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)

In contrast to carcinomas of the upper respiratory tract lung cancer shows a considerable variety of histological differentiations and is particularly known for its morphological heterogeneity. Of clinical relevance, however, is only the distinction between small cell carcinomas (SCLC) and non-small cell lung cancer (NSCLC). We meanwhile investigated a tumor collective of several hundred respiratory tract carcinomas by Comparative Genomic Hybridization (CGH) and developed computer software for the statistical comparison of tumor groups. The analysis revealed recurrent patterns of chromosomal imbalances which are associated with morphological histotypes and biological phenotypes, e.g. there are chromosomal imbalances predominantly found in SCLC compared to NSCLC but also a considerable overlap between both entities. Specifically, the pattern of metastasizing lung squamous cell carcinomas (SCC) approaches that of SCLC. In addition, the analysis of a metastasizing combined SCLC after microdissection showed a clonal relationship between the SCC component of the primary tumor and the SCLC metastasis. These findings have direct consequences for the pathogenesis and classification of lung cancer. First, SCLC should be differentiated into primary and secondary carcinomas. Whereas primary SCLC as the predominant tumor type evolve directly from a precursor cell of probably epithelial origin, secondary SCLC develop via a NSCLC intermediate. Second, neuroendocrine differentiation in lung carcinomas should be used as a marker for dedifferentiation, worse prognosis and rapid tumor progression rather than an indicator of a putative tumor stem cell. The primary data is available at our online tumor database at http://amba.charite.de/cgh/.
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PMID:[Rudolf-Virchow Prize 1999. Genetics of respiratory tract carcinomas: correlation of genotype and phenotype]. 1071 10

The arbitrarily primed polymerase chain reaction (AP-PCR) was used to detect somatic genetic alterations in lung carcinomas. DNA fingerprints generated by a single arbitrary primer were compared between normal and tumor tissues of the same individuals. We adapted the technique to the use of tissue fixed with methanol, which allowed the analysis of small areas of tissue by microdissection. This improvement of the fingerprinting technique permitted the study of tumors at early stages of progression. Loss of sequences from chromosome 7 was detected in 41.7% of adenocarcinomas and from chromosome 22 in 84.6% of small-cell carcinomas. Gains of sequences from chromosomes 1, 8 and 13 were detected in more than 40% of adenocarcinomas and in chromosome 2 in 63.3% of squamous-cell carcinomas. Our results indicate that allelic imbalances at these chromosomal regions are common genetic abnormalities in lung carcinomas. Loss of sequences from chromosome 22q13.3, found in 11 of 13 small-cell carcinomas, were confirmed by microsatellite PCR analysis. We show that the use of our improved AP-PCR fingerprinting permits the detection of both losses and gains of novel chromosomal regions early during lung cancer development. Our results indicate that early-stage tumors tend to have more allelic imbalances than relatively advanced tumors, suggesting a high tumor genetic heterogeneity in the early stages of lung tumor progression.
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PMID:Amplotyping of microdissected, methanol-fixed lung carcinoma by arbitrarily primed polymerase chain reaction. 1071 26

Mouse inbred strains with inherited predisposition and resistance to lung cancer provide an essential tool for the dissection of the genetics of this complex disease. We have previously mapped a major locus (Pulmonary adenoma susceptibility 1, Pas1) affecting inherited predisposition to lung cancer in mice on chromosome 6, near Kras2. Appropriate crosses that include susceptible mice (Pas1(s)) provide a model system for identifying loci that can modify the lung cancer predisposition phenotype caused by Pas1. Using this approach we have mapped the Pulmonary adenoma resistance 1 (Par1) locus that behaves like a modifier locus of Pas1. More recently, we mapped additional lung tumor resistance loci (Par2, and Par4), and a locus specifically involved with lung tumor progression (Papg1). The mapping of Pas1 in mice stimulated us to test the possible association of genetic markers located in the homologous human region (12p12) with risk and prognosis of lung adenocarcinomas in man. In the Italian population, we carried out an association study by genotyping lung adenocarcinoma patients and healthy controls for genetic markers located in the putative region of interest. Homozygosity of the A2 allele at a Kras2/RsaI polymorphism, and allele 2 at a VNTR polymorphism in the PTHLH gene showed borderline statistically significant associations with lung cancer risk. Furthermore, the same alleles were significantly associated with tumor prognosis. Studies on association were then performed in the Japanese and in European populations. In the Japanese population, the KRAS2/RsaI marker was significantly associated with prognosis of lung adenocarcinoma, whereas the European study did not confirm this association. Our results may provide evidence for the existence of the human PAS1 locus, suggesting that the mouse model of inherited predisposition to lung tumorigenesis is predictive of a human genetic mechanism of susceptibility to lung cancer.
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PMID:Predisposition to lung tumorigenesis. 1072 Jul 40

In the present study the chromosomal status of seven invasive non small cell lung cancer specimens and associated premalignant lesions was investigated. By fluorescence in situ hybridisation (FISH) with centromere specific probes, an increase in the percentage of aneuploid cells from pre-invasive to invasive lesions could be demonstrated (mean 8.5 and 59%, respectively, for chromosome 7). Furthermore, mean chromosome copy numbers were higher in invasive carcinomas as compared to premalignant lesions, indicating polyploidization during tumor development. Increasing evidence suggests that aberrations of chromosome 7 occur early in the development of lung cancer. Whether these aberrations can be used as a biomarker for future neoplastic progression remains to be determined.
Lung Cancer 2000 Jun
PMID:Aneuploidy of chromosome 7 can be detected in invasive lung cancer and associated premalignant lesions of the lung by fluorescence in situ hybridisation. 1081 91

Overexpression of cyclooxygenase-2 (COX-2) is seen in a high percentage of human colon tumors, lung adenocarcinomas and other cancers. Inhibition of this enzyme represses human colon tumorigenesis and decreases lung tumor multiplicity in 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone-exposed A/J mice. The purpose of this investigation was to characterize the expression of cyclooxygenase-2 (COX-2) during tumor progression in the A/J mouse lung and to compare the results with expression in other cancer-susceptible and several cancer-resistant mouse strains. Analysis of normal A/J mouse lung showed that type II alveolar epithelial cells express high levels of COX-2 protein and mRNA, indicating that COX-2 is present constitutively in this tumor progenitor cell prior to any carcinogen exposure. Examination of lung-cancer-resistant (C3H/HeJ, C57BL/6J, DBA/2J) and other lung-cancer-susceptible (A/WySnJ, SWR/J) strains showed similar levels of COX-2 mRNA expression in the three susceptible strains and lower levels of expression in two of the resistant strains, indicating a possible correlation between COX-2 expression in type II cells and lung cancer susceptibility. COX-2 protein expression was observed in A/J lung tumors at all stages of development. Variation and occasional absence of protein expression were also observed in A/J lung tumors, particularly in adenomas and adenocarcinomas, suggesting that COX-2 is not obligatory for maintenance of the malignant phenotype. In support of this conclusion, treatment of xenografted cell lines derived from malignant murine pulmonary tumors with COX-2 inhibitors produced only a slight repression of growth. However, the frequent expression of COX-2 in early lesions in the A/J mouse lung combined with the known reduction in tumor number in animals treated with COX-2 inhibitors prior to carcinogen exposure indicate that COX-2 could be a promising target for lung cancer chemoprevention. In addition, high levels of COX-2 expression in the normal tumor-progenitor cells of lung-cancer-sensitive mice indicate that COX-2 may play a role in lung cancer susceptibility.
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PMID:Cyclooxygenase-2 expression is abundant in alveolar type II cells in lung cancer-sensitive mouse strains and in premalignant lesions. 1087 16

Loss of chromosome 10q is a critical step during the progression and metastasis formation of lung cancer. We recently defined 3 distinct regions of allelic imbalances and considered the DMBT1 gene at 10q25-q26 an interesting candidate for the most telomeric region. Therefore, we investigated DMBT1 in 25 cancer cell lines and 39 primary tumors of the respiratory tract. The analysis by RT-PCR and Northern blot hybridization revealed that the gene is expressed in all tumors and cell lines and diminished in the SCLC line H187, indicating that RT-PCR is critical when used as the single method for the evaluation of gene expression. No mutations were found by SSCP analysis of the cDNA and the partially known genomic sequence. Similarly, Southern blot hybridization was unable to detect homozygous deletions. Allelotyping of the markers D10S587, D10S1708 and D10S1723 located near or within the DMBT1 gene did not reach the peak incidence of the 3 minimally deleted regions that we recently defined. In summary, our data do not confirm previous findings reporting frequent loss of DMBT1 expression in lung cancer. However, they strengthen the notion that the responsible gene on chromosome 10q25-q26 mediating tumor progression and metastasis formation in respiratory tract cancer remains enigmatic.
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PMID:Analysis of the DMBT1 gene in carcinomas of the respiratory tract. 1096 42

Mutations in mitotic checkpoint genes have been detected in several human cancers, and these cancers exhibit chromosomal instability. Aneuploid stem cells seem to result from chromosomal instability and have been reported in many lung cancers. To determine whether alteration of mitotic checkpoint regulators is involved in carcinogenesis and tumor progression in primary lung cancer, we screened the genomic DNA sequence of 30 human lung cancer cell lines and 30 primary lung cancer tumors for a mutation in the hBUB1 mitotic checkpoint gene. First, we designed 26 sets of intron-based primers to amplify each of the 25 exons of the hBUB1 gene to examine the entire coding region of the hBUB1 gene. Using these primers, we performed polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) analysis as well as direct sequencing in the mutation analysis of the hBUB1 gene. Three different nucleotide substitutions were detected in the coding region of the hBUB1 gene in some of the cancer cell lines and primary tumors as follows. The hBUB1 gene of one adenocarcinoma tumor contained a somatic missense mutation, a cytosine-to-guanine substitution in codon 51 of exon 5 that resulted in a histidine-to-aspartic acid amino acid substitution. The hBUB1 gene of three lung cancer cell lines contained a thymine-to-cytosine substitution in codon 430 of exon 12, which did not result in an amino-acid substitution. We were unable to determine whether the nucleotide substitution in exon 12 was a polymorphism or a silent mutation because matched normal tissue was not available. A polymorphism in codon 93 of exon 4, a guanine-to-thymine substitution, in hBUB1 was found in one lung cancer cell line and one primary lung tumor. This is the first report of a somatic missense mutation of a gene involved in a mitotic checkpoint in primary lung cancer. The presence of a point mutation in the hBUB1 gene is consistent with the hypothesis that alteration of mitotic checkpoint genes is involved in the development of primary lung cancers. Because the frequency of hBUB1 gene mutations was low, future studies should focus on other mechanisms of inactivation of the hBUB1 gene as well as mutation analysis of other mitotic checkpoint genes in lung cancers.
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PMID:Somatic mutation of the hBUB1 mitotic checkpoint gene in primary lung cancer. 1099 96

Mutations of K-ras gene play an important role in neoplastic progression. The capillary electrophoresis-single strand conformation polymorphism (CE-SSCP) technique is available for the detection of gene mutations. Using an automated capillary electrophoresis with short-chain linear polyacrylamide, after denaturation of PCR products, injections were performed at reverse polarity of 5 kV for 15 s and the separations were carried out under a constant voltage of 8 kV. Of 16 specimens of lung cancer tissue, two specimens were found to have abnormal peaks in the electrophoretogram. CE-SSCP is rapid, automated, and has high performance.
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PMID:Single strand conformation polymorphism analysis of K-ras gene mutations by capillary electrophoresis with laser-induced fluorescence (LIF) detector. 1102 Apr 74

CD44, belongs to the cell adhesion molecule family and is expressed on cell surfaces in several isoforms which are generated by alternative splicing of messenger RNA. These splice variants have been shown in several cancer cell types and are thought to be involved in tumor progression. The aim of the current study was to evaluate the expression of selected CD44 variants on lung cancer cells of various histology and to compare these with other markers of tumor spread. Surgical samples of primary lung carcinoma of various histology were subjected to alkaline phosphatase-anti-alkaline phosphatase complex immunohistochemistry using a panel of monoclonal antibodies: anti-CD44 v5, v6, v7/8, v10, anti-Ki-67, anti-Bcl-2 and anti-p53. Positive cells were scored in a semiquantitative way. The patients were subdivided into groups with and without metastases, as found during surgery. All CD44 variants tested could be demonstrated on lung cancer cells, but the incidence of particular isoforms varied, depending on lung cancer histology. In general, CD44 expression was highest in squamous cell tumors and lowest in anaplastic small cell carcinomas. Squamous cell cancers had high expression of v5 and v6 variants, while in anaplastic large cell and small cell carcinomas v10 was abundant. When Ki-67, Bcl-2 and p53 protein expression was compared to the incidence of CD44 variants, coincidence was found for v10 only. Most of the cases positive for v10 were also Ki-67 positive (p = 0.0146). In 12 cases with metastases, tumor cells had high v6 and Ki-67 expression, but these data were not significant compared to cases without metastases. Overall, these data suggest that v5 and v6 variants are of significance in squamous cell lung carcinoma, presumably in the promotion of metastasis, while in anaplastic small cell or large cell cancers only v10 expression seems to correlate with proteins associated with tumor growth and progression.
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PMID:Isoform expression of CD44 adhesion molecules, Bcl-2, p53 and Ki-67 proteins in lung cancer. 1105 26

Immunocytochemical studies have revealed that overexpression of heterogeneous nuclear ribonucleoprotein (hnRNP) A2/ B1 in exfoliated epithelial cells is a potentially useful marker of early lung cancer. This study analyzed the correlation of hnRNP A2/B1 expression with molecular alterations in phenotypically different epithelial cells of paraffin-embedded pulmonary tissues. Sections from 20 human subjects were analyzed immunohistochemically for expression of hnRNP A2/B1. Normal-appearing, hyperplastic, and malignant epithelial cells with and without hnRNP A2/B1 expression (n = 78) were microdissected and assessed for microsatellite alterations (MA) and loss of heterozygosity (LOH) (n = 14 markers) as well as for clonality. Results showed that (1) hnRNP A2/B1 immunoreactive cells contained a significantly higher frequency of MA and LOH than did comparable cells that lacked detectable hnRNP A2/B1; (2) over 80% of MA and LOH seen in hnRNP A2/B1 immunoreactive normal-appearing and hyperplastic cells persisted in malignant cells; (3) preliminary analysis of methylation status of the androgen receptor gene in non-neoplastic cells was suggestive of hnRNP A2/B1-expressing cells being of clonal origin; and (4) cells with cytoplasmic hnRNP A2/B1 immunoreactivity had a 3-fold higher frequency of MA and LOH than did cells with nuclear hnRNP A2/B1 immunoreactivity. These findings suggest that phenotypically different respiratory epithelial cells with hnRNP A2/B1 overexpression might be clonally derived, and that the subcellular localization of hnRNP A2/B1 might be an important factor associated with tumor progression.
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PMID:Phenotypically different cells with heterogeneous nuclear ribonucleoprotein A2/B1 overexpression show similar genetic alterations. 1106 42

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