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)

Increasing evidence that non-small cell lung cancer is a systemic disease from the outset confirms the rationale for adjuvant chemotherapy. However, clinical trial evidence of benefit is still awaited. The position is clearer in the case of neoadjuvant therapy because long-term follow up of two trials now shows that patients randomized to chemotherapy before surgery were significantly more likely to survive to 5 years than patients treated with surgery alone. Early data suggest that neoadjuvant chemotherapy based on docetaxel (Taxotere; Aventis, Antony, France) (possibly used sequentially with other agents) may be as effective as older regimens and better tolerated. Because p53 status influences the expression of microtubule-associated proteins and hence the sensitivity of a tumor to taxanes, it is possible that molecular markers could be used to customize chemotherapy to individual patients. Generally, it is becoming clearer that molecular staging is a more sensitive means of demonstrating tumor dissemination than light microscopy. The Cancer and Leukemia Group B is undertaking a prospective study using reverse transcriptase-polymerase chain reaction to detect MUC-1 RNA in bone marrow and hilar and mediastinal lymph nodes removed at resection with the aim of distinguishing between stage I patients likely to remain disease-free for long periods and those at high risk of relapse. A study of small cell lung cancer is using automated fluorescence microscopy to detect keratin-positive cells in the marrow and blood of patients who have a complete response to initial therapy but are nevertheless at high overall risk of relapse. The identification of genetic lesions in a high proportion of patients with non-small cell lung cancer may guide the development of new therapies aimed at increasing rates of apoptosis among tumor cells.
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PMID:Advances in the treatment of non-small cell lung cancer: molecular markers take the stage. 1128 22

The etiology of small cell lung cancer (SCLC) is strongly tied to cigarette smoking, and now there is considerable information concerning molecular abnormalities involved in the pathogenesis of SCLC. Autocrine growth factors such as neuroendocrine regulatory peptides (eg, bombesin/gastrin-releasing peptide) are prominent in SCLC. Dominant oncogenes of the Myc family are frequently overexpressed in both SCLC and non-small cell lung cancer (NSCLC), while the K-RAS oncogene is never mutated in SCLC but it is in 30% of NSCLCs. The most frequent genetic abnormalities involve tumor suppressor genes (TSGs). The TSG p53 is mutated in more than 90% of SCLCs and more than 50% of NSCLCs; the retinoblastoma TSG is inactivated in over 90% of SCLC but only 15% of NSCLCs, and p16, the other component of the retinoblastoma/p16 pathway, is almost never abnormal in SCLC but is inactivated in more than 50% of NSCLCs. The FHIT TSG is inactivated in 50% to 70% of all lung cancers. Recently, we completed a genome-wide allelotyping study using approximately 400 polymorphic markers distributed at around 10 cM resolution across the human genome comparing SCLCs and NSCLCs, looking for all possible TSG sites by loss of heterozygosity. We found that, on average, 17 loci showed loss of heterozygosity in individual SCLCs and 22 for NSCLC, with an average size of loss of 50 to 60 cM, and an average frequency of microsatellite abnormalities of five per tumor. There were 22 different "hot spots" for loss of heterozygosity, 13 with a preference for SCLC, seven for NSCLC, and two affecting both. This provides clear evidence on a genome-wide scale that SCLC and NSCLC differ significantly in the TSGs that are inactivated during their pathogenesis. Acquired hypermethylation of the promoter region of key genes has become one of the most common mechanisms that tumors use to inactivate the function of tumor suppressor and other genes. We recently completed a study of tumor-acquired promoter hypermethylation for nine genes (p16, DAPK, MGMT, GSTP1, RAR beta, FHIT, ECAD, p14ARF, and TIMP1). We found differences in the frequency of RAR beta methylation (70% for SCLC and 40% for NSCLCs). Finally, we looked at the bronchial epithelium accompanying SCLC and NSCLC for the occurrence of clonal alterations using precise laser capture microdissection with subsequent allelotyping for polymorphic markers. In NSCLC, we frequently find clones of cells with molecular abnormalities in histologically affected epithelium (eg, carcinoma in situ, dysplasia, hyperplasia) and occasionally in normal-appearing epithelium in the cases of current or former smokers. In SCLC these histologic preneoplastic changes were minimal. However, in studies of histologically normal respiratory epithelium, we found a several-fold increased rate of allele loss in SCLC compared with NSCLC patients. Thus, the smoking-damaged histologically normal epithelium associated with SCLC appeared genetically scrambled and has incurred significantly more damage than the epithelium accompanying NSCLCs. We conclude that SCLC and NSCLCs do not differ significantly in the number of genetic alterations that occur. However, SCLCs do differ significantly from NSCLCs in the specific genetic alterations that occur. In addition, smoking-damaged bronchial epithelium accompanying SCLCs appears to have undergone significantly more acquired genetic damage than that accompanying NSCLCs. Future studies need to identify the specific genes involved at these multiple sites and determine if these provide new tools for early molecular detection and monitoring of chemoprevention efforts, and serve as specific targets for developing new therapies. Semin Oncol 28 (suppl 4):3-13.
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PMID:Molecular genetics of small cell lung carcinoma. 1147 91

The role of p53, as a prognostic factor for survival in lung cancer, is controversial and the purpose of the present systematic review of the literature is to determine this effect. Published studies were identified with the objective to aggregate the available survival results after a methodological assessment using a scale specifically designed by the European Lung Cancer Working Party (ELCWP). To be eligible, a study had to deal with p53 assessment in lung cancer (primary site) only, and to provide a survival comparison according to the p53 status. Among the 74 eligible papers, 30 identified p53 abnormalities as a univariate statistically significant poor prognostic factor and 56 provided sufficient data to allow survival results aggregation. There was no significant difference between the trials that either showed or did not show a prognostic effect of p53 according to the methodological score or to the laboratory technique used. The studies were categorized by histology, disease stage, treatment and laboratory technique. Combined hazard ratios suggested that an abnormal p53 status had an unfavourable impact on survival: in any stage nonsmall cell lung cancer (NSCLC) the mean (95% confidence interval) was 1.44 (1.20-1.72) (number of studies included in the subgroup was 11), 1.50 (1.32-1.70) in stages I-II NSCLC (n=19), 1.68 (1.23-2.29) in stages I-IIIB NSCLC (n=5), 1.68 (1.30-2.18) in stages III-IV NSCLC (n=9), 1.48 (1.29-1.70) in surgically resected NSCLC (n=20), 1.37 (1.02-1.85) in squamous cell carcinoma (n=9), 2.24 (1.70-2.95) in adenocarcinoma (n=9), 1.57 (1.28-1.91) for a positive immunohistochemistry with antibody 1801 (n=8), 1.25 (1.09-1.43) for a positive immunohistochemistry with antibody DO-7 (n=16), and 1.65 (1.35-2.00) for an abnormal molecular biology test (n=13). Data were insufficient to determine the prognostic value of p53 in small cell lung cancer. In each subgroup of nonsmall cell lung cancer, p53 abnormal status was shown to be associated with a poorer survival prognosis.
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PMID:Role of p53 as a prognostic factor for survival in lung cancer: a systematic review of the literature with a meta-analysis. 1171 63

K562 leukaemic cells are known to be less sensitive to etoposide than other cell lines, despite having similar topo II mRNA levels and cleavable complex formation. We have investigated the effect of etoposide schedule on cell cycle distribution, apoptosis and p21(waf1) and cdk1(p34) status in two bcr-abl-positive chronic myeloid leukaemia (CML) cell lines (K562 and KU812) and two small cell lung cancer (SCLC) cell lines (H69 and GLC4). During a continuous 5-day exposure, the SCLC cell lines showed a time and concentration-dependent loss of cell viability, with an initial block in the G2/M phase of the cell cycle followed by apoptosis. In contrast, the two CML cell lines showed no significant apoptosis or loss of viability after a similar block in G2/M. However, when K562 or KU812 cells were placed in drug-free medium following a 3-day drug exposure there was marked, concentration-dependent apoptosis (% apoptosis after release at 1 microM etoposide in K562, 10% at 24 h, 30% at 48 h). Our data also show that p21(waf1) does not increase after etoposide treatment in either H69 or GLC4 (both with mutated-p53). Although K562 and KU812 cells are null-p53, the arrest in G2/M during drug exposure was associated with increased p21(waf1) and a decrease in cdk1 (both P<0.001 compared with controls). Upon release of these cells from drug-medium, p21(waf1) gradually returned to control levels, which was associated with an easing of the block at G2/M and an induction of apoptosis. This study highlights the importance of cell cycle regulatory proteins in drug sensitivity and resistance, and suggests that in cells such as K562 and KU812, a pulsed schedule may be more active than a single prolonged exposure.
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PMID:The importance of drug scheduling and recovery phases in determining drug activity. Improving etoposide efficacy in BCR-ABL-positive CML cells. 1193 20

We examined the p53 status of 108 NSCLCs compared to the expression of MLH1 and MSH2 proteins. p53 overexpression was demonstrated by IHC in 64% of patients examined, whereas p53 mutations were detected in 43%. Twenty-two percent of mutations were located outside of the hot-spot (exons 5-8) area. p53 mutations and overexpression were more frequent in SCCL (57% and 73%, respectively) than in lung adenocarcinomas (22% and 50%, respectively). In NSCLC-carrying wild-type p53, increased expression of MSH2 correlated with p53 overexpression (p = 0.018). In addition, in SCCL, p53 mutations correlated with reduced MSH2 expression (p = 0.019). These data suggest a relationship between p53 and MSH2. While there is evidence for p53 being a transcriptional activator of MSH2, the hypothesis that MSH2 acts as a DNA-damage signaller triggering p53 overexpression needs to be clarified in future studies.
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PMID:p53 status correlates with the differential expression of the DNA mismatch repair protein MSH2 in non-small cell lung carcinoma. 1220 75

The process of bronchial carcinogenesis is characterized by accumulated genetic abnormalities which ultimately lead to malignant transformation of bronchial epithelial cells, followed by invasion and metastasis. One of the most common and consistent of these genetic lesions is inactivation of the p53 tumor suppressor gene by mutation or deletion. The frequency of p53 alterations in lung cancer is highest in those subtypes of bronchial carcinomas that are most consistently associated with smoking, especially SCLC and squamous cell carcinomas. The frequency is lower in adenocarcinomas, in which the association with smoking, although present, is not as strong. The frequency of p53 abnormalities is higher in patients with greater cumulative tobacco exposure. Tobacco-specific carcinogens, in particular BPDE, cause a unique spectrum of p53 mutations, quite distinct from those found in cancers that are not associated with smoking. This characteristic genetic "signature" may persist even decades following smoking cessation. The prognostic significance of p53 mutations in lung cancer is not entirely clear despite the multitude of clinical studies that have been carried out. Nevertheless, the majority of clinical studies suggest that lung cancers with p53 alterations carry a worse prognosis. Furthermore, those tumors with mutant p53 may be relatively more resistant to chemotherapy and radiation. An understanding of the role of p53 in human lung cancer may lead to more rational targeted approaches for treating this disease. For example, the observation that the introduction of wild-type p53 into lung cancer cells with mutant or deleted p53 may reverse the malignant phenotype despite the presence of multiple other genetic abnormalities (14) suggests that replacement of this gene may be an effective clinical strategy. Preclinical and early clinical studies indicate that this is a promising approach, but clearly more effective means of gene delivery to the tumor cells are required (127-129), as discussed elsewhere in this volume.
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PMID:Clinical implications of p53 mutations in lung cancer. 1240 35

We recently reported that 14-3-3sigma is frequently inactivated in small cell lung cancer (SCLC) and a part of large cell carcinomas. Subsequent studies revealed that the large cell carcinomas could be morphologically categorized as large cell neuroendocrine carcinomas (LCNEC). The present study therefore examines 14-3-3sigma expression in a spectrum of neuroendocrine lung tumors, which had varied p53 status, proliferative activity and clinical aggressiveness. The expression of 14-3-3sigma was decreased in all four categories of the spectrum, (5 out of 5 typical carcinoids, 2 out of 2 atypical carcinoids, 5 out of 7 LCNECs and 15 out of 18 SCLCs). In sharp contrast, the level of 14-3-3sigma expression in 75 non-small cell lung cancers (NSCLCs) was the same as that in normal lung tissue, with only one exception. The expression status of neuroendocrine tumors and NSCLCs was not affected by p53 status, but dense promoter hypermethylation of the 14-3-3sigma gene was specifically observed in neuroendocrine tumors, suggesting that methylation plays a regulatory role in 14-3-3sigma expression in vivo as well as in vitro. Furthermore, the expression was not only down-regulated in pulmonary neuroendocrine tumors, but also in neuroendocrine tumors arising from various other organs, through examination of 123 non-pulmonary tumors. Since various carcinogenic machineries are involved in the neuroendocrine tumors, a reduced expression of 14-3-3sigma might be required for the development of neuroendocrine tumors. Constitutive 14-3-3sigma expression was distributed exclusively in putative stem cells of the normal lung, namely the basal cells of the bronchus, and type II pneumocytes. Notably, 14-3-3sigma expression was up-regulated during the regeneration of type II pneumocytes, suggesting that 14-3-3sigma plays a biological role when a regenerative and/or differentiating drive is activated, facilitating exit from stem cells.
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PMID:Decreased expression of 14-3-3sigma in neuroendocrine tumors is independent of origin and malignant potential. 1244 94

17p13.3 is one of the chromosomal regions most frequently affected by allelic loss in a variety of human neoplasms including lung cancer. A number of loss of heterozygosity (LOH) analyses have suggested the existence of a tumor suppressor gene at 17p13.3, distal to the p53 locus at 17p13.1. In the present study, we characterized a homozygous deletion at 17p13.3 in a small cell lung cancer cell line by constructing a bacterial artificial chromosome (BAC) contig and a restriction map surrounding the region, as well as by utilizing publicly available draft sequences. We defined the breakpoint, assigned and analysed two known genes, 14-3-3 epsilon and CRK, and a novel gene LOST1 within or at the end of the homozygous deletion of about 170 kb in size. Marked reduction of LOST1 expression was detected in 69% (11/16) of lung cancer specimens by quantitative real-time RT-PCR, while significant DNA hypermethylation was observed at the 5' end of the LOST1 gene in four of six lung cancer cell lines with negligible LOST1 expression. We also show here that a polymorphic marker D17S1174, which resides within the homozygous deletion, was apparently located in the middle of the minimum LOH region, providing further supportive evidence for the presence of a tumor suppressor gene(s) in this region.
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PMID:Detailed characterization of a homozygously deleted region corresponding to a candidate tumor suppressor locus at distal 17p13.3 in human lung cancer. 1266 Aug 25

Two human small cell lung cancer (SCLC) subpopulations, CPH 54A, and CPH 54B, established from the same patient tumor by in vitro cloning, were investigated. The tumor was classified as intermediate-type SCLC. The cellular sensitivity to ionizing radiation (IR) was previously determined in the two sublines both in vivo and in vitro. Here we measured the etoposide (VP16) sensitivity together with the induction and repair of VP16- and IR-induced DNA double-strand breaks (DSBs). The two subpopulations were found to differ significantly in sensitivity to VP16, with the radioresistant 54B subline also being VP16 resistant. In order to explain the VP16 resistant phenotype several mechanisms where considered. The p53 status, P-glycoprotein, MRP, topoisomerase IIalpha, and Mre11 protein levels, as well as growth kinetics, provided no explanations of the observed VP16 resistance. In contrast, a significant difference in repair of both VP16- and IR-induced DSBs, together with a difference in the levels of the DSB repair proteins DNA-dependent protein kinase (DNA-PK(cs)) and RAD51 was observed. The VP16- and radioresistant 54B subline exhibited a pronounced higher repair rate of DSBs and higher protein levels of both DNA-PK(cs) and RAD51 compared with the sensitive 54A subline. We suggest, that different DSB repair rates among tumor cell subpopulations of individual SCLC tumors may be a major determinant for the variation in clinical treatment effect observed in human SCLC tumors of identical histological subtype.
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PMID:DNA repair rate and etoposide (VP16) resistance of tumor cell subpopulations derived from a single human small cell lung cancer. 1271 Nov 16

The alteration of p53 and K-ras gene in 36 lung cancers of workers occupationally exposed to silica (LCWS) was studied. DNA was extracted from paraffin\|embedded tissues and amplified by PCR. PCR-SS-CP analysis on exons 5, 7 and 8 of p53 gene revealed that 43.8% of mutations were clustered in exon 8 of p53 gene. In ordinary lung cancer, the mutation rate of exon 8 was fluctuated around 20%. The prevalence of mutations was the highest (70%) in small cell lung cancer (SCLC) and the lowest in adenocarcinoma(33%). In our study the mutation rate was high in adenocarcinoma(53.9%) and low in SCLC (30.8%). The K-ras gene of LCWS also revealed a different mutation pattern. Unexpectedly, no mutation was found at codon 12 in 36 LCWS by PCR-RFLP, which is the predominant mutation in K-ras gene in ordinary lung cancer. The point mutation study by DNA sequencing confirmed the absence of codon 12 mutation in K-ras gene in LCWS. The mutations observed in this study were frequently distributed in codons 13 and 15, principally a G-C transversion, instead of G-T transversion in ordinary lung cancer.
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PMID:[Evidence on the carcinogenicity of silica at DNA level in human]. 1271 88


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