Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0242379 (lung cancer)
71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Mutations in the p53 tumor suppressor gene and the K-ras proto-oncogene are common genetic defects in lung cancer. Analysis of the patterns of damage in these genes may provide important insights into the mechanisms by which environmental mutagens initiate cancer. Previously, our laboratory found that a rare p53 codon 249 mutation (AGG(ARG) to ATG(MET) transversion) was present in 31% of a series of 52 large and squamous cell lung cancers from uranium miners, suggesting that this mutation might be a marker for radon exposure. In the current study, we analyzed 23 lung adenocarcinomas from the same cohort of highly exposed uranium miners. These tumors failed to show the codon 249 transversion, but 9 (39%) of 23 contained 1 or more mutations within hotspots in the K-ras gene. The results suggest that there is a histological tissue-type specificity for the codon 249 mutation; although this mutation was common in squamous and large cell tumors from very highly exposed uranium miners, it is rare in adenocarcinomas from the same cohort of miners.
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PMID:p53 and K-ras in radon-associated lung adenocarcinoma. 867 98

We investigated expression of Bcl-2, mutations in p53, and K-ras oncogene in 51 resected human non-small cell lung cancers. The studies were designed to test for the possibility of cooperativity between these oncogenes and p53 in the pathogenesis of lung cancer. An inverse relationship was found between expression of Bcl-2 and mutant p53 by immunohistochemistry (P < 0.01; Fisher exact test), suggesting that either Bcl-2 overexpression or mutations in p53 may fulfill a critical function in the pathogenesis of human non-small cell lung cancers. Tumors that harbored K-ras codon 12 mutations seldom had p53 mutations or overexpressed Bcl-2. Statistical analysis of these data showed that mutations in p53 and K-ras or overexpression of Bcl-2 and mutations in K-ras occurred at a frequency that could be explained only by chance [P > 0.1 in each case (Fisher exact tests)]. This suggests that cooperativity between mutant K-ras and mutant p53 or mutant K-ras and overexpressed Bcl-2 is not a common mechanism in the pathogenesis of human non-small cell lung cancers.
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PMID:Overexpression of Bcl-2 and mutations in p53 and K-ras in resected human non-small cell lung cancers. 867 21

Recent advances in molecular biology have revealed various genetic lesions in lung cancer. Mutations of the K-ras gene, amplification or overexpression of myc family genes, erbB2 gene, or bcl2 gene are frequent genetic changes of oncogenes in lung cancer. Inactivation of tumor suppressor genes such as Rb gene, p53 gene, or p16 gene are also seen rather frequently. Furthermore, loss of heterozygosity at certain chromosomal arms such as 3p, 5q, 18q and 22q suggesting inactivation of yet unidentified tumor suppressor genes, also occurs in a significant proportion of lung cancers. Most of these genetic lesions have been reported to be associated with a poor prognostic outcome of the patients. However, great controversy exists as to whether a certain genetic lesion is really a prognostic marker. For example, although about 20 studies have been published, the prognostic implications of the p53 gene for patients with lung cancer still remain unclear. Little is known about the mechanism through which a certain genetic change affects the patient's prognosis. To ultimately improve the prognosis of patients with this deadly disease, definitive studies on which subsequent clinical trials can rely are much awaited.
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PMID:[Genetic abnormalities in lung cancer and their prognostic implications]. 868 34

We analyzed the presence or absence of K-ras mutations in sputum samples with atypical cells by colony hybridization. The frequency of K-ras mutations in 104 patients with adenocarcinoma of the lung was also examined using dot blotting. No mutations in K-ras codon 12 were detected in the 12 sputum samples examined, which included three specimens from patients who later developed lung adenocarcinoma. Because of the paucity of sputum samples, it was difficult to conclude whether K-ras gene mutations are useful for molecular screening for lung cancer at the present time. Secondly, we detected 12 cases [12%; 10 males (19%) and two females (4%)] with a K-ras mutation among 104 patients with lung adenocarcinoma. Although the smoking rate of patients (89%) was higher than the general Japanese male population (approximately 60%), indicating that smoking may be related to the occurrence of adenocarcinoma of the lung, it was unclear whether smoking was related to K-ras mutation from our results. Other factors may contribute to K-ras mutation.
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PMID:K-ras gene mutation in sputum samples containing atypical cells and adenocarcinoma cells in the lung. 876 26

In addition to being a potent hepatocarcinogen, aflatoxin B1 (AFB1) is a pulmonary carcinogen in experimental animals and epidemiological studies have shown an association between AFB1 exposure and lung cancer in humans. Since point mutations at codons 12, 13 and 61 of the K-ras protooncogene are often implicated in chemically induced mouse lung tumors and in human lung adenocarcinomas, we undertook an investigation of the role of K-ras activation in AFB1-induced pulmonary carcinogenesis. Female AC3F1 (A/J x C3H/HeJ) mice were treated with AFB1 (150 mg/kg i.p., divided into 24 doses over 8 weeks), and 6-14 months after the completion of dosing mice were killed and pulmonary adenomas and carcinomas removed. Of the 76 AFB1-induced lung tumors analyzed by single strand conformation polymorphism (SSCP) and direct sequencing, 75 possessed K-ras codon 12 mutations (46 GTT, 14 GAT, 13 TGT and 2 TTT; normal, GGT) and one had a GGC-->CGC mutation in codon 13. The observation that K-ras mutations occurred only at G:C base pairs is in agreement with N7-guanine being the primary site of AFB1-DNA adduct formation and with guanine residues being targets for AFB1-induced oxidative DNA damage via formation of 8-hydroxydeoxyguanosine (8-OHdG). The AFB1-specific nature of the observed K-ras mutation spectrum and the fact that 100% of the tumor samples examined contained K-ras mutations is consistent with K-ras activation being an early, critical event in AFB1-induced pulmonary carcinogenesis in AC3F1 mice. The parental origin of the observed K-ras mutations was determined by allele-specific PCR amplification of AFB1-induced lung tumor DNA followed by SSCP analysis. In the vast majority of tumors (73/76), the mutated K-ras allele was derived from the lung tumor susceptible A/J parent. This finding supports the existence of a link between K-ras and differences in mouse lung tumor susceptibility.
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PMID:Activation of K-ras in aflatoxin B1-induced lung tumors from AC3F1 (A/J x C3H/HeJ) mice. 876 34

By using a modified polymerase chain reaction (PCR) and restriction fragment length polymorphism (RFLP) technique, we detected K-ras codon 12 mutation in 102 formalin-fixed, paraffin-embedded tissues from surgical samples of lung cancer patients. The X2 test was used to determine the statistical significance of difference, according to the presence or absence of mutation in codon 12 of K-ras oncogene. We found 25 cases (24%) positive for mutation of K-ras 12 codon. Mutation occurred in 6 of the 40 cases (15%) of squamous cell carcinoma, 18 of 37 adenocarcinoma cases (49%), 1 of 2 adenosquamous cases, 0 of 1 carcinoid patient, but no K-ras activation was found in small cell carcinoma (0/22) cases. Analysis of the clinical and pathological features of 37 adenocarcinoma cases showed no apparent associations between the K-ras codon 12 mutation and sex, disease stage, tumor size (T), metastatic status (M) and the degree of differentiation (all P values greater than 0.05), but the nodes (N) of K-ras-positive adenocarcinoma tended to be more than the K-ras-negative ones (P < 0.01). From 26 male cases of adenocarcinoma mutation in codon 12 of K-ras occur more frequently in adenocarcinoma from smokers than non-smokers (P < 0.05), suggesting that smoking is an important factor in the induction of the mutation. Among 37 adenocarcinoma cases, only 25 cases can be traced the recurrence rate in 1-year. The 1-year recurrence rates were 85% (11/13) in K-ras mutational patients, more than 25% (3/12) in K-ras negative ones (P < 0.01), whereas there was no relationship between recurrence and differentiation in these 25 cases. The findings suggest the K-ras gene mutation may be one of the prognostic markers for human lung adenocarcinoma.
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PMID:[Detection of K-ras oncogene activation in human lung cancer and its possible clinical application]. 876 79

To evaluate a rapid multiplexed assay to detect three common K-ras codon 12 mutations, primer pairs complementary to the wild-type and mutant loci were developed and tested with lung cancer cell lines with previously identified mutation status. The sensitivity of detection of mutations was determined to be at least 1% using spiked samples containing K-ras codon 12 mutations. This assay was then used to evaluate prospectively K-ras status in airways of individuals at high risk of lung cancer by analysis of bronchoalveolar lavage (BAL) specimens from patients who have been previously treated for lung cancer. DNA was extracted from BAL specimen cell pellets, and PCR-based ligase chain reaction was performed for mutations in the first position of codon 12 of K-ras, with positive and negative controls. Of 10 BAL samples, 4 contained 1 mutation (GGT --> TGT), 1 contained 2 mutations (GGT --> TGT and GGT --> AGT), and the rest were wild-type. The BAL mutations were validated by cloning and screening with mutant-specific probes followed by confirmation sequencing.
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PMID:Detection of K-ras oncogene mutations by polymerase chain reaction-based ligase chain reaction. 881 98

To evaluate the possible use of mutant ras as a biomarker for lung cancer, we have analyzed "normal appearing" lung tissue, lung tumor, lung metastases and sputum samples from patients with non-small cell lung cancer (NSCLC). As a control, we used lung tissue and sputum samples from patients without oncological diseases or lung disorders. Our analyses were performed with the aid of enriched PCR (EPCR), a method which enables detection of ras mutation even if present at low incidence. EPCR identified K-ras codon 12 mutations in 10% of lung tissues obtained from patients with no lung diseases, whereas the same mutation was detected in 60% of samples of normal appearing lung tissues obtained from patients with NSCLC, 62% of NSCLC tumors and 80% of metastases. Analysis of sputum samples of patients with NSCLC identified 47% to harbor mutant ras allele, whereas 12.5% of controls diagnosed with non-oncological lung diseases carried this mutation. Most of these mutations were detected with the aid of EPCR only, indicating that a minority of cells in a given sample harbor this mutation. The ability to detect K-ras codon 12 mutation in 60% of lung tissue samples and in 47% of sputum samples taken from patients with lung cancer (as compared with 10% and 12.5% of respective controls) points to the potential use of ras mutation as a biomarker for exposure and possible identification of patients who may be at higher risk of developing lung cancer.
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PMID:High frequency of K-ras mutations in normal appearing lung tissues and sputum of patients with lung cancer. 884 39

Pleomorphic carcinoma (PC) of lung is a poorly differentiated epithelial neoplasm predominantly composed of pleomorphic giant and/or spindle tumor cells. The WHO classification of lung cancer recognizes spindle cell carcinoma and giant cell carcinoma as separate neoplasms related to squamous cell carcinoma (SqC) and large cell carcinomas, respectively. Further, the presence of foci of SqC or adenocarcinoma (AdC) in, respectively, 10% and 45% of PC produces additional uncertainty as to the distinctive nature of this tumor type. In this study, the authors tested the hypothesis that PC is an entity separate from SqC or AdC by evaluating the mutational spectrum seen in these tumor types. This is performed by documenting and comparing mutation type and rate of K-ras-2 and p53 genes in PC, SqC, and AdC. Comparative DNA sequence and immunohistochemical analysis were performed on 22 PC, 42 SqC, and 97 AdC. Archival formalin-fixed, paraffin-embedded tissues formed the basis of the study. Immunohistochemical staining with p53 antibody (DO-7) revealed statistically significant differences in the intensity and frequency of staining of PC (weak, 86% of cases) versus SqC (strong, 52% of cases) and AdC (strong, 27% of cases) (P < .001). Topographic genotyping with subsequent polymerase chain reaction (PCR) and sequence analysis of K-ras-2 showed mutations in significantly fewer cases of PC (9%, 2 of 22 cases) than in AdC (36%, 35 of 97 cases) or SqC (0%, 0 of 42 cases) (P < .001). Pleomorphic carcinoma also showed significantly fewer p53 point mutations (14%, 3 of 22 cases) than did AdC (27%, 26 of 97 cases) of SqC (43%, 18 of 42 cases) (P < .01). Finally, the p53 mutations in PC were more common in exon 7, whereas those in SqC and AdC were more frequent in exon 8. These findings reveal significant differences in the pattern and frequency of genetic mutations between PC and pulmonary SqC and AdC and are in keeping with the separate histopathologic classification of these tumors.
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PMID:Pleomorphic (giant and spindle cell) carcinoma is genetically distinct from adenocarcinoma and squamous cell carcinoma by K-ras-2 and p53 analysis. 885 37

An adenoviral vector carrying a 2-Kb fragment of the K-ras proto-oncogene inserted in antisense orientation with respect to the cytomegalovirus promoter was constructed and used to infect H460a lung cancer cells (codon 61 K-ras mutation). The gene was efficiently transferred, and a high level of expression of antisense K-ras was achieved. At a multiplicity of infection to achieve 65% transduction of cells, the expression of K-ras protein was reduced by 70% in the lung cancer cell line H460a as compared with cells infected with control vectors or noninfected cells. This reduction produced a 47% inhibition of monolayer growth and a 90% inhibition of colony formation. At a similar level of transduction in the cell line H358 (codon 12 K-ras mutation), a 59% inhibition of monolayer growth compared with control vectors occurred; however the inhibition of H322 cells (wild-type k-ras) growth was no different than control vector infected cells. These data suggest that the adenoviral K-ras H322a antisense vector may have therapeutic potential in tumors in which K-ras is mutated.
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PMID:Growth inhibitory effect of anti-K-ras adenovirus on lung cancer cells. 889 48


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