UMLS:C0242379 - FACTA Search

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

Primary lung cancer samples of the major histological types were examined for expression of the tumor suppressor gene p53 by immunohistochemistry. Abnormalities in p53 expression were found in 28 of 40 carcinomas, 14 of 17 squamous tumours showing abnormal p53 expression, whereas no expression of p53 was detectable in 7 carcinoid tumours or in 10 normal lung samples. Direct evidence for homozygous expression of mutant p53 mRNA in representative carcinomas was obtained by means of an asymmetric polymerase chain reaction mRNA sequencing strategy, which allowed sequencing without any cloning step. All the mutations were G to T transversions resulting in mis-sense mutations in aminoacids highly conserved in evolution. Mutation of the p53 gene is the most frequently identified genetic change in human lung cancer; these findings suggest that simple immunohistological methods can provide strong evidence of such mutation.
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PMID:Increased expression of mutant forms of p53 oncogene in primary lung cancer. 196 59

The p53 gene has been implicated as a tumor suppressor gene with mutations found in common human cancers. We examined 51 early stage, primary, resected non-small cell lung cancer specimens using an RNAase protection assay and cDNA sequencing. Mutations changing the p53 coding sequence were found in 23/51 (45%) tumor specimens, but not in the corresponding normal lung, were distributed between codons 132 to 283, and included tumors with and without 17p allele loss. Fifteen of the 23 mutations lay in the predicted binding regions for SV40 large T antigen, and 14 were located in regions highly conserved between species. G to T transversions were a common result of p53 mutations in lung cancer compared to other cancers suggesting exposure to different mutagens. In univariate and multivariate analysis the presence of p53 mutations was associated with younger age and squamous histology. However, the presence of p53 mutations was not significantly associated with tumor stage, nodal status or sex and was found in all histologic types of lung cancer. We conclude that somatic mutations in the p53 gene play an important role in the pathogenesis of early stage non-small cell lung cancer.
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PMID:Mutations in the p53 gene are frequent in primary, resected non-small cell lung cancer. Lung Cancer Study Group. 197 60

A tumour suppressor function for p53 is indicated in human lung cancer and in carcinoma of the colorectum. Loss of suppressor function, by mutation of the p53 gene, is associated with activation of p53 as an oncogene. The suppressor (wild type) and oncogenic (mutant) forms of the murine p53 protein are distinguishable at the molecular level by reactivity with anti-p53 monoclonal antibodies. For example, activated mutant p53 fails to react with PAb246 (p53-246 degrees). We now demonstrate that wild type p53 mRNA can be expressed either as p53-246+ or p53-246 degrees. We propose that p53-246 degrees may represent an allosteric variant of wild type p53 compatible with positive growth control. Thus, for wild type p53 the variants p53-246+ and p53-246 degrees may reflect suppressor and activator functions of p53 in the normal control of cell proliferation. For human p53 we present evidence that the epitope recognised by PAb1620 is analogous to that for PAb246 on murine p53. Thus the epitope for PAb1620 may prove to be of use as a marker for wild type human p53 with anti-oncogenic function.
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PMID:Evidence for allosteric variants of wild-type p53, a tumour suppressor protein. 213 77

The p53 gene initially was thought to be an oncogene, but recent evidence suggests that wild-type p53 can function as a tumor suppressor gene in lung, colon, and breast cancer as well as less common malignancies. This study reports the first identification of intronic point mutations as a mechanism for inactivation of the p53 tumor suppressor gene. Abnormally sized p53 mRNAs found in a small cell and a non-small cell lung cancer cell line were characterized by sequence analysis of cDNA/PCR products, the RNase protection assay and immunoprecipitation. These mRNAs were found to represent aberrant splicing leading to the production of abnormal or no p53 protein. Sequence analysis of genomic DNA revealed that a point mutation at the splice acceptor site in the third intron or the splice donor site in the seventh intron accounts for the abnormal mRNA splicing. In one patient the same intronic point mutation was found in the tumor cell line derived from a bone marrow metastasis and in multiple liver metastases but not in normal DNA, indicating that it occurred as a somatic event before the development of these metastases. These findings further support the role of inactivation of the p53 gene in the pathogenesis of lung cancer and indicate the role of intronic point mutation in this process.
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PMID:Identification of intronic point mutations as an alternative mechanism for p53 inactivation in lung cancer. 216 47

Recent studies have shown that lung cancer patients frequently suffer inactivation of antioncogenes such as Rb gene (13q14) and p53 gene (17p13). In a study of 48 cases of non-small cell lung cancer (28 squamous-cell carcinomas, 11 adenocarcinomas, 4 large-cell carcinomas, and 5 other types) using restriction fragment length polymorphism analysis, we found DNA sequence deletions from chromosomes 1p32-36, 3p21, 11p15.5, and 11q13. The frequencies of allele loss on chromosome 1p, 3p, 11p and 11q are 31, 57, 20 and 49% of informative cases in this patient group, respectively. Of them, 19 tumors show one allele loss and 10 patients suffer two or more allele losses from different chromosomes.
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PMID:[Allelic losses on chromosomes 1p, 3p, 11p, 11q in non small cell lung cancers]. 216 74

The development of human lung cancer may require multiple genetic deletions affecting a number of chromosomes, e.g., 1, 3, 11, 13, and 17. These genetic aberrations may induce the activation of proto-oncogenes (c-jun, ras, c-raf1) and the loss of tumor suppressor genes (p53). Some of the activated proto-oncogenes and tumor suppressor genes are more selectively expressed or absent in small-cell lung cancer (L-myc, c-myb, c-scr, Rb gene) or non-small-cell lung cancer (c-erbB-2, c-sis, c-fes). These genes may thus be of importance for selection of differentiation pathway. The c-myc oncogene is frequently amplified in small-cell lung cancer cell lines in a much higher frequency than in vivo. This indicates that c-myc seems to be related to tumor progression and a relatively late event in the lung cancer development. The uncontrolled production of multiple growth factors has been identified in human lung cancer cell lines. These factors can promote and inhibit the proliferation via paracrine and autocrine loops via specific receptors. The products from some of the activated proto-oncogenes (c-sis, c-erbB-2) are sequences homologous to a certain growth factor (PDGF) and a receptor (EGF) identified in lung cancer. The production and action of these growth factors may be of major importance for further activation of proto-oncogenes via intracellular signal transduction and specific oncogenic activation leading to further tumor progression.
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PMID:Gene amplification in human lung cancer. The myc family genes and other proto-oncogenes and growth factor genes. 217 59

Cytogenetic analysis was performed on 16 primary tumors, 2 effusions, and 3 cell lines from 21 patients with non-small cell lung cancer (NSCLC). In 20 patients specimens were obtained prior to initiating cytotoxic therapy. Extensive clonal chromosome alterations were found in all cases. The most frequent numerical changes were polysomy 7 and polysomy 20 (each seen in 12 specimens). In addition, tumor cells from another six cases exhibited partial trisomy 7, with the shortest region of overlap (SRO) at 7p11-p13. Rearrangements of chromosomes 1, 3, 6, 8, 11, 15, 17, and 19 were each observed in nine or more tumors. Breakpoints were clustered at several chromosomal sites, including 1p13, 3p13, 15p11-q11, 17p11, and 19q13. Recurrent loss involving 1p, 3p, 6q, 11p, 15p, 17p, and 19q were each seen in at least eight cases. The SRO of 3p losses was at band 3p21. Double minute chromosomes were found in three tumors. Overall, our findings indicate that even though karyotypes in newly diagnosed NSCLC are very complex, recurrent cytogenetic changes can be identified. The high incidence of loss of 17p (14 of 21 specimens) appears to be compatible with reports implicating the TP53 gene (at band 17p13) as a frequent site for genetic alteration in lung cancer. Moreover, the recurrence of loss of 3p (12 cases) and 11p (10 cases) is also consistent with recent molecular evidence. The existence of other "hot spots" for cytogenetic change, particularly those involving specific regions on chromosomes 7, 15, and 19, warrants further molecular investigation of these sites in NSCLC.
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PMID:Chromosome alterations in 21 non-small cell lung carcinomas. 217 44

Point mutations in genes can be etiologic of pulmonary diseases, as in the case of the inherited disorders alpha-1-antitrypsin deficiency and cystic fibrosis or in the context of dominant and recessive oncogenes in lung cancer. Various methodologies have been developed to screen for single-base mutations. These techniques include direct DNA sequencing, RNase protection, denaturing gradient gel electrophoresis, and chemical mismatch cleavage. The latter method offers the advantages of rapid and efficient analysis of genomic or cDNA and is thus ideally suited to screening applications. Furthermore, all possible single-base changes can theoretically be detected. In the present work, chemical mismatch cleavage was utilized to detect mutations in the p53 gene in small cell and non-small cell lung cancer. This technique was modified by using a two-step, hemi-nested PCR procedure for preparation of target genomic DNAs permitting an expanded target size for analysis. Evaluation by chemical mismatch cleavage of eight p53 cDNAs derived from lung tumors shown to have different mutations by DNA sequencing correctly detected the presence of a point mutation in all instances. Analysis of six additional tumor genomic DNAs with defined mutations in the corresponding p53 cDNAs accurately confirmed the mutation at the level of the genome. The technique also identified codon 72 and intron 6 polymorphisms. Using the intron 6 polymorphism, loss of heterozygosity at the p53 locus in tumor DNA was readily detected by chemical mismatch cleavage. Finally, utilizing this technique for scanning analysis of the p53 gene of uncharacterized lung tumor DNAs, additional mutations were identified in a prospective manner which were confirmed by sequence analysis.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A chemical mismatch cleavage method useful for the detection of point mutations in the p53 gene in lung cancer. 222 98

Allele loss is a hallmark of chromosome regions harboring recessive oncogenes. Lung cancer frequently demonstrates loss of heterozygosity on 17p. Recent evidence suggests that the p53 gene located on 17p13 has many features of such an antioncogene. The p53 gene was frequently mutated or inactivated in all types of human lung cancer. The genetic abnormalities of p53 include gross changes such as homozygous deletions and abnormally sized messenger RNAs along with a variety of point or small mutations, which map to the p53 open reading frame and change amino acid sequence in a region highly conserved between mouse and man. In addition, very low or absent expression of p53 messenger RNA in lung cancer cell lines compared to normal lung was seen. These findings, coupled with the previous demonstration of 17p allele loss in lung cancer, strongly implicate p53 as an anti-oncogene whose disruption is involved in the pathogenesis of human lung cancer.
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PMID:p53: a frequent target for genetic abnormalities in lung cancer. 255 94

Molecular and cell biologic studies of a large number of lung cancer cell lines of all histologic types have revealed several mechanisms active in the pathogenesis of these cells. Small cell lung cancer (also called "oat cell" lung cancer) has a deletion involving chromosome region 3p(14-23) that is confirmed by DNA restriction fragment length polymorphisms analysis (studies done in collaboration with Dr. Susan Naylor). Several lung cancers of both small cell and non-small cell type (including adeno- and squamous cell lung cancer) express the proto-oncogenes c-, N-, or L-myc, and in some cases more than one of these family members. N-myc appears restricted in its expression to the small cell lung cancer type while c-myc and L-myc can be expressed in both small cell and non-small cell lung cancers. Many lung cancers of all histologic types also express large amounts of p53, which are not correlated with the amount or type of myc gene product expressed. In small cell lung cancer, high levels of myc gene expression are usually associated with gene amplification, and not uncommonly there is rearrangement of some of the amplified copies. In non-small cell lung cancer, expression without amplification or rearrangement of myc genes is seen. In contrast, high level expression of p53 is not associated with gene amplification in any lung cancer type. In addition, to these proto-oncogenes acting at a presumed nuclear locus, there is increased expression of various ras family members and the c-raf-1 proto-oncogene (in collaboration with Dr. Ulf Rapp). Lung cancer cells in tissue culture can grow in medium without serum and few or no other growth factors added. Thus, it appears that lung cancer cells can produce their own growth factors which can act in an "autocrine" fashion. The best characterized example of this is gastrin releasing peptide (GRP, also called bombesin) produced by small cell lung cancer. In at least some small cell lung cancers, interference with GRP action by specific monoclonal antibodies results in inhibition of tumor cell growth in culture and in nude mouse xenografts. Thus, constitutively expressed GRP gene may function as a cellular oncogene under certain circumstances in small cell lung cancer. Based on these observations we are proposing to test monoclonal anti-GRP antibodies in patients.
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PMID:Chromosomal deletion, gene amplification, alternative processing, and autocrine growth factor production in the pathogenesis of human lung cancer. 333 4

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