Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P04637 (p53)
 77,613 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Data are non-existent regarding coincidental alterations in the expression of p53 and its downstream target genes MDM2 and p21(Waf1/Cip1) in gastric carcinogenesis. An immunohistochemical study was therefore performed to examine the interrelationships of p53, MDM2, and p21(Waf1/Cip1) expression in a series of Caucasian early gastric carcinomas and precursor lesions. In normal gastric mucosa, chronic gastritis, and intestinal metaplasia, the surface cells expressed p21(Waf1/Cip1) in the absence of detectable nuclear p53 and MDM2 protein. Nuclear p53 protein accumulation was found in 60 per cent of the carcinomas, with significant differences in staining characteristics between the Lauren types in the absence of detectable MDM2 protein ( p< 0.005). Nearly 80 per cent of the carcinomas expressed p21(Waf1/Cip1), irrespective of Lauren type. Stratification of the carcinomas according to histological grade and growth pattern did not result in significant differences in p53 and p21(Waf1/Cip1) expression. Finally, no significant correlation was found between overall p53 and p21(Waf1/Cip1) expression in early gastric carcinomas. It is concluded that p21(Waf1/Cip1) expression in the non-neoplastic mucosa most likely relates to cell senescence and/or terminal differentiation, perhaps even in a p53-independent manner. In view of p53/MDM2 homeostasis, the differences in p53 staining characteristics between intestinal and diffuse-type carcinomas probably result, at least in part, from a difference in the prevalence of p53 gene mutations. Moreover, p53-independent induction of p21(Waf1/Cip1) expression apparently occurs in a considerable proportion of early carcinomas. Finally, in contrast to other carcinomas, p21(Waf1/Cip1) expression is not significantly correlated with histological grade in gastric carcinomas, suggesting possible defects downstream of p21(Waf1/Cip1) as an underlying cause for this apparent discrepancy.
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PMID:p21(Waf1/Cip1) expression and the p53/MDM2 feedback loop in gastric carcinogenesis. 1062 47

Forty-five cases of primary gastric carcinoma were investigated immunohistochemically for p53 protein accumulation and MDM2 protein overexpression. The results were correlated with pathological and clinical data. The incidence of p53 accumulation was 12 of 45 (26.7%) cases and that of MDM2 expression was 30 of 45 (66.7%). Eighteen of 45 (40%) cases showed MDM2 overexpression without p53 accumulation. All of the 12 p53-positive cases exhibited a co-expression of MDM2. Accumulation of p53 and MDM2 overexpression correlated with the grade of malignancy. MDM2 expression occurred more often in intestinal carcinomas than in the diffuse types. No correlation was found between p53 accumulation and the histopathology of gastric cancer. p53 accumulation and MDM2 overexpression did not correlate with tumor size, nodal status, presence of metastases, age or survival. p53 alteration, which seems to be a late step in gastric carcinogenesis, is a marker of higher grade tumors. MDM2 functions as a cofactor of p53 in late gastric carcinogenesis. An independent role of this oncoprotein in gastric carcinogenesis also seems possible. Neither p53 nor MDM2 is a useful prognostic indicator.
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PMID:P53-protein accumulation and MDM2-protein overexpression in gastric carcinomas. No apparent correlation with survival. 1063 16

Regulation of the p53 tumor suppressor protein occurs to a large extent through control of protein stability, and the MDM2 protein has been shown to play a key role in targeting p53 for degradation. Stress signals that activate the p53 response lead to stabilization of p53 through inhibition of MDM2 mediated degradation, and it is becoming evident that a number of mechanisms exist to abrogate this activity of MDM2. Other members of the p53 protein family may also be regulated through protein stability, although MDM2 is not responsible for the degradation of p73. Nevertheless, interactions of p63 and p73 with MDM2 or p53 have been described, suggesting that each of the p53-related proteins can play some role in regulating the activity of the others
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PMID:Regulation and activation of p53 and its family members. 1063 27

MDM2 overexpression by pediatric ALL cells at initial diagnosis has been linked to poor response to therapy. In the present study, we evaluated the incidence of MDM2 overexpression by ALL cells from pediatric patients at first relapse and compared MDM2 protein levels with in vitro response to adriamycin and with duration of initial complete remission (CR1). Since an important role of MDM2 in enhancing cell proliferation and survival appears to be inhibition of p53 activity, we also evaluated the status of p53 in these patients' leukemic cells. MDM2 protein levels were determined by Western blot analysis of leukemic bone marrow cells obtained from 42 patients with B cell precursor (BCP) ALL who relapsed during or following therapy on standard POG ALL protocols. Twelve of 42 (29%) cases have MDM2 levels >/=10-fold higher than those detected in normal bone marrow mononuclear (NMMC) cells, which express relatively low levels of protein. Thirty cases (71%) expressed MDM2 at levels <10-fold those in NMMC, including 24 MDM2-negative cases (57%). P53 mutations were detected by single-strand conformation polymorphism analysis in two cases. Overexpression of MDM2 (>/=10-fold) was significantly correlated with adriamycin resistance and decreased duration of CR1. Eight of 12 (75%) overexpressers showed high levels of in vitro resistance to adriamycin, compared to four of 30 (13%) non-overexpressers (P < 0.005). The median CR1 for MDM2 overexpressers was 20.5 months (range: 3-75 months) compared to 41 months (range: 8-98 months) for non-overexpressers (P < 0.01). Four of 42 patients failed to achieve CR following re-induction: leukemic cells from three of these patients either overexpressed MDM2 or contained a mutant p53. These results indicate that overexpression of MDM2 plays a significant role in refractory pediatric ALL and is associated with early relapse, adriamycin resistance, and failure to respond to re-induction therapy. Leukemia (2000) 14, 61-67.
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PMID:Incidence and prognostic significance of MDM2 oncoprotein overexpression in relapsed childhood acute lymphoblastic leukemia. 1063 78

Relatively rare squamous cell carcinomas of the tongue in young patients may be associated with different etiologic factors and pathogenetic mechanisms than carcinomas from the same site in older patients. Alterations in cell cycle proteins likely contribute to the biologic behavior of these neoplasms. The purpose of this investigation was to evaluate cell cycle proteins (p53, p21, Rb, MDM2) in lateral tongue cancers from patients at the two ends of the age spectrum. All available archived lateral tongue carcinomas from patients < 35 years (n = 36, 23 males and 13 females) were sectioned, immunohistochemically stained, and evaluated. Protein expression was scored as percent positive nuclei. An equal number of sequentially accessioned lateral tongue specimens from patients > 75 years (23 males and 13 females) were stained and compared. Positive p53 staining was seen in 18/36 of the < 35-year group versus 24/36 of the > 75-year group (p = 0.149). Increased p21 staining (both percent of positive cells and intensity) was evident in 25/32 of the < 35-year group versus 24/32 of the > 75-year group (p = 1.0). Increased p21 expression was seen in both p53-positive and -negative cases in both age groups. Rb protein was increased in 16/29 of the < 35-year group versus 17/26 of the > 75-year group (p = 0.58). Fourteen cases (4/35 vs 10/36, p = 0.135) showed positive MDM2 staining; MDM2-positive cases were also p53 positive in 4/4 younger and 8/10 older patients. We conclude that p53, p21, Rb, and MDM2 are over-expressed in lateral tongue cancers, and that immunohistochemical profiles are heterogeneous. A p53-independent pathway of p21 induction is supported by the results; p53 suppression may be associated with MDM2 protein expression in a subset of cancers. Significant differences in the expression of p53, p21, Rb, and MDM2 proteins are not evident in lateral tongue carcinomas from patients < 35 years as compared to patients > 75 years.
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PMID:p53, p21, Rb, and MDM2 proteins in tongue carcinoma from patients < 35 versus > 75 years. 1064 2

The INK4a-ARF locus encodes 2 separate proteins through differential splicing of alternative first exons to produce p16INK4a (exon 1alpha) and p14ARF (exon 1beta) products in human cells. The p16INK4a protein inhibits the cyclin D-dependent kinases (CDK) that control the phosphorylation of the Rb protein and cell proliferation. The p14ARF gene product can complex with and sequester the MDM2 protein within the nucleus, thus modulating the activity of the p53 protein. Loss of p16INK4a expression would disrupt the retinoblastoma (Rb)/p16INK4a/cyclin D-dependent kinase (CDK4) pathway, whereas loss of p14ARF expression would inactivate both the Rb and p53/ MDM2/p14ARF pathways through MDM2, which can complex with either Rb or p53. Loss of the p16INK4a gene on 9p21 has been documented in a wide range of human tumors, including one third of glioblastomas. However, in tumors showing homozygous loss of exon 2 of the p16INK4a gene, loss of exon 1beta of the p14ARF gene has not been established. In this study, we have assessed deletion of the p14ARF gene in 29 pediatric and 107 adult high-grade astrocytomas and 9 glioma cell lines, using multiplex PCR analysis for exon 1beta. We found homozygous deletions for exon 1alpha and exon 1beta in 3 of 29 (10%) of the pediatric cases (2 grade III, 1 grade IV), 25 of 107 (23%) of the adult cases (6 grade III and 19 grade IV), and 8 of 9 (89%) of the glioma cell lines. Therefore, loss of the INK4a-ARF locus in high-grade astrocytomas may contribute to the highly malignant behavior and treatment resistance of these tumors through elimination of multiple checkpoint cell cycle control proteins.
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PMID:Incidence of p14ARF gene deletion in high-grade adult and pediatric astrocytomas. 1066 22

MDM2 is an oncogene that mainly functions to modulate p53 tumor suppressor activity. In normal cells the MDM2 protein binds to the p53 protein and maintains p53 at low levels by increasing its susceptibility to proteolysis by the 26S proteosome. Immediately after the application of cellular stress, the ability of MDM2 to bind to p53 is blocked or altered in a fashion that prevents MDM2-mediated degradation. As a result, p53 levels rise, causing cell cycle arrest or apoptosis. In this review, we present evidence for the existence of three highly conserved regions (CRs) shared by MDM2 proteins and MDMX proteins of different species. These highly conserved regions encompass residues 42-94 (CR1), 301-329 (CR2), and 444-483 (CR3) on human MDM2. These three domains are respectively important for binding p53, for binding the retinoblastoma protein, and for transferring ubiquitin to p53. This review discusses the major milestones uncovered in MDM2 research during the past 12 years and potential uses of this knowledge in the fight against cancer.
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PMID:MDM2--master regulator of the p53 tumor suppressor protein. 1072 93

More than one third of human soft tissue sarcoma (STS) have elevated levels of the MDM2 oncoprotein, resulting either from gene amplification or alternate mechanisms. MDM2 functions as a negative feedback regulator of the tumor suppressor p53. The aim of the present study was to investigate whether mdm2-antisense oligodeoxyribonucleotides (AS-ODNs) can influence the growth characteristics of two MDM2-overexpressing STS cell lines (US8-93, LMS6-93) where both have heterozygous p53 non-missense mutations. Cells were treated with lipofectamine-complexed mdm2 AS-ODNs complementary to a sequence of the mdm2 cDNA initiation site in comparison to sense control ODNs. After seeding and cultivation of a defined cell number the clonogenic survival was performed. The treatment of US8-93 cells with AS-ODNs, but not with sense ODNs, decreased the number of colonies up to > 80%. Western blot analysis demonstrated a significant decreasing of MDM2 protein level in AS-ODN transfected cells indicating an AS-specific inhibition of mdm2 transcription in US8-93 cells. Additionally, an increase of the G2/M population was found. In contrast, in the LMS6-93 cells treated with AS-ODNs only a decrease in clonogenic survival up to 26%, no change in MDM2 protein level and no cell cycle alterations were seen. All these factors taken together into consideration can be suggest that lipid-mediated mdm2 AS-ODNs could be as an effective therapeutic strategy for STS with an abnormal mdm2 overexpression.
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PMID:Colony formation of soft tissue sarcoma cells is inhibited by lipid-mediated antisense oligodeoxynucleotides targeting the human mdm2 oncogene. 1073 22

The MDM2 oncogene was first cloned as an amplified gene on a murine double-minute chromosome in the 3T3DM cell line, a spontaneously transformed derivative of BALB/c 3T3 cells. The MDM2 oncogene has now been shown to be amplified or overexpressed in many human cancers. It also has been suggested that MDM2 levels are associated with poor prognosis of several human cancers. The most exciting finding is the MDM2-p53 autoregulatory feedback loop that regulates the function of the p53 tumor suppressor gene. The MDM2 gene is a target for direct transcriptional activation by p53, and the MDM2 protein is a negative regulator of p53. The MDM2 oncoprotein binds to the p53 protein, inhibiting p53 functions as a transcription factor and inducing p53 degradation. The p53 tumor suppressor has an important role in cancer therapy, with p53-mediated cell growth arrest and/or apoptosis being major mechanisms of action for many clinically used cancer chemotherapeutic agents and radiation therapy. Therefore, the MDM2-p53 interaction may be a target for cancer therapy. In addition, the negative regulation of p53 by MDM2 may limit the magnitude of p53 activation by DNA damaging agents, thereby limiting their therapeutic effectiveness. If the MDM2 feed-back inhibition of p53 is interrupted, a significant increase in functional p53 levels will increase p53-mediated therapeutic effectiveness. Several approaches have now been tested using this strategy, including polypeptides targeted to MDM2-p53 binding domain and antisense oligonucleotides that specifically inhibit MDM2 expression. In addition to the interaction with p53, the MDM2 protein has been found to have interactions with other cellular proteins such as pRb and E2F-1. Although the exact function and significance of these interactions are not fully understood, the p53-independent functions of MDM2 may have a role in cancer etiology and progression, indicating that the MDM2 oncogene is a potential molecular target for cancer therapy.
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PMID:MDM2 oncogene as a novel target for human cancer therapy. 1078 89

The MDM2 protein targets the p53 tumor suppressor for ubiquitin-dependent degradation [1], and can function both as an E3 ubiquitin ligase [2] and as a regulator of the subcellular localization of p53 [3]. Oncogene activation stabilizes p53 through expression of the ARF protein (p14(ARF) in humans, p19(ARF) in the mouse) [4], and loss of ARF allows tumor development without loss of wild-type p53 [5] [6]. ARF binds directly to MDM2, and prevents MDM2 from targeting p53 for degradation [6] [7] [8] [9] by inhibiting the E3 ligase activity of MDM2 [2] and preventing nuclear export of MDM2 and p53 [10] [11]. Interaction between ARF and MDM2 results in the localization of both proteins to the nucleolus [12] [13] [14] through nucleolar localization signals (NoLS) in ARF and MDM2 [11] [12] [13] [14]. Here, we report a new NoLS within the highly conserved amino-terminal 22 amino acids of p14(ARF), a region that we found could interact with MDM2, relocalize MDM2 to the nucleolus and inhibit the ability of MDM2 to degrade p53. In contrast, the carboxy-terminal fragment of p14(ARF), which contains the previously described NoLS [11], did not drive nucleolar localization of MDM2, although this region could bind MDM2 and weakly inhibit its ability to degrade p53. Our results support the importance of nucleolar sequestration for the efficient inactivation of MDM2. The inhibition of MDM2 by a small peptide from the amino terminus of p14(ARF) might be exploited to restore p53 function in tumors.
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PMID:Contribution of two independent MDM2-binding domains in p14(ARF) to p53 stabilization. 1080 44


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