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

---

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

It is not yet clear whether some polymorphic variants of the Ha-ras-1 gene confer genetic predisposition to cancer. However, recent data on myelodysplasia and lung cancer are controversial. To clarify this point, 62 colorectal adenocarcinoma patients were examined for the Ha-ras-1 gene restriction fragment length polymorphism and results were compared with those of 108 healthy blood donors. No Ha-ras-1 polymorphic variants specifically associated with the cancer patients were detected. However, a specific genotype was significantly more frequent in the healthy donors than in the cancer patients (16% versus 5%), suggesting an interaction between the two alleles of the gene.
...
PMID:Ha-ras-1 restriction fragment length polymorphism and susceptibility to colon adenocarcinoma. 288 94

The influence of polymorphic variants of the human c-Ha-ras gene on predisposition to lung cancer has been investigated. The human c-Ha-ras gene has been shown to reside on a polymorphic BamH1 restriction fragment. This restriction fragment length polymorphism (RFLP) results from variation in the size of a region of repetitive DNA 3' to the gene. An attempt has been made to characterise and compare the c-Ha-ras RFLP's in a normal population and in a group of cancer patients. DNA was extracted from the white blood cells of 101 normal donors and four common Ha-ras alleles identified, with occasional rare alleles of various sizes. The allele frequencies were examined in 132 lung cancer patients, comprising 66 individuals with small cell carcinoma of the lung (SCCL) and 66 with non-small cell carcinoma of the lung (non-SCCL). An abnormal allele distribution was found in individuals with non-SCCL compared to both control and SCCL values suggesting a degree of genetic pre-position to non-SCCL. In addition, analysis of the Ha-ras RFLP's in solid samples inferred a deletion of material from the short arm of chromosome 11 in two of 16 informative samples.
...
PMID:Genetic predisposition to human lung cancer. 301 Oct 49

To define the role of cellular oncogenes in human cancers, we studied the prevalence of mutational activation of ras oncogenes in untreated non-small-cell lung cancer. Genomic DNA was extracted from 39 tumor specimens obtained by thoracotomy and was examined for activating point mutations in codons 12, 13, and 61 of the H-ras, K-ras, and N-ras genes. A novel, highly sensitive assay based on oligonucleotide hybridization following an in vitro amplification step was employed. The K-ras gene was found to be activated by point mutations in codon 12 in 5 of 10 adenocarcinomas. Two of these tumors were less than 2 cm in size and had not metastasized. No ras gene mutations were observed in 15 squamous-cell carcinomas, 10 large-cell carcinomas, 1 carcinoid, 2 metastatic adenocarcinomas from primary tumors outside the lung, and 1 small-cell carcinoma. An approximately 20-fold amplification of the unmutated K-ras gene was observed in a tumor that proved to be a solitary lung metastasis of a rectal carcinoma. We conclude that mutational K-ras activation may be an important early event in the pathogenesis of adenocarcinoma of the lung but that amplification of ras genes or mutational activation of H-ras or N-ras does not play a major part in non-small-cell lung cancer.
...
PMID:Mutational activation of the K-ras oncogene. A possible pathogenetic factor in adenocarcinoma of the lung. 304 Dec 18

The primary goal of biochemical and molecular epidemiology is to identify individuals at high cancer risk by obtaining evidence of high exposure to carcinogens, leading to pathobiological lesions in target cells, and/or increased oncogenic susceptibility due to either inherited or acquired host factors. This emerging and multidisciplinary area of cancer research combines epidemiological and laboratory approaches. Because DNA is considered to be an important target for modification by mutagens and carcinogens, damage to DNA can be used as an internal, molecular dosimeter of carcinogen exposure. The reactive species of these carcinogens may directly bind to DNA to form adducts and may indirectly cause secondary DNA lesions, e.g., via induction of free radicals and aldehydes. Highly sensitive and specific methods have been developed to measure the minute amounts of DNA lesions and DNA repair products found in biological specimens from humans exposed to carcinogens. For example, DNA adducts have been measured in cells and tissues from people occupationally exposed to carcinogenic polycyclic aromatic hydrocarbons. Antibodies recognizing carcinogen-DNA adducts have also been detected in human sera. Inherited predisposition to cancer has been revealed by recent advances in molecular genetics, including restriction-fragment-length polymorphism. For example, the hypothesis that rare alleles of the Ha-ras proto-oncogene are associated with an increased risk of lung cancer is currently being tested. These approaches afford the potential of biochemical and molecular epidemiology to predict disease risk for individual persons, instead of for populations, and before the onset of clinically evident disease.
...
PMID:Biochemical and molecular epidemiology of human cancer: indicators of carcinogen exposure, DNA damage, and genetic predisposition. 331 59

The expression of ras oncogene product p21 in human malignant pleurisy and primary lung cancer was studied immunocyto-histochemically with monoclonal antibodies (MoAbs) rp-28 and rp-35 against ras p21. In pleural effusion cells, cancer cells revealed more intensively positive reaction with MoAb rp-35 than with MoAb rp-28, especially in the plasma membrane, and no positive reaction was obtained in any kind of inflammation cells with the exception of faintly positive reaction in the cytoplasm of macrophages. In primary lung cancers, well or moderately differentiated adenocarcinoma tissues showed higher reactivity with MoAb rp-28 than those of poorly differentiated adenocarcinoma or any other histological subtype of lung cancer. With MoAb rp-35, intensively positive reaction was obtained in most of cases with all different histological subtypes of lung cancer. The staining in cancer cells was usually localized intensively to the plasma membrane and weakly to the cytoplasm with both MoAbs. Normal bronchial epithelial and glandular tissues showed only cytoplasmic staining. These two MoAbs, especially MoAb rp-35, may be useful in clinicopathological applications for the diagnosis of malignant pleurisy and primary lung cancer.
...
PMID:Immunohistochemical analysis of human lung cancers with anti-ras p21 monoclonal antibodies. 333 May 57

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.
...
PMID:Chromosomal deletion, gene amplification, alternative processing, and autocrine growth factor production in the pathogenesis of human lung cancer. 333 4

Twenty-seven primary non-small cell (NSC) lung cancers were analyzed for alterations of protooncogenes by DNA hybridization techniques. Abnormalities were found in 56% of tumors including ten of 16 adenocarcinomas, three of nine squamous cell cancers and two of two larger cell cancers. Five protooncogenes were found to be commonly altered in tumors at frequencies between 12% and 60%. These were c-myc, c-myb, c-ras-Ha, c-erbB-1 and c-erb-B-2. Alterations in c-erbB-1 and c-erbB-2 correlated with histologic type of tumor and were more common in advanced cancers. Allelic deletions of c-ras-Ha or c-myb were frequently observed in primary tumors which recurred or progressed after surgery (five of six). Analysis of protooncogenes may provide insights into the pathogenesis of lung cancer and may aid in predicting clinical behavior.
...
PMID:Abnormalities of protooncogenes in non-small cell lung cancer. Correlations with tumor type and clinical characteristics. 367 3

Human lung tumors PR310 and PR371 maintained in nude mice contain activated c-K-ras oncogenes detectable by the ability of their DNAs to induce the morphological transformation of NIH 3T3 mouse fibroblasts. Using phage libraries constructed with DNA from NIH 3T3 mouse fibroblast transformants, we have isolated human sequences that span greater than 40 kilobase pairs of the c-K-ras oncogene. Based on the conservation of these human sequences in mouse fibroblast transformants, we conclude that the transforming ability of the oncogene activated in these tumors resides within a 43- to 46-kilobase-pair DNA region. No clear differences were observed between the structures of the PR310 and PR371 cloned oncogene sequences. Nucleotide sequence analysis in concert with DNA transfection experiments suggests that the PR371 oncogene has been activated by a single base change in the first exon, which results in the substitution of cysteine for glycine in position 12 of the predicted amino acid sequence. The genetic alteration responsible for the transforming activity of the PR310 oncogene, however, does not reside in the first exon. These results indicate that the activation of the c-K-ras oncogene in human lung cancer can occur by different mutational events.
...
PMID:Isolation of transforming sequences of two human lung carcinomas: structural and functional analysis of the activated c-K-ras oncogenes. 632 Jan 74

Recent developments in the molecular genetics of human cancers shows the importance of multiple genetic alterations in the pathogenesis of these lesions. DNA diagnostic techniques are being introduced rapidly into the clinical laboratory setting. 1) In lung cancer, several oncogenes and tumor suppressor genes, such as ras, myc, p53, RB, allelic loss of chromosomes, play very important roles. These genetic changes are being applied to cancer diagnosis, prediction of prognosis or disease metastasis, or response to treatment. 2) Drug resistance is one of the major problems of current lung cancer chemotherapy. Identification of the molecular marker for drug resistance, like DNA topoisomerase gene mutation, in clinical samples will be of great help for choosing chemotherapy regimens. 3) Interindividual differences in susceptibility to lung cancer may be screened using genotyping of the P450IA1 and GSTmu genes. To develop newer diagnostic and therapeutic approaches, detailed investigation of the molecular pathogenesis of lung cancer using clinical samples is essential. I review the present status on these applications of genetic markers to lung cancer diagnosis in this article.
...
PMID:[Application of molecular diagnosis to human lung cancer]. 747 38

CD44 is an integral membrane glycoprotein that functions as a receptor for the extracellular matrix glycan, hyaluronan. Here we report that CD44 is a novel biomarker for non-small cell lung tumors, squamous metaplasia of the lung, and activated type II pneumocytes. We have examined the expression of CD44 in 12 human lung tumor cell lines and 23 fixed, paraffin-embedded lung cancers. CD44 transcription and translation is consistently high among non-small cell tumors (5 of 5 cell lines, 10 of 14 tumors) but rare in small cell tumors (1 of 6 cell lines, 0 of 9 tumors). In normal lung, CD44 was confined to the surface of bronchial basal cells and alveolar macrophages. Squamous metaplasia of the lung showed strong CD44 immunoreactivity. Resting type II pneumocytes were largely CD44 negative but rows of active, surfactant-secreting type II cells had significant amounts of CD44 located on lateral surfaces of adjacent cells. The correlation between CD44 and the non-small cell phenotype was further demonstrated in studies of a cultured small cell lung cancer line induced to exhibit characteristics of a non-small lung cancer by infection with v-Ha-ras. Following ras gen insertion, these cells showed a 40-fold increase in CD44 expression. The CD44 detected in lung cancer cells throughout these studies was predominantly the "standard" rather than the "variant" species. Taken together, these results suggest that CD44 is a protein expressed on non-small cell lung tumors, squamous metaplasia, and activated type II cells. In addition, CD44 in cultured small cell lung cancer cells is transcriptionally activated following differentiation by the ras oncogene. The fact that immunohistochemistry can be used to discriminate among the cell types makes CD44 a valuable new marker for lung neoplasia.
...
PMID:Expression of CD44 in human lung tumors. 750 20


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---