation of secondary highly malignant tumor regions may occur. In order to reveal molecular genetic changes associated with tumor progression in GC, we analyzed factors known to be associated with malignant progression in common astocytomas in an unusual GC case of an 18-year-old patient suffering from this disease for almost 7 years. We detected allelic losses in the Rb gene and in exon 4 of the TP53 gene in a tumor region corresponding to a glioblastoma multiforme. EGFR or MDM2 gene amplifications were absent, and no PTEN mutation or allelic loss on chromosome 10 could be detected. Moreover, compared to tumor-free brain tissue of this patient, tumor regions showed increased EGFR expression. These findings show that malignant progression in GC might be associated with the acquisition of molecular genetic changes also found in low-grade astrocytomas with progression to secondary glioblastoma. These data support the notion that GC can be regarded as a subtype of a common astrocytoma.
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PMID:Evaluation of molecular genetic alterations associated with tumor progression in a case of gliomatosis cerebri. 1695 19

MDM2 is an oncoprotein whose transforming potential is activated by overexpression. The expression level of MDM2 is negatively regulated by orphan receptor TR3 that mainly acts as a transcriptional factor to regulate gene expression. However, the underlying mechanism is largely unclear. Here, we present the first evidence that inhibition of TR3 on MDM2 is mediated by p53. We found that TR3 directly interacts with p53 but not MDM2, and such interaction is critical for TR3 to inhibit MDM2 expression. TR3 downregulates p53 transcriptional activity by blocking its acetylation, leading to a decrease on the transcription level of MDM2. Furthermore, TR3 binding to p53 obstructs its ubiquitination and degradation induced by MDM2, resulting in the MDM2 ubiquitination and degradation. In addition, TR3 could enhance p53-mediated apoptosis induced by UV irradiation. Taken together, our findings demonstrate that p53 mediates the suppression of TR3 on MDM2 at both transcriptional and post-transcriptional level and suggest TR3 as a potential target to develop new anticancer agents that restrict MDM2-induced tumor progression.
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PMID:p53 mediates the negative regulation of MDM2 by orphan receptor TR3. 1713 61

As a major negative regulator of p53, the MDM2 oncogene plays an important role in carcinogenesis and tumor progression. MDM2 promotes p53 proteasomal degradation and negatively regulates p53 function. The mechanisms by which the MDM2-p53 interaction is regulated are not fully understood, although several MDM2-interacting molecules have recently been identified. To search for novel MDM2-binding partners, we screened a human prostate cDNA library by the yeast two-hybrid assay using full-length MDM2 protein as the bait. Among the candidate proteins, ribosomal protein S7 was identified and confirmed as a novel MDM2-interacting protein. Herein, we demonstrate that S7 binds to MDM2, in vitro and in vivo, and that the interaction between MDM2 and S7 leads to modulation of MDM2-p53 binding by forming a ternary complex among MDM2, p53 and S7. This results in the stabilization of p53 protein through abrogation of MDM2-mediated p53 ubiquitination. Consequently, S7 overexpression increases p53 transactivational activities, induces apoptosis, and inhibits cell proliferation. The identification of S7 as a novel MDM2-interacting partner contributes to elucidation of the complex regulation of the MDM2-p53 interaction and has implications in cancer prevention and therapy.
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PMID:Ribosomal protein S7 as a novel modulator of p53-MDM2 interaction: binding to MDM2, stabilization of p53 protein, and activation of p53 function. 1731 Sep 83

The MYC family oncogenes cause transformation and tumor progression by corrupting multiple cellular pathways, altering cell cycle progression, apoptosis, and genomic instability. Several recent studies show that MYCC (c-Myc) expression alters DNA repair mechanisms, cell cycle checkpoints, and karyotypic stability, and this is likely partially due to alterations in centrosome replication control. In neuroblastoma cell lines, MYCN (N-Myc) expression induces centrosome amplification in response to ionizing radiation. Centrosomes are cytoplasmic domains that critically regulate cytokinesis, and aberrations in their number or structure are linked to mitotic defects and karyotypic instability. Whereas centrosome replication is linked to p53 and Rb/E2F-mediated cell cycle progression, the mechanisms downstream of MYCN that generate centrosome amplification are incompletely characterized. We hypothesized that MDM2, a direct transcriptional target of MYCN with central inhibitory effects on p53, plays a role in MYC-mediated genomic instability by altering p53 responses to DNA damage, facilitating centrosome amplification. Herein we show that MYCN mediates centrosome amplification in a p53-dependent manner. Accordingly, inhibition of the p53-MDM2 interaction with Nutlin 3A (which activates p53) completely ablates the MYCN-dependent contribution to centrosome amplification after ionizing radiation. We further show that modulating MDM2 expression levels by overexpression or RNA interference-mediated posttranscriptional inhibition dramatically affects centrosome amplification in MYCN-induced cells, indicating that MDM2 is a necessary and sufficient mediator of MYCN-mediated centrosome amplification. Finally, we show a significant correlation between centrosome amplification and MYCN amplification in primary neuroblastoma tumors. These data support the hypothesis that elevated MDM2 levels contribute to MYCN-induced genomic instability through altered regulation of centrosome replication in neuroblastoma.
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PMID:MYCN-directed centrosome amplification requires MDM2-mediated suppression of p53 activity in neuroblastoma cells. 1736 62

Dominant negative (DN) mutations of tumor suppressor p53 (TP53) are clinically associated with cancer progression and metastasis of endometrial malignancy. To investigate the DN effect on tumor migration and invasion, we generated cells that stably co-expressed wild-type (wt) and R273H DN mutant TP53 (273H cells), and wt and R213Q recessive mutant TP53 (213Q cells), by transfection in endometrial cancer cells HHUA that expressed wt p53. R273H, but not R213Q, repressed wt p53-stimulated transcription of p21, Bax, and MDM2. 273H cells also showed markedly increased in vitro invasion and migration potentials, and displayed reduced Maspin, PAI-1, and KAI1 mRNA expressions as compared with 213Q and wt cells. The induction of wt p53 function by use of Adriamycin resulted in the inhibition of the invasion/migration capacity in association with the up-regulation of p53 target genes to a far greater degree in 213Q and wt cells than in 273H cells. R273H expression in p53-null cancer cell SK-OV-3 and Saos-2 did not significantly affect cell invasion and migration activities. Taken together, these results suggest that transdominance of R273H mutant over wt p53 rather than a gain-of-function promotes tumor metastasis by increasing invasion and migration in HHUA cells.
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PMID:p53 dominant-negative mutant R273H promotes invasion and migration of human endometrial cancer HHUA cells. 1763 7

beta-arrestins (beta-Arrs) are known to be associated with tumor signaling pathways such as transforming growth factor-beta1 (TGF-beta1), P53/Murine double minute (MDM2) and NF-kappaB. To investigate the role of beta-Arr in tumor progression in vivo, we generated beta-Arr transgenic mice by subcutaneously inoculating tumor cells in them. We found that the xenograft tumor initiated earlier and grew more rapidly in beta-Arr1 transgenic mice than in both the beta-Arr2 transgenic and wild-type mice after inoculating murine liver cancer Hepa1-6 cells or lymphoma EL4 cells. Moreover, matrix metalloproteinase 9 (MMP9) activity, vascular endothelial growth factor (VEGF) concentration in plasma and new small blood vessel formation in tumor tissues were enhanced in beta-Arr1 transgenic mice compared with those in control mice. In addition, injection of MMP9 inhibitors in beta-Arr1 transgenic mice abrogated all these effects and suppressed rapid tumor progression. Similar results were observed in human microvascular endothelial cells, where overexpressed beta-Arr1 did increase MMP9 activity and small blood vessel formation. Furthermore, phosphatidylinositol 3-kinase (PI3K) inhibitors could suppress beta-Arr1-enhanced MMP9 activity and the C-terminal 181-418 amino acids (aa) of beta-Arr1 was largely responsible for this effect. Our data reveal a functional role for beta-arrestin1 in tumor progression in vivo, in which overexpression of beta-Arr1 promotes MMP9 activity and tumor angiogenesis by providing a suitable microenvironment for tumor progression.
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PMID:Rapid xenograft tumor progression in beta-arrestin1 transgenic mice due to enhanced tumor angiogenesis. 1789 Feb 88

MDM2 is a ubiquitin ligase that is best known for its essential function in the negative regulation of p53. In addition, MDM2 expression is associated with tumor progression in a number of common cancers, and in some cases, this has been shown to be independent of p53 status. MDM2 has been shown to promote the degradation of a number of other proteins involved in the regulation of normal cell growth and proliferation, including MDM4 and RB1. Here, we describe the identification of a novel substrate for the MDM2 ubiquitin ligase: dihydrofolate reductase (DHFR). MDM2 binds directly to DHFR and catalyses its monoubiquitination and not its polyubiquitination. In addition, MDM2 expression reduces DHFR activity in a p53-independent manner, but has no effect upon the steady-state level of expression of DHFR. We show that changes in MDM2 expression alter folate metabolism in cells as evidenced by MDM2-dependent alteration in the sensitivity of cells to the antifolate drug methotrexate. Furthermore, we show that the ability of MDM2 to inhibit DHFR activity depends upon an intact MDM2 RING finger. Our studies provide for the first time a link between MDM2, an oncogene with a critical ubiquitin ligase activity and a vital one-carbon donor pathway involved in epigenetic regulation, and DNA metabolism, which has wide ranging implications for both cell biology and tumor development.
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PMID:MDM2 regulates dihydrofolate reductase activity through monoubiquitination. 1845 Nov 49

Ependymomas are CNS tumors that originate from the spinal canal and walls of the ventricular system. Considerable controversy continues to exist with regard to their prognostic factors; age and extent of resection are the only statistically significant prognostic factors yet identified. The authors report a retrospective study of a homogenous population of 119 patients harbouring ependymomas between 1991 and 2002. All clinico-radiological and follow-up data were analyzed and a pathologic review was performed by two pathologists. Immunohistochemical staining for MIB-1, Topo IIalpha, p53 and MDM2 was performed. Histopathologic grades show relationship with MIB1 and Topo IIalpha labelling indices and cut-off values of 5% can differentiate between anaplastic and lower grades. p53 and MDM2 proteins expression are not common in ependymomas; however, they are seen in higher grades only and may be involved in the tumor progression.
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PMID:A study of proliferative markers and tumor suppressor gene proteins in different grades of ependymomas. 1872 Dec 29

To assess how the abnormal expression of DNA damage response (DDR) genes correlate with oncogenesis, we analyzed mRNA levels of ATM-CHK2-P53 axis in 65 sporadic breast tumors by real-time PCR followed by evaluation of P53 protein and its activation status in representative samples. Univariate analysis showed a significantly higher transcript level for ATM (P=0.002), MDM2 (P=0.015) and p21 (P=0.013) in stage 1 tumors when compared against those of later stages. Although p53 transcript levels showed the characteristic increase in stage 1, a fourfold increase of p53 in N3 tumors than other nodal stages (P=0.0007) significantly increased its expression in stage 3B. The accumulated p53 at stage 3B, confirmed also at the protein level (P=0.012), was rendered nonfunctional by reduced P53 activation (p-P53Ser15; P=0.00007) or increased rate of mutation, substantiated further by the corresponding failure of upregulation of downstream genes, MDM2 and p21. We conclude that the alteration of DDR expression facilitates tumor progression and its possible therapeutic implications need to be studied in future.
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PMID:Expression of DNA damage response genes indicate progressive breast tumors. 1880 34

Genetic polymorphisms play an important role in clinical response to cytotoxic therapies. We hypothesized that polymorphisms in cell cycle genes may modulate response to preoperative chemoradiation and survival of pancreatic cancer patients. We evaluated 12 single-nucleotide polymorphisms (SNPs) of ten cell cycle genes in 88 patients with resectable adenocarcinoma of the pancreatic head who were treated with neoadjuvant concurrent gemcitabine and radiotherapy. Response was assessed by computerized tomography obtained before and 4-6 weeks after preoperative treatment. Time to tumor progression and survival after treatment were measured. Patients underwent pancreaticoduodenectomy (PD) if no disease progression was found at restaging after preoperative therapy. MDM2 T309G and p16 C580T genotype distributions were significantly different in the patients who underwent PD and those who did not (P = 0.025 for MDM2; P = 0.016 for p16). The MDM2 and p27 genotypes had a significant effect on survival times after treatment (log-rank test, P = 0.010 and P = 0.050, respectively). A strong joint effect of these two genes was observed (log-rank test, P = 0.010). The p73 and p16 polymorphic genotypes were significantly associated with shorter time to tumor progression (log-rank test, P = 0.021 and P = 0.039, respectively). A gene-dosage effect on time to tumor progression was observed for polymorphisms in the p73, p16, and MDM2 genes. The hazard ratios for patients with one, two, or three adverse genotypes were 2.13 (1.04-4.36), 3.18 (1.37-7.39), and 10.09 (3.17-32.05), respectively. These findings suggest these polymorphisms in the cell cycle genes are promising prognostic markers for patients with pancreatic cancer.
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PMID:Polymorphisms of p16, p27, p73, and MDM2 modulate response and survival of pancreatic cancer patients treated with preoperative chemoradiation. 1902 Sep 40

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