UMLS:C0684249 - FACTA Search

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Query: UMLS:C0684249 (lung carcinoma)
23,830 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Amsacrine and demethylepipodophyllotoxins (etoposide and teniposide) are potent topoisomerase II inhibitors which have optimum activity in different cancers. To investigate whether these differences are due to different activity on cellular oncogenes, drug-induced topoisomerase II cleavage sites were mapped and sequenced in the human c-myc protooncogene. In the presence of purified murine L1210 topoisomerase II, amsacrine induces prominent cleavage in the P2 promoter (site 2499/2502). Footprinting experiments indicate that topoisomerase II binds to the entire promoter region (approximately 20 base pairs on the sides of the P2 site). In the case of teniposide or etoposide, cleavage is more diffuse and markedly less at the P2 site. Mapping of cleavage sites in human small cell lung carcinoma cells (NCI N417) also shows that cleavage in the P2 promoter region is induced preferentially by amsacrine but not by demethylepipodophyllotoxins. Thus, selective gene damage among topoisomerase II inhibitors may contribute to differential anticancer activity.
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PMID:Differential effects of amsacrine and epipodophyllotoxins on topoisomerase II cleavage in the human c-myc protooncogene. 131 59

A sensitive nonradioactive ribunuclease protection assay is described which we have used to study c-myc gene transcription and promoter usage in GLC4, a human small cell lung carcinoma cell line with amplified gene. For in vitro transcription we used digoxygenine (DIG)-rUTP instead of [alpha-32P]CTP or [alpha-32P]UTP and after polyacrylamide gel electrophoresis the protected probes were transferred to a nylon membrane from Boehringer Mannheim using electroblotting. Subsequently the membrane was analyzed by chemiluminescent detection. Results were obtained after 1 h of exposure and were comparable with those using radioactivity.
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PMID:Nonradioactive ribonuclease protection analysis using digoxygenine labeling and chemiluminescent detection. 133 51

Morphogenetic and molecular-biological features of the lung peripheral tumours (small-cell carcinoma, atypical and typical carcinoid) were studied on the surgical material from 68 patients. Spectrum of histologic, histochemical, immunohistochemical (immunohistochemistry of oncoproteins c-fos, c-myc, c-ras, c-sis and c-src) methods, DNA histospectrophotometry by plug-method, electron microscopy, semithin section morphometry, statistical and correlation analysis were used. Small-cell carcinoma is shown to be a heterogeneous group of tumours that includes tumours with endocrine cell differentiation, endocrine and epidermoid and/or glandular, undifferentiated cell carcinoma. Lymphocyte-like carcinoma and intermediate cell carcinoma with endocrine cell differentiation are distinguished from other types of lung carcinoma by their low, sometimes diploid DNA content that does not correlate with its malignancy as well as by a low level of expression of cell oncogenes c-fos, c-ras, c-sis. Small-cell carcinoma with endocrine cell differentiation, atypical and typical lung carcinoids represent a unique histogenetic group of endocrine lung tumours that differ from each other by the degree of anaplasia.
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PMID:[Peripheral small cell carcinoma, atypical and typical lung carcinoids (morphologic features, cell oncogene expression, DNA histospectrophotometry)]. 168 68

We established a human carcinoma cell line (KHC 287) from a patient with large-cell-typing lung carcinoma associated with marked leukocytosis. The culture supernatant of KHC 287 cells promoted granulocytic colony formation of human bone-marrow cells in semi-solid culture. Colony formation was almost completely suppressed by treatment of the supernatant with a monoclonal anti-granulocyte colony-stimulating factor (G-CSF) antibody. Not only G-CSF but also interleukin-1 alpha (IL-I alpha), IL-I beta and IL-6 were detected in the culture supernatant by an ELISA method. Northern blot analysis of KHC 287 cells revealed distinct expression of these cytokine genes. Southern blot hybridization of KHC 287 DNA showed 20- and 40-fold co-amplification of c-myc and c-ki-ras, respectively. The chloramphenicol acetyl transferase (CAT) activity was distinctly enhanced in the KHC 287 cells which were transfected with the 360 bp upstream region of G-CSF gene inserted into pSV00CAT, but not in non-G-CSF-producing tumor cell lines. These results suggest that overproduction of the transactivating factor(s) which binds to the 360 bp of the G-CSF upstream region is responsible for the abnormal expression of G-CSF gene in KHC 287 cell line.
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PMID:Analysis of abnormal expression of g-csf gene in a novel tumor cell line (KHC 287) elaborating G-CSF, IL-1 and IL-6 with co-amplification of c-myc and c-ki-ras. 171 Feb 8

We have previously described the neoplastic transformation of immortalized human bronchial epithelial cells (BEAS-2B) by the combination of the c-raf-1 and c-myc protooncogenes and the concomitant induction of neuron-specific enolase mRNA expression (A. Pfeifer et al., Proc. Natl. Acad. Sci. USA, 86: 10075-10079, 1989). In this paper we describe the morphological, biochemical, and immunohistochemical characteristics of the primary c-raf-1/c-myc tumors, xenografts of these tumors, and tumors that originated from cell lines of the primary neoplasm. The tumors were morphologically characterized by the appearance of desmosomes and tonofilaments, microvilli, and dense core granules representing markers of squamous, glandular, and neuroendocrine differentiation, respectively. A total of 11 of 13 tumors were positive by immunohistochemical techniques for neuron-specific enolase, serotonin (nine of 13), and calcitonin (six of 13). Keratins were expressed in 11 of 13 tumors, and while specific keratins (K5, K7, K16/K17) decreased, there was an increase of vimentin in the tumor cells. Gastrin-releasing peptide immunoreactivity was detectable in a small number of tumors (five of 13). BEAS-2B cells transfected with the c-raf-1 and c-myc protooncogenes and cell lines established from the primary tumors expressed major histocompatibility Class II antigen which has been found on small cell lung carcinoma cells. The tumors induced by the c-raf-1 and c-myc protooncogenes resemble the multidifferentiated phenotype of small cell lung cancer frequently detected in vivo and present a defined model to study the relation between molecular markers, phenotypical appearance, and response to chemotherapeutic agents and radiation.
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PMID:Human bronchial epithelial cells transformed by the c-raf-1 and c-myc protooncogenes induce multidifferentiated carcinomas in nude mice: a model for lung carcinogenesis. 171 50

Six families of activated protooncogenes, ras, raf, fur, neu, jun and myc have so far been associated with human lung cancer. Human bronchial epithelial cells in vitro are being used to investigate the functional role of these specific oncogenes and growth regulatory genes in carcinogenesis and tumour progression. When transferred into normal human bronchial epithelial cells by the highly efficient protoplast fusion method, the v-Ha-ras oncogene initiates a cascade of events leading to decreased responsiveness of these cells to inducers of squamous differentiation, aneuploidy and, less frequently, 'immortality' and tumorigenicity with metastasis in athymic nude mice. Transfection of the SV40 T antigen gene results in nontumorigenic cell lines that have a nearly normal pathway of terminal squamous differentiation and can be transformed into malignant cells by transfected Ha-ras, N-ras or Ki-ras. The combination of transfected c-myc and c-raf-1 also transforms human bronchial epithelial cells into neoplastic cells that exhibit some phenotypic traits found in small-cell carcinomas. These and other results indicate that proto-oncogenes dysregulate the pathways of growth and differentiation of human bronchial epithelial cells and play an important role in human carcinogenesis. Analyses of allelic deletion and somatic cell hybrids are being used to identify the chromosomal localization of tumour suppressor genes. We have examined 54 non-small-cell bronchogenic carcinomas with 13 polymorphic markers. Loss of heterozygosity was more frequent than among 23 squamous-cell carcinomas than among 23 adenocarcinomas or eight large-cell carcinomas. Loss of heterozygosity for chromosome 17p was found in 89% of cases of squamous-cell carcinoma and 18% of adenocarcinomas. Analysis of chromosome 11 for allelic deletions revealed two commonly deleted regions (11p13 and 11p15.5). Somatic cell hybrids between normal human bronchial epithelial cells and Hut292DM, a lung carcinoma cell line, had a finite lifespan in vitro and were nontumorigenic in athymic nude mice. Tumour suppressive effects of individual or combinations of specific human chromosomes on Hut292DM are being examined by formation of microcell-cell hybrids. Chromosome 11 has tumour suppressor activity in these hybrids. Both of these studies suggest that tumour suppressor genes play a dominant role in lung carcinogenesis and provide in-vitro model systems for isolating these genes by subtraction library and insertional mutagenesis techniques.
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PMID:Role of oncogenes and tumour suppressor genes in human lung carcinogenesis. 185 68

In vitro and in vivo metastatic variants derived from Lewis lung carcinoma (3LL) were examined for the level of the expression of several growth-regulated genes, oncogenes, and transforming growth factor (TGF) genes. To determine whether the proliferative advantage of metastatic cells is due to an increased growth fraction of the cell population or to a deregulated expression of some growth-regulated genes, the mRNA levels of the S-phase-specific H3 histone gene were compared with that of some cell cycle-related genes (vimentin, calcyclin, c-myc, and p53) and oncogenes (Ki-ras, Ha-ras, c-sis, c-src, c-fes, and c-erb). In addition, to evaluate whether an autocrine pattern of cell proliferation is responsible for the proliferative advantage of metastatic cells, the level of the expression of TGF genes (alpha and beta 1) was studied. Northern blot analysis demonstrated that in 3LL metastatic variants the expression of TGF-alpha as well as the expression of all growth-regulated genes and oncogenes studied are similar. Only the TGF-beta 1 gene is expressed at higher levels in highly metastatic 3LL variants maintained either in vitro or in vivo. Data suggest that the proliferative advantage of 3LL metastatic cells is not due to a deregulated expression of some growth-regulated genes and oncogenes, but more likely is acquired through the expression of genes which might interfere with the ability of the tumor cells to escape hostile microenvironmental conditions.
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PMID:Differential expression of transforming growth factor-beta 1 gene in 3LL metastatic variants. 191 69

One hundred forty-two foci of small cell lung carcinoma (SCLC) from 47 patients were examined for amplification of myc family oncogenes (c-myc, N-myc, and L-myc), by dot blot hybridization using formalin-fixed and paraffin-embedded materials which were resected surgically or obtained at autopsy. Some selected patients were also examined by in situ hybridization. Amplification of myc family genes was detected in 11 patients (23.4%) (c-myc in one, N-myc in five, and L-myc in five). Two of the 11 patients (one with N-myc and one with L-myc) had heterogenously amplified clones. In the patient with N-myc amplification, amplification was detected in metastatic tumors in the pancreas, lung, and pleura, but not in the liver and lymph node metastases. In the primary tumor, areas with and without N-myc amplification were seen. In the patient with L-myc amplification, although amplification was not detected in the surgically resected primary lesion, mediastinal lymph node metastatic lesions obtained at autopsy showed L-myc gene amplification. These two cases, together with previously reported evidence, suggest that myc gene amplification plays an important role in malignant progression, rather than development, of SCLC. In Stage III and IV groups, patients with over ten-fold myc gene amplification were suggested to survive for a shorter time than patients without such amplification (P = 0.06).
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PMID:Heterogenous amplification of myc family oncogenes in small cell lung carcinoma. 217 44

The interactions of cytogenetic and molecular genetic changes in the pathogenesis and progression of lung cancer are complex. To the practicing pathologist, certain of these changes may prove useful as diagnostic or prognostic markers and may help in selecting patients for particular types of therapy. Changes such as 3p14-23 deletions, c-myc amplification, and L-myc RFLPs have already been reported to predict aggressive behavior in lung cancer. Future studies will clarify the application of these changes to the clinical care and treatment of patients with carcinoma of the lung.
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PMID:The cytogenetics and molecular genetics of lung cancer. Implications for pathologists. 220 63

In this paper, we describe a method for making simultaneous determinations of the relative levels of selected resident gene transcripts in biological samples. The procedure consists of immobilizing a battery of cloned genes on a nitrocellulose or nylon filter and hybridizing the filter with radiolabeled cDNA synthesized from mRNA extracted from tissue or cell lines. The intensity of the autoradiographic signals obtained from the various genes on the filter is interpreted to be roughly proportional to the relative numbers of transcripts of the genes present in the original mRNA population. The reliability of the method was established by detecting the expression of c-N-ras and c-myc in human promyelocytic HL-60 cells, which are known to express these two oncogenes. The accuracy of the technique was further established by using a conventional method to hybridize filter-bound, cytoplasmic RNA with labeled probes synthesized from plasmid inserts of genes identified by the screening procedure. The utility of the procedure was demonstrated by our ability to simultaneously examine the relative levels of expression of 21 oncogenes in a radiation-induced canine lung carcinoma.
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PMID:A procedure for making simultaneous determinations of the relative levels of gene transcripts in tissues or cells. 222 86

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