UMLS:C0596263 - FACTA Search

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Query: UMLS:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

beta-catenin is a multifunctional protein, acting both as a structural component of the cell adhesion machinery and as a transducer of extracellular signals. Deregulated beta-catenin protein expression, due to mutations in the beta-catenin gene itself or in its upstream regulator, the adenomatous polyposis coli (APC) gene, is prevalent in colorectal cancer and in several other tumor types, and attests to the potential oncogenic activity of this protein. Increased expression of beta-catenin is an early event in colorectal carcinogenesis, and is usually followed by a later mutational inactivation of the p53 tumor suppressor. To examine whether these two key steps in carcinogenesis are interrelated, we studied the effect of excess beta-catenin on p53. We report here that overexpression of beta-catenin results in accumulation of p53, apparently through interference with its proteolytic degradation. This effect involves both Mdm2-dependent and -independent p53 degradation pathways, and is accompanied by augmented transcriptional activity of p53 in the affected cells. Increased p53 activity may provide a safeguard against oncogenic deregulation of beta-catenin, and thus impose a pressure for mutational inactivation of p53 during the later stages of tumor progression.
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PMID:Excess beta-catenin promotes accumulation of transcriptionally active p53. 1035 17

Overexpression of Mdm2 in cancer cells with otherwise wild-type p53 is believed to be an alternative mechanism for p53 inactivation during carcinogenesis. Because a number of genetic alterations that inactivate p53, including mutation, homozygous deletion, or viral oncoprotein expression (e.g. HPV16-E6), inhibit DNA repair, we tested the hypothesis that Mdm2 would likewise inhibit DNA repair. Repair of cisplatin-induced DNA damage was reduced in MCF7 cells overexpressing Mdm2, compared to MCF7 cells in which wild-type p53 function was intact. MCF7-Mdm2 cells exhibited preferential sensitivity to cisplatin and carboplatin. MCF7-Mdm2 cells showed a pronounced S-phase arrest after cisplatin treatment, similar to that observed in mutant-p53 cells in the present and prior studies. MCF7 cells with intact wild-type p53, on the other hand, arrested primarily in G2/M phase after cisplatin treatment. These findings indicate that Mdm2 overexpression can recapitulate the effect of p53 mutations on DNA repair of cisplatin lesions.
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PMID:Mdm2 sensitizes MCF7 breast cancer cells to cisplatin or carboplatin. 1067 73

Mdm2, localized on chromosome 12, is considered a negative regulator of p53 function and seems to play a role in the pathogenesis of a variety of tumors. The mdm2 amplification in advanced-stage gastric carcinoma has not yet been investigated. Mdm2 amplification was determined in 43 gastric carcinomas, and the genetic results were correlated with mdm2 protein expression, p53 alterations, and clinicopathologic data. The tumors were classified according to Lauren: 20 intestinal-type tumors, 19 tumors of diffuse growth inclusive of a primary small cell carcinoma, and 4 carcinomas with mixed differentiation. Staging was based on the pTNM classification system. Mdm2 and p53 were demonstrated by immunohistology on formalin-fixed and paraffin-embedded tumor tissue. The mdm2 oncogene was amplified by nonradioactive hybridization of tumor DNA with an mdm2 cDNA probe. The Southern blots were evaluated densitometrically. For p53 mutation screening, we analyzed the highly conservative regions of the p53 gene (exons 4 to 8) with the use of the polymerase chain reaction-single-strand conformation polymorphism technique. Polymerase chain reaction products with band shifting were directly sequenced. Mdm2 amplification was demonstrated in 18 tumors (41.8%). The mdm2 gene was amplified more frequently in carcinomas with a diffuse growth pattern. Gastric carcinomas of the intestinal type, however, showed a higher frequency of p53 alterations. There was no statistical significance of the molecular genetic and immunohistologic results of the mdm2/p53 status to staging as well as to age and sex of the patients. The mdm2/p53 pathway is a part of the carcinogenesis of gastric carcinoma. Only approximately 20% of gastric carcinomas failed to show mdm2 and/or p53 alterations. The upregulation of the mdm2 oncogene and the accompanying inactivation of the tumor suppressor gene 53 seem to play a role above all in carcinomas of the diffuse type.
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PMID:Mdm2 gene amplification in gastric cancer correlation with expression of Mdm2 protein and p53 alterations. 1087 65

Chemically induced skin carcinomas in mice are a paradigm for epithelial neoplasia, where oncogenic ras mutations precede p53 and INK4a/ARF mutations during the progression toward malignancy. To explore the biological basis for these genetic interactions, we studied cellular responses to oncogenic ras in primary murine keratinocytes. In wild-type keratinocytes, ras induced a cell-cycle arrest that displayed some features of terminal differentiation and was accompanied by increased expression of the p19(ARF), p16(INK4a), and p53 tumor suppressors. In ARF-null keratinocytes, ras was unable to promote cell-cycle arrest, induce differentiation markers, or properly activate p53. Although oncogenic ras produced a substantial increase in both nucleolar and nucleoplasmic p19(ARF), Mdm2 did not relocalize to the nucleolus or to nuclear bodies but remained distributed throughout the nucleoplasm. This result suggests that p19(ARF) can activate p53 without overtly affecting Mdm2 subcellular localization. Nevertheless, like p53-null keratinocytes, ARF-null keratinocytes were transformed by oncogenic ras and rapidly formed carcinomas in vivo. Thus, oncogenic ras can activate the ARF-p53 program to suppress epithelial cell transformation. Disruption of this program may be important during skin carcinogenesis and the development of other carcinomas.
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PMID:Oncogenic ras activates the ARF-p53 pathway to suppress epithelial cell transformation. 1130 6

Breast cancer is a chief cause of cancer-related mortality that affects women worldwide. About 8% of cases are hereditary, and approximately half of these are associated with germline mutations of the breast tumor suppressor gene BRCA1 (refs. 1,2). We have previously reported a mouse model in which Brca1 exon 11 is eliminated in mammary epithelial cells through Cre-mediated excision. This mutation is often accompanied by alterations in transformation-related protein 53 (Trp53, encoding p53), which substantially accelerates mammary tumor formation. Here, we sought to elucidate the underlying mechanism(s) using mice deficient in the Brca1 exon 11 isoform (Brca1Delta11/Delta11). Brca1Delta11/Delta11 embryos died late in gestation because of widespread apoptosis. Unexpectedly, elimination of one Trp53 allele completely rescues this embryonic lethality and restores normal mammary gland development. However, most female Brca1Delta11/Delta11 Trp53+/- mice develop mammary tumors with loss of the remaining Trp53 allele within 6-12 months. Lymphoma and ovarian tumors also occur at lower frequencies. Heterozygous mutation of Trp53 decreases p53 and results in attenuated apoptosis and G1-S checkpoint control, allowing Brca1Delta11/Delta11 cells to proliferate. The p53 protein regulates Brca1 transcription both in vitro and in vivo, and Brca1 participates in p53 accumulation after gamma-irradiation through regulation of its phosphorylation and Mdm2 expression. These findings provide a mechanism for BRCA1-associated breast carcinogenesis.
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PMID:Genetic interactions between tumor suppressors Brca1 and p53 in apoptosis, cell cycle and tumorigenesis. 1143 98

The p53-Mdm2 paradigm represents the best-studied relationship between a tumor suppressor gene which functions as a transcription factor and an oncogene, which functions primarily as an E3 protein ligase. The intimate relationship between these two partners has expanded to include almost every cellular biological system - from development, to growth control and programmed cell death. The affair between Mdm2 and p53 is closely controlled by a complex array of post-translational modifications, which in turn dictates the stability and activity of p53 and Mdm2. Functional diversity depends on the association with a large subset of partner proteins, which dictates the type of activity and corresponding selectivity. Here we summarize the current understanding of post-translational modifications and their effect on conformation-based functional relationship between Mdm2 and p53, as it pertains to their diverse cellular biological functions.
Carcinogenesis 2002 Apr
PMID:p53-Mdm2--the affair that never ends. 1196 Sep 4

Pathways involving p53 and pRb tumor suppressor genes are frequently deregulated during lung carcinogenesis. Through its location at the interface of these pathways, Mdm2 can modulate the function of both p53 and pRb genes. We have examined here the pattern of expression of Mdm2 in a series of 192 human lung carcinomas of all histological types using both immunohistochemical and Western blot analyses and four distinct antibodies mapping different epitopes onto the Mdm2 protein. Using Immunohistochemistry (IHC), Mdm2 was overexpressed as compared to normal lung in 31% (60 out of 192) of all tumors analysed, whatever their histological types. Western blotting was performed on 28 out of the 192 tumoral samples. Overexpression of p85/90, p74/76 and p57 Mdm2 isoforms was detected in 18% (5 out of 28), 25% (7 out of 28) and 39% (11 out of 28) of the cases respectively. Overall, overexpression of at least one isoform was observed in 14 out of 28 (50%) lung tumors and concomittant overexpression of at least two isoforms in 7 out of 28 (25%) cases. A good concordance (82%) was observed between immunohistochemical and Western blot data. Interestingly, a highly significant inverse relationship was detected between p14(ARF) loss and Mdm2 overexpression either in NSCLC (P=0.0089) or in NE lung tumors (P<0.0001). Furthermore, a Mdm2/p14(ARF) >1 ratio was correlated with a high grade phenotype among NE tumors overexpressing Mdm2 (P=0.0021). Taken together, these data strongly suggest that p14(ARF)and Mdm2 act on common pathway(s) to regulate p53 and/or pRb-dependent or independent functions and that the Mdm2 : p14(ARF) ratio might act as a rheostat in modulating the activity of both proteins.
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PMID:Mdm2 overexpression and p14(ARF) inactivation are two mutually exclusive events in primary human lung tumors. 1196 48

Tumor necrosis factor (TNF)-alpha and TNF-related apoptosis inducing ligand (TRAIL) share a common signaling pathway. Here we show a novel potentiating effect of cadmium on TNF-alpha- or TRAIL-mediated cell death via distinct signaling. TNF-alpha or TRAIL sensitized otherwise resistant NIH3T3 embryo fibroblast cells to death, when exposed to cadmium. The potentiating effects elicited by TNF-alpha or TRAIL on cell death were NF-kappaB- and SAPK/JNK-independent and were not diminished by the expression of Bcl-2. TNF-alpha potentiated the cadmium-induced accumulation of p53 but did not affect expression levels of Bax, Mdm2 and p21(WAF/CIP). A similar pattern of p53 accumulation was also observed in Balbc/3T3 fibroblasts but not in human tumor cell lines, MCF7 and HeLa cells. The synergistic cell death evoked by TNF-alpha and cadmium was attenuated by transient expression of a dominant negative p53(Val135) mutant in NIH3T3 cells and was not observed in p53(-/-) mouse embryo fibroblasts, indicating that p53 accumulation appears to contribute to cell death. In contrast, TRAIL did not further increase the cadmium-induced accumulation of p53 despite its potentiation effects on the cadmium-induced cell death. Expression of p53(Val135) mutant did not reduce TRAIL- and cadmium-mediated cell death. Taken together, these results suggest that TNF-alpha and TRAIL potentiate the cadmium-mediated cell death via distinct p53 expression patterns.
Carcinogenesis 2002 Sep
PMID:Sensitizing effects of cadmium on TNF-alpha- and TRAIL-mediated apoptosis of NIH3T3 cells with distinct expression patterns of p53. 1218 81

The Mdm2 oncoprotein physically associates with p53 and antagonizes its tumor suppressor functions. Previous studies indicate that some tumors express alternatively or aberrantly spliced Mdm2 variants that are unable to bind p53, but whether these actively contribute to carcinogenesis or are a byproduct of cancer progression has been unclear. In this study, we examined the ability of full-length Mdm2 and several tumor-derived splice variants to modulate tumor development in E micro -myc transgenic mice. We report that several tumor-derived Mdm2 splice variants promote tumorigenesis in a manner that is comparable with full-length Mdm2. Our results imply that the current paradigm for understanding Mdm2 action during oncogenesis is incomplete, and its splice variants contribute to human cancer.
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PMID:Tumor promotion by Mdm2 splice variants unable to bind p53. 1452 87

Tumor suppressor proteins must be exquisitely regulated since they can induce cell death while preventing cancer. For example, the p19(ARF) tumor suppressor (p14(ARF) in humans) appears to stimulate the apoptotic function of the p53 tumor suppressor to prevent lymphomagenesis and carcinogenesis induced by oncogene overexpression. Here we present a genetic approach to defining the role of p19(ARF) in regulating the apoptotic function of p53 in highly proliferating, homeostatic tissues. In contrast to our expectation, p19(ARF) did not activate the apoptotic function of p53 in lymphocytes or epithelial cells. These results demonstrate that the mechanisms that control p53 function during homeostasis differ from those that are critical for tumor suppression. Moreover, the Mdm2/p53/p19(ARF) pathway appears to exist only under very restricted conditions.
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PMID:Mdm2 regulates p53 independently of p19(ARF) in homeostatic tissues. 1467 54

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