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)

Interactions between the extracellular matrix macromolecules and tumor cells are critical in the process of metastasis formation. We show here that elastins (both mature insoluble elastin and a 75-kDa soluble peptide: K-elastin) adhere rapidly to two cell lines with high metastatic capacities: a metastatic lung carcinoma cell line (3LL-HM) and a human amelanotic melanoma cell line (A-2058); by contrast the low-metastatic Lewis lung carcinoma cell line variant as well as a rhabdomyosarcoma cell line with a low metastatic potential bind to elastins to a much lower extent. 3H-labelled K-elastin was used in order to study elastin--3LL-HM interaction. It was found to be saturable (2 ng 3H-labelled K-elastin/10(6) cells), with one class of high-affinity binding sites having Kd equal to 1.3 nM and 16,000 sites/cell. The binding of K-elastin to 3LL-HM cells at its receptor triggered several cell responses; (a) increase of intracellular Ca2+ concentration; (b) induction of 3LL-HM chemotaxis toward the K-elastin gradient; (c) stimulation of the adherence of mature insoluble elastin. In contrast to non-transformed cells such as fibroblasts and smooth muscle cells, the adhesion kinetics of insoluble elastin to 3LL-HM did not exhibit a lag period; the rapid binding of insoluble elastin to the tumor cells was followed by its slow detachment from the cells, which lasted for 6 h. 3LL-HM cells but not human skin fibroblasts were shown to secrete elastinolytic activity inhibitable by metal-chelating agents. In vivo studies were performed in order to evaluate the influence of K-elastin binding to 3LL-HM cells on their ability to form lung colonies in mice. It was shown that pretreatment of 10(4) 3LL-HM cells with 10 microM K-elastin and the simultaneous i.v. injection into mice of 750 micrograms K-elastin together with the highly metastatic cells was able to reduce the number of lung colonies by more than 70% after 12 days.
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PMID:Interaction between elastin and tumor cell lines with different metastatic potential; in vitro and in vivo studies. 185 64

The M27 and H59 variants of Lewis lung carcinoma differ in their responsiveness to the chemotactic elastin peptide Val-Gly-Val-Ala-Pro-Gly (VGVAPG). M27 cells, selected for metastasis to lung, are highly responsive to a positive gradient of VGVAPG. H59 cells, selected for metastasis to liver, do not migrate in response to VGVAPG. Although both cell types bind radiolabeled VGVAPG, Scatchard analysis of 125I-Tyr-VGVAPG binding reveals that M27 cells bind the chemoattractant with a Kd of 2.7 nM, whereas nonresponsive H59 cells bind the peptide with a Kd of 67 nM. These findings indicate that the failure of H59 cells to migrate in response to VGVAPG may be due to the reduced affinity of their VGVAPG receptors. Both receptor affinity and chemotactic responsiveness to VGVAPG can be modulated in each of these two tumor cell lines by the levels of active membrane-associated protein kinase C. Treatment of nonresponsive H59 cells with 12-O-tetradecanoylphorbol 13-acetate increases the level of membrane-bound protein kinase C activity with a concomitant increase in VGVAPG binding affinity and induction of chemotactic responsiveness to VGVAPG. Treatment of M27 cells with the protein kinase C inhibitor, staurosporine, reduces VGVAPG binding affinity and abrogates the chemotactic response. We conclude that chemotactic responsiveness of M27 and H59 tumor cells is dependent upon high VGVAPG receptor affinity, which is strongly correlated to high levels of membrane-bound protein kinase C activity.
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PMID:Membrane-bound protein kinase C modulates receptor affinity and chemotactic responsiveness of Lewis lung carcinoma sublines to an elastin-derived peptide. 254 74

Two different types of interactions were described between cells and elastin: 1) the adhesion of cells to insoluble fibrous elastin and 2) the binding of soluble elastin derived peptides by cells. We could show that these are two different mechanisms underlying those two types of interactions. The adhesion of cells to elastin fibers is mediated by a cell-membrane complex with a 120 kD protein as the main adhesive compound which we proposed to designate elastonectin. Three other proteins (67, 60 and 45 kD) were coisolated with elastonectin. Adhesion of insoluble elastin to mesenchymal cells (fibroblasts, smooth muscle cells) is inducible with soluble elastin peptides. Highly metastatic Lewis lung carcinoma cells and human melanoma cells also exhibited the adhesion mechanism, but without a lag phase (constitutive adhesion). Binding curve (Scatchard plots) obtained with radiolabelled elastin peptides indicated the presence of high affinity elastin receptors on mesenchymal cells and human white blood cells (monocytes and PMNs) with Kd-s in the nanomolar range. The binding of elastin peptides triggers several cellular reactions such as chemotaxis, Ca++ influx (increase of Ca++i) and with mononuclear blood cells release of lytic enzymes and oxygen radicals. All these cells which exhibited elastin receptor function also exhibited adhesion although the two processes could be inhibited selectively. The receptor action is mediated by a G-protein-phospholipase-IP3 mechanism, involved in the increase of intracellular Ca++. It appears that this action also triggers the biosynthesis and membrane localization of elastonectin. The coupling of these 2 mechanisms between receptor and adhesion appears to be modified in transformed cells.
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PMID:Elastonectin and the elastin receptor. 255 Aug 76

Extracellular matrix proteins and their proteolytic products have been shown to modulate cell motility. We have found that certain tumor cells display a chemotactic response to degradation products of the matrix protein elastin, and to an elastin-derived peptide, VGVAPG. The hexapeptide VGVAPG is a particularly potent chemotaxin for lung-colonizing Lewis lung carcinoma cells (line M27), with 5 nM VGVAPG eliciting maximal chemotactic response when assayed in 48-microwell chemotaxis chambers. Binding of the elastin-derived peptide to M27 cells was studied using a tyrosinated analog (Y-VGVAPG) to allow iodination. Scatchard analysis of [125I]Y-VGVAPG binding to viable M27 tumor cells at both 37 and 4 degrees C indicates the presence of a single class of high affinity binding sites. The dissociation constant obtained from these studies (2.7 X 10(-9) M) is equivalent to the concentration of VGVAPG required for chemotactic activity. The receptor molecule was identified as an Mr 59,000 species by covalent cross-linking of the radiolabeled ligand to the M27 tumor cell surface and subsequent analysis of the cross-linked material by electrophoresis and size-exclusion high performance liquid chromatography. These results suggest that M27 tumor cell chemotaxis to VGVAPG is initiated by high affinity binding of the peptide to a distinct cell surface receptor.
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PMID:Identification of a tumor cell receptor for VGVAPG, an elastin-derived chemotactic peptide. 284 90

Recent in vitro studies and animal investigation indicate that plasma leucocyte elastase (PLE) can dissolve pulmonary structural proteins, such as elastin, and produce lesions in the lung similar to that seen in adult respiratory distress syndrome (ARDS) and emphysema. In contrast, heparin strongly inhibits PLE and protects elastin from elastolysis. On the basis of these findings, PLE levels were monitored in 24 patients with non-small cell lung carcinoma (NSCLC) undergoing lobectomy. Ten patients from Killingbeck Hospital (Group 1) received 5000 IU subcutaneous (s.c.) heparin commenced 2 h prior to surgery and continued at 8 h intervals until the patient was fully ambulatory. Fourteen patients from Bradford Royal Infirmary (Group 2) received no heparin as standard policy. There was no significant difference in pre-operative PLE levels between groups. The post operative PLE levels in both groups increased significantly (P < 0.02) on the first post operation day (POD). However, PLE levels of Group 2 were 2.5 to 5.3 times higher than those of Group 1 at each postoperative interval (first, third, and seventh POD) respectively (0.002 < P < 0.02). There was no difference in blood loss between groups (P = 0.17). These results indicate that post operative PLE activity is elevated in NSCLC patients following lobectomy and s.c. heparin administration as thromboprophylaxis may inhibit PLE activity post operatively without increasing blood loss. Therefore, heparin may have a role to play in protecting lung tissue against the pulmonary lesions caused by proteolytic activity of PLE, and theoretically reduce post-operative complications, such as ARDS or emphysema.
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PMID:Influence of heparin thromboprophylaxis on plasma leucocyte elastase levels following lobectomy for lung carcinoma. 873 46

Chemotaxis of the M27 variant of Lewis lung carcinoma to VGVAPG, an elastin-derived chemoattractant, is restricted by the basement membrane glycoprotein laminin. Laminin does not inhibit random migration of M27 tumor cells, nor does it inhibit M27 cell chemotaxis to a second chemotactic peptide, fMLF. The laminin sensitivity of VGVAPG chemotaxis appears to be independent of adhesion to laminin, and it is not due to competitive inhibition of VGVAPG receptor binding. Preincubation of M27 cells with laminin reduces the affinity of VGVAPG-specific binding without altering the number of available VGVAPG receptors. Reduced VGVAPG receptor affinity was previously observed: (a) a nonresponsive Lewis lung carcinoma variant, H59, expresses low-affinity VGVAPG binding and (b) maintenance of high-affinity VGVAPG receptors on M27 tumor cells is correlated with elevated protein kinase C activity in the particulate cell fraction (C. H. Blood and B. R. Zetter, J. Biol. Chem., 264: 10614-10620, 1989). The negative regulation of VGVAPG chemotaxis by laminin is consistent with these observations: laminin coordinately inhibits VGVAPG chemotaxis, reduces VGVAPG receptor affinity, and decreases protein kinase C activity in the particulate fraction of M27 cells. These parameters are not affected by a second glycoprotein, fibronectin. Anti-alpha 6 antibodies neutralize the laminin inhibition of both VGVAPG chemotaxis and protein kinase C activity. The results demonstrate that laminin can modulate cell behavior by regulating cell surface receptors for biologically active ligands.
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PMID:Laminin regulates a tumor cell chemotaxis receptor through the laminin-binding integrin subunit alpha 6. 838 19

Fetal bovine ligamentum nuchae fibroblasts express a 67-kDa, lactose-sensitive receptor that binds to VGVAPG, a repeated hexapeptide, of bovine and human tropoelastin. Recently, studies utilizing recombinant tropoelastin deletion proteins in conjunction with synthetic peptides identified a second fibroblast receptor binding site, PGAIPG. To evaluate whether PGAIPG is a ligand for elastin receptors of other cells, the chemotactic response of neutrophils and Lewis lung carcinoma tumor cells (M27) was studied. PGAIPG was chemotactic for both of these cells. The maximal response was seen at 10(-9) M. VGVAPG desensitized neutrophils to migration induced by PGAIPG confirming that PGAIPG was binding to the 67-kDa receptor. GAIPG, a chemokinetic peptide for fibroblasts, did not induce neutrophil migration. This corroborates the conclusion that GAIPG's mechanism of action in fibroblasts was independent of the 67-kDa receptor. Unlike fibroblasts and neutrophils, GAIPG was chemotactic for M27 tumor cells.
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PMID:PGAIPG, a repeated hexapeptide of bovine and human tropoelastin, is chemotactic for neutrophils and Lewis lung carcinoma cells. 839 88

The relationship between elastin degradation and emphysema is well known. Recent evidence suggests that a complex process of pulmonary remodeling occurs within the emphysematous lung. The aim of this study was to assess the extent of extracellular matrix remodeling in emphysema by ultrastructural examination of elastin and collagen templates in an animal model of emphysema and in human emphysematous lungs. Emphysema was induced in rats by the intratracheal administration of porcine pancreatic elastase. Human lung samples were obtained at surgical resection for lung carcinoma. Emphysema was confirmed morphometrically and quantitated using the mean linear intercept. Matching sections were treated with sodium hydroxide and formic acid to expose collagen and elastin templates, respectively. Scanning electron microscopy with stereo-pair imaging allowed three-dimensional visualization of the exposed templates. In emphysematous lungs from both sources, sheets of elastin were disrupted and perforated with multiple fenestrations. In elastase-induced emphysema, this disintegration was accompanied by a marked increase in thickness of collagen fibrils, which contrasted with the fine fibrillar network of control lungs. Similarly, a pattern of thickened fibrils and disorganized deposition of collagen was observed in human lungs. In conclusion, these findings support the novel concept of increased collagen deposition and aberrant collagen remodeling in the pathogenesis of emphysema.
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PMID:Elastin and collagen remodeling in emphysema. A scanning electron microscopy study. 886 87

An abnormal increase in proteolytic enzymes is thought to play a key role in pulmonary emphysema. Alveolar macrophage proteolytic enzymes include cathepsin L, cathepsin S, matrix metalloproteinase 1, 9, and 12, and a number of studies have implicated these proteinases in the alveolar destruction that characterizes emphysema. The aim of this study was to investigate cathepsin L, cathepsin S, matrix metalloproteinase 1, 9, and 12 mRNA expression in alveolar macrophages isolated from patients with varying degrees of emphysema and to correlate their level of expression with measures of emphysema. Alveolar macrophages were isolated from fifty-four patients who underwent surgical resection for lung carcinoma. The level of mRNA expression was determined using real-time PCR. Emphysema was quantified using high-resolution CT scans. Alveolar macrophages were also cultured for 24 h and 48 h; the effect of proinflammatory mediators and promoter polymorphisms on expression was analyzed. There was a significant correlation between matrix metalloproteinase 1 mRNA expression and emphysema. A higher level of matrix metalloproteinase 1 mRNA was associated with more severe emphysema. Matrix metalloproteinase 12 mRNA expression was increased in current smokers as compared with former smokers. Furthermore, there was a negative correlation between matrix metalloproteinase 12 gene expression and carbon monoxide diffusing capacity. The matrix metalloproteinase 9 C-1562T polymorphism significantly influenced matrix metalloproteinase 9 mRNA expression in alveolar macrophages. These results suggest that alveolar macrophage matrix metalloproteinase 1 and 12 may have a role in the lung structural changes leading to the development of emphysema. Furthermore, these data provide evidence to support the concept that multiple proteinases, causing both elastin and collagen degradation, are important in the pathogenesis of pulmonary emphysema.
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PMID:Matrix metalloproteinase expression by human alveolar macrophages in relation to emphysema. 1825 71

Non-small cell lung carcinoma (NSCLC) is a highly fibrotic malignancy, which exhibits a prominent desmoplastic stroma. Epithelial-mesenchymal transition (EMT) is one of the main modes of carcinoma invasion. We identified the stromal N-glycoprotein periostin by mass spectrometry of lung adenocarcinoma pleural effusions. Validation on a NSCLC tissue microarray and on tumor whole sections by immunohistochemistry indicated that periostin is strongly upregulated at the invasive front in both tumor epithelia and the surrounding matricellular space. In comparison to collagen, elastin and vimentin, periostin was found to be most closely associated with parameters of tumor progression such as larger size and higher stage, with the squamous cell histotype, and with decreased survival. An association with decreased survival was also found for the cell adhesion molecule L1CAM. In conclusion, enlargement of NSCLC tumors is associated with an increase of desmoplastic stroma and concomitant upregulation of EMT markers at the invasive front. The tumor-stroma interface may be a candidate topographic region for stroma- or EMT-directed therapy.
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PMID:[Epithelial-mesenchymal transition in non-small cell lung cancer]. 2308 26

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