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)

Inhibition of growth factor-stimulated DNA synthesis carried out in defined medium is often compared with inhibition of serum-stimulated DNA synthesis so as to assess the selectivity of growth-factor-receptor tyrosine kinase inhibitors such as tyrphostins. We investigated whether protein binding may influence the interpretation of these experiments. Protein binding of tyrphostins was determined by ultrafiltration, equilibrium dialysis or spectrophotometer, and was quantitated by high-performance liquid chromatography (HPLC). For growth factor-stimulated DNA synthesis, we used the non-small-cell lung cancer cell line L23/P stimulated by transforming growth factor alpha (TGF alpha). The epidermal growth factor (EGF)-receptor kinase was assayed by phosphorylation of a peptide substrate or by receptor autophosphorylation. Protein binding of a number of tyrphostins ranged from 64% to 98%. There was a positive correlation (r = 0.995) between the degree of protein binding and the hydrophobicity. Inhibition of the EGF-receptor tyrosine kinase activity by the highly protein-bound tyrphostin B56 [N-(4-phenylbutyl)-3,4-dihydroxybenzylidene cyanoacet-amide] was reduced by bovine serum albumin (BSA), but BSA had less of an effect on inhibition of the EGF-receptor kinase by the weakly protein-bound tyrphostin A47 (RG 50864: 3,4-dihydroxybenzylidene cyanothioacetamide). Tyrphostins B46 [N-(3-phenylpropyl)-3,4-dihydroxybenzylidene cyanoacetamide] and B56 (both highly protein-bound) inhibited DNA synthesis of L23/P cells with approximately 3-fold greater potency in 0.5% serum than in 10% serum, but the inhibition of DNA synthesis in 0.5% serum was reduced by the addition of BSA. Tyrphostins B46 and B56 inhibited DNA synthesis stimulated by TGF alpha in defined medium to a greater extent than DNA synthesis stimulated by serum. However, this apparent selectivity for inhibition of TGF alpha-stimulated DNA synthesis was lost when the protein concentration in the defined medium was made equivalent to that in the serum-containing medium. By contrast, BSA enhanced the selective inhibition of TGF alpha-stimulated DNA synthesis by tyrphostin A47. These results demonstrate that protein binding accounts for the apparent selectivity of some highly protein-bound tyrphostins for TGF alpha-stimulated DNA synthesis of L23/P cells. Therefore, protein binding should be taken into consideration in assessments of the selectivity of tyrphostins.
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PMID:Protein binding modulates inhibition of the epidermal growth factor receptor kinase and DNA synthesis by tyrphostins. 762 51

Grb2 is an SH2/SH3 domain-containing adaptor protein that links receptor tyrosine kinases to the ras signaling pathway. The Grb2-SH2 domain binds phosphotyrosine sequences on activated tyrosine kinases, and one target of the SH3 domains is the ras-nucleotide-exchange factor Sos1. We have examined Grb2-protein interactions in human cancer cells that over-express the receptor tyrosine kinase erbB2. Our results show that the 2 Grb2-SH3 domains complex with Sos1, dynamin and at least 4 other proteins (p228, p140, p55, p28) in these cells. The 2 Grb2-SH3 domains bind these proteins differently, with the N-terminal SH3 domain interacting preferentially with p228, Sos1, p140 and dynamin. The C-terminal SH3 domain has higher affinity toward p28. The Grb2-SH3 domain interactions appear to be similar in erbB2 over-expressing breast, ovarian and lung cancer cells. Also, the major tyrosine-phosphorylated proteins that associate with Grb2 in erbB2 over-expressing cancer cells appear to be erbB2 and Shc. The multiple Grb2-SH3 domain interactions in these cells may mediate novel cellular functions.
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PMID:Multiple Grb2-protein complexes in human cancer cells. 900 62

The receptor tyrosine kinase c-kit is necessary for normal hematopoiesis, the development of germ cells and melanocytes, and the pathogenesis of certain hematologic and nonhematologic malignancies. To better understand the regulation of the c-kit gene, a detailed analysis of the core promoter was performed. Rapid amplification of cDNA ends (RACE) and RNase protection methods showed two major transcriptional initiation sites. Luciferase reporter assays using 5' promoter deletion-reporter constructs containing up to 3 kb of 5' sequence were performed in hematopoietic and small-cell lung cancer cell lines which either did or did not express the endogenous c-kit gene. This analysis showed the region 83 to 124 bp upstream of the 5' transcription initiation site was crucial for maximal core promoter activity. Sequence analysis showed several potential Sp1 binding sites within this highly GC-rich region. Gel shift and DNase footprinting showed that Sp1 selectively bound to a single site within this region. Supershift studies using an anti-Sp1 antibody confirmed specific Sp1 binding. Site-directed mutagenesis of the -93/-84 Sp1 binding site reduced promoter-reporter activity to basal levels in c-kit-expressing cells. Cotransfection into Drosophila SL2 cells of a c-kit promoter-reporter construct with an Sp1 expression vector showed an Sp1 dose-dependent enhancement of expression that was markedly attenuated by mutation of the -93/-84 site. These results indicate that despite the fact that the human c-kit promoter contains multiple potential Sp1 sites, Sp1 binding is a selective process that is essential for core promoter activity.
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PMID:Selective Sp1 binding is critical for maximal activity of the human c-kit promoter. 983 19

Malignant pleural effusion (PE) is associated with advanced human lung cancer. We found recently, using a nude mouse model, that vascular endothelial growth factor/vascular permeability factor (VEGF/VPF) is responsible for PE induced by non-small cell human lung carcinoma cells. The purpose of this study was to determine the therapeutic potential of a VEGF/VPF receptor tyrosine kinase phosphorylation inhibitor, PTK 787, against PE formed by human lung adenocarcinoma (PC14PE6) cells. PTK 787 did not affect the in vitro proliferation of PC14PE6 cells, whereas it specifically inhibited proliferation of human dermal microvascular endothelial cells stimulated by VEGF/VPF. A specific platelet-derived growth factor receptor tyrosine kinase inhibitor, CGP57148 (used as a control because PTK 787 also inhibits platelet-derived growth factor receptor tyrosine kinases), had no effect on proliferation of PC14PE6 or human dermal microvascular endothelial cells. i.v. injection of PC14PE6 cells into nude mice produced lung lesions and a large volume of PE containing a high level of VEGF/VPF. Oral treatment with CGP57148 had no effect on PE or lung metastasis. In contrast, oral treatment with PTK 787 significantly reduced the formation of PE but not the number of lung lesions. Furthermore, treatment with PTK 787 significantly suppressed vascular hyperpermeability of PE-bearing mice but did not affect the VEGF/VPF level in PE or expression of VEGF/VPF protein and mRNA in the lung tumors of PC14PE6 cells in vivo. These findings indicate that PTK 787 reduced PE formation mainly by inhibiting vascular permeability, suggesting that this VEGF/VPF receptor tyrosine kinase inhibitor could be useful for the control of malignant PE.
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PMID:Treatment for malignant pleural effusion of human lung adenocarcinoma by inhibition of vascular endothelial growth factor receptor tyrosine kinase phosphorylation. 1074 21

The human RON gene (MST1R) maps to 3p21.3, a region frequently altered in lung cancer and other malignancies. It encodes a receptor tyrosine kinase (RTK) closely related to MET, whose mutations are associated with neoplasia. We investigated whether RON might be involved in the development or progression of lung cancer. We first determined the exon-intron structure of the gene by direct sequencing of RON cosmid DNA and PCR products containing intronic sequences, and then developed primers suitable for mutation analysis by the single-strand conformation polymorphism (SSCP) method. Twenty coding exons were characterized, all but the first one small (average size: 170 bp), a feature shared with other RTK genes. We performed SSCP analysis of RON in small and non-small cell lung cancer samples, upon detection of its expression in a sample of lung cancer cell lines. A mutation (T915C: L296P) was found in an adenocarcinoma specimen. Several single nucleotide polymorphisms were also found. The panel of intron-anchored primers developed in this work will be useful for mutation analysis of the RON gene in different types of human tumors.
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PMID:Gene structure of the human receptor tyrosine kinase RON and mutation analysis in lung cancer samples. 1095 94

Axl is a receptor tyrosine kinase (RTK) with oncogenic potential and transforming activity. Since Axl bears structural similarities to cell adhesion molecules such as neural cell adhesion molecule (NCAM) (FNIII domains), it is thought that Axl might play a role in adhesion. In this study, we have analysed the expression of the Axl protein and its ligand, Gas6, in human lung cancer cell lines of different histological origin. Axl expression occurred in approximately 60% of non-small cell lung cancer (NSCLC) cell lines, which grow adherently, and in normal bronchial epithelial cells (NHBE), but not in cell lines of small cell lung cancer origin (SCLC), which grow in suspension. A number of SCLC sublines, which could be selected spontaneously or after oncogene transfection for adherent growth, all expressed Axl protein. Overexpression of Axl per se, however, did not induce any change in the adhesion phenotype. All Axl-expressing cell lines demonstrated a membrane-bound 140 kD form, as well as a soluble 85 kD form, detectable in supernatant, of Axl-RTK. Expression of the Axl ligand Gas6 was detected in approximately 80% of all cell lines investigated. We conclude from these data that loss of Axl expression is a feature of SCLC tumour cells. Axl expression appears to be a consequence of cellular adhesion and possibly influences differentiation in human lung cancers.
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PMID:Axl receptor tyrosine kinase expression in human lung cancer cell lines correlates with cellular adhesion. 1167 17

Receptor tyrosine kinases have become important therapeutic targets for anti-neoplastic molecularly targeted therapies. c-Met is a receptor tyrosine kinase shown to be over-expressed and mutated in a variety of malignancies. Stimulation of c-Met via its ligand hepatocyte growth factor also known as scatter factor (HGF/SF), leads to a plethora of biological and biochemical effects in the cell. There has been considerable knowledge gained on the role of c-Met-HGF/SF axis in normal and malignant cells. This review summarizes the structure of c-Met and HGF/SF and their family members. Since there are known mutations of c-Met in solid tumors, particularly in papillary renal cell carcinoma, we have summarized the various mutations and over-expression of c-Met known thus far. Stimulation of c-Met can lead to scattering, angiogenesis, proliferation, enhanced cell motility, invasion, and eventual metastasis. The biological functions altered by c-Met are quite unique and described in detail. Along with biological functions, various signal transduction pathways, including the cytoskeleton are altered with the activation of c-Met-HGF/SF loop. We have recently shown the phosphorylation of focal adhesion proteins, such as paxillin and p125FAK in response to c-Met stimulation in lung cancer cells, and this is detailed here. Finally, c-Met when mutated or over-expressed in malignant cells serves as an important therapeutic target and the most recent data in terms of inhibition of c-Met and downstream signal transduction pathways is summarized.
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PMID:Role of the hepatocyte growth factor receptor, c-Met, in oncogenesis and potential for therapeutic inhibition. 1175 Aug 79

GIPC1/RGS19IP1/GIPC, GIPC2, and GIPC3 are a family of central PDZ-domain proteins with GH1 and GH2 domains. GIPC1 interacts with GTPase-activating protein RGS19/RGS-GAIP, TGFbeta type III receptor, receptor tyrosine kinase TrkA, and integrin alpha6A subunit. Xenopus homologue of human GIPCs interacts with Frizzled-3 class of WNT receptor. We investigated expression of human GIPC1 mRNA in normal tissues, cancer cell lines, and primary tumors. GIP1A probe (nucleotide position 1075-1483 of GIPC1 cDNA) hybridized to GIPC1 mRNA of 1.8 kb in size. GIPC1 mRNA was almost ubiquitously expressed in various normal tissues. Expression level of GIPC1 mRNA was relatively lower in bone marrow and peripheral blood leukocytes. GIPC1 mRNA was relatively highly expressed in gastric cancer cell lines OKAJIMA, TMK1, MKN28, MKN45, MKN74, KATO-III, pancreatic cancer cell line AsPC-1, colorectal cancer cell line SW480, and lung cancer cell line A549. On the other hand, GIPC1 mRNA was almost undetectable in leukemia/lymphoma cell lines HL-60, Raji, and Daudi. Expression of GIPC1 mRNA was down-regulated in 12 out of 14 cases of primary kidney tumors, 10 out of 18 cases of primary colorectal tumors, 3 out of 8 cases of primary gastric cancer, 3 out of 3 cases of primary prostate cancer. Because GIPC1 induces increased expression of TGFbeta type III receptor at the cell surface and enhanced responsiveness to TGFbeta, down-regulation of GIPC1 mRNA in tumors might promote cellular proliferation through interference of TGFbeta signaling.
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PMID:Expression of human GIPC1 in normal tissues, cancer cell lines, and primary tumors. 1195 58

Lung cancer results from multiple changes in the genome of susceptible pulmonary cells caused by exposure to carcinogens found in tobacco smoke, the environment, or the workplace. Recent studies suggest that histologically apparent lung cancer is due to the sequential accumulation of specific genetic and morphologic changes to the normal epithelial cells of the lung. Positive signallers, such as those mediated by the oncogene RAS, and negative signallers, such as those mediated by the tumor suppressor retinoblastoma protein (RB), contribute to unchecked cell growth and proliferation. Other key molecular derangements can also be considered hallmarks of cancer, including evasion of apoptosis and senescence, angiogenesis, tissue invasion, and metastases. Epigenetic inactivation of genes via DNA methylation provides another novel way of evading normal cellular control mechanisms. The new knowledge of the human genome coupled with global methods of detecting genetic abnormalities and profiling gene expression in tumor cells may enable us to understand the signaling pathways of lung cancer cells. These are molecular targets for new cancer therapeutics such as receptor tyrosine kinase inhibitors. This information could advance risk assessment, early detection, prognosis, and therapy for lung cancer.
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PMID:Molecular genetics of lung cancer. 1247 Nov 76

Deregulation of protein kinase activity has been shown to play a central role in the pathogenesis of human cancer. The molecular pathogenesis of chronic myelogenous leukemia (CML) in particular, depends on formation of the bcr-abl oncogene, leading to constitutive expression of the tyrosine kinase fusion protein, Bcr-Abl. Based on these observations, imatinib was developed as a specific inhibitor for the Bcr-Abl protein tyrosine kinase. The expanding understanding of the basis of imatinib-mediated tyrosine kinase inhibition has revealed a spectrum of potential new antitumor applications beyond the powerful activity already reported in the treatment of CML. Imatinib has shown activity in vivo against PDGF-driven tumor models including glioblastoma, dermatofibrosarcoma protuberans and chronic myelomonocytic leukemia. Antiangiogenic effects have been demonstrated by inhibition of PDGF-, VEGF (vascular endothelial growth factor)- and bFGF- (basic fibroblast growth factor) induced angiogenesis in vivo, and by inhibition of angiogenesis and tumor growth in an experimental bone metastasis model. Imatinib has been shown to reduce interstitial fluid pressure in an experimental colonic carcinoma model by blocking PDGF-mediated effects on tumor-associated blood vessels and stromal tissue. It is also a potent inhibitor of the Kit receptor tyrosine kinase, and has demonstrated activity clinically against the Kit-driven gastrointestinal stromal tumor (GIST) and experimentally in small-cell lung cancer cell lines. The pharmacology of imatinib and its activity in various tumor models is discussed.
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PMID:Pharmacology of imatinib (STI571). 1252 70

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