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

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

Metastasis is one of the most important factors responsible for the pathogenesis of small cell lung carcinoma (SCLC). SCLC cells express cadherins, which are homophilic cell-cell adhesion molecules that play an important role in the regulation of metastasis. We present the first evidence that altering the activity of the small GTP-binding protein Rho induces cadherin-mediated adhesion. ADP-ribosylation of Rho upon incubation or electroporation with recombinant C3 exoenzyme induces rapid aggregation and compaction of SCLC cells. Aggregation and compaction induced by C3 exoenzyme are diminished by removal of extracellular Ca2+ and by the HECD blocking antibody to E-cadherin but not by antibodies to other adhesion molecules. Altering the activity of Rho by ADP-ribosylation does not alter surface expression of E-cadherin, but it alters G actin content, as indicated by the binding of DNase I. Treatment with cytochalasin D also alters G actin content and increases aggregation and compaction of SCLC cells. These findings implicate Rho in the regulation of cadherin-mediated adhesion and identify Rho as a potential therapeutic target for the control of SCLC metastasis.
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PMID:Regulation of cadherin-mediated adhesion by the small GTP-binding protein Rho in small cell lung carcinoma cells. 913 23

While both nitric oxide synthase-2 (NOS-2) and low molecular weight GTPases, such as Ras and Rho, have been implicated in malignant transformation, the cross talk between these important proteins is ill understood. In this study we examined the ability of H-Ras, RhoA, RhoB and Rac1 to modulate cytokine-induced NOS2. In the normal human liver AKN-1 cell line and in the human non-small cell lung carcinoma cell line, A-549, the ability of the cytokines (INF-gamma, IL-1beta and TNF-alpha) to activate NOS-2 was blocked by activated L61-H-Ras whereas dominant negative N17-H-Ras enhanced NOS-2 activation. Consistent with this dominant negative Erk2 as well as a MEK inhibitor also enhanced cytokine activation of NOS-2. Furthermore, activated L63-RhoA blocked whereas activated V14-RhoB enhanced cytokine NOS-2 activation. Activated I115-Racl did not affect NOS-2 activation. These results demonstrate that the Ras/Erk and the Ras/RhoA pathways negatively regulate whereas RhoB enhances cytokine-induced NOS-2. This is the first demonstration that genes that promote malignant transformation such as Ras and RhoA inhibit, whereas genes with tumor suppressor activity such as RhoB enhance NOS2 induction.
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PMID:Ras and RhoA suppress whereas RhoB enhances cytokine-induced transcription of nitric oxide synthase-2 in human normal liver AKN-1 cells and lung cancer A-549 cells. 1164 77

The signaling pathway of Rho and Rho-associated coiled-coil forming protein kinase (ROCK) is involved in tumor metastasis. In the present study, we investigated the suppressive effect of a novel inhibitor of ROCK, Wf-536 [(+)-(R)-4-(1-Aminoethyl)-N-(4-pyridyl) benzamide monohydrochloride], on spontaneous tumor metastasis in vivo and analyzed its action on tumor cell motility and angiogenesis to clarify its action mechanism. Wf-536 (0.3-3 mg/kg/day) was found to inhibit Lewis lung carcinoma (LLC) metastasis and LLC-induced angiogenesis in orally treated mice; in vitro, it inhibited both invasion and migration by LLC cells and invasion, migration, and formation of capillary-like tubes on Matrigel by endothelial cells, without cytotoxicity or anti-proliferative action in either cell type. We conclude that Wf-536 has tumor anti-metastatic activity which may depend on inhibition of tumor motility and angiogenesis. The findings support its further clinical development as an anti-metastatic agent.
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PMID:Wf-536 prevents tumor metastasis by inhibiting both tumor motility and angiogenic actions. 1252 36

The two major forms of lung carcinoma, small cell lung carcinoma (SCLC) and non-small cell lung carcinoma (NSCLC), are clinically distinct, and are also differentiated by morphology and behavior in culture. SCLC cells have a greater metastatic potential than NSCLC cells in vivo, and exhibit a unique spherical morphology in culture due to their inability to adhere and spread on the substratum. Because the small GTPase RhoA affects metastatic properties and regulates cell morphology, we examined whether differences in RhoA expression and activity contribute to the distinct SCLC and NSCLC phenotypes. We found that the expression and GTPgammaS-dependent activation of RhoA are generally greater in SCLC cell lines (SCC-9, NCI-H69, NCI-H146, and NCI-H345) than in NSCLC cell lines (NCI-H23, NCI-H157, NCI-H520, and NCI-H522). The effects of inhibiting Rho-mediated signaling in these cells were investigated by transfecting the cells with cDNA coding for C3 exoenzyme, which ADP-ribosylates and inactivates Rho. Expression of C3 exoenzyme in SCLC cells induces cell-cell compaction, and causes NCI-H345 cells to adhere and spread on collagen IV. In contrast, expression of C3 exoenzyme in NSCLC cells does not induce detectable compaction, but induces cell spreading of NCI-H23 and NCI-H157 cells. Cell proliferation is diminished by Rho inactivation in the majority of the NSCLC cell lines, but not the SCLC cell lines. Expression of p21Cip1/WAF1 is also diminished by Rho inactivation in two of the SCLC cell lines, but is not significantly altered in the NSCLC lines. These results indicate that Rho-mediated signaling may regulate different events in SCLC and NSCLC cells, including adhesion of SCLC cells and proliferation of NSCLC cells.
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PMID:The small GTPase RhoA has greater expression in small cell lung carcinoma than in non-small cell lung carcinoma and contributes to their unique morphologies. 1257 23

Intracellular signaling through Rho-associated coiled-coil forming kinase (ROCK) is a target of antimetastatic therapy and is proposed to be involved in carcinogenesis. Focal adhesion kinase (FAK) functions downstream of ROCK and participates in anti-apoptotic signaling. We hypothesized that a specific ROCK inhibitor, Y-27632, may exert a pro-apoptotic effect in combination with anticancer agents through the suppression of FAK. A549 lung carcinoma cells were treated with Y-27632 and cisplatin. The simultaneous combination did not exert any additional effect, whereas sequential treatment, in which cisplatin followed Y-27632, enhanced cytotoxicity in concentration- and time-dependent manner. Y-27632 did not suppress tyrosine phosphorylation of FAK in A549-FAK, the active form of FAK expressing A549 cells, as observed in parental cells. Nevertheless, the pretreatment of A549-FAK cells with Y-27632 still enhanced cisplatin-induced cytotoxicity. It was concluded that the ROCK inhibitor enhances cisplatin-induced cytotoxicity through FAK suppression-independent mechanism(s). These observations raise the possibility that the inhibition of the ROCK-mediated signal enhances the effect of anti-cancer agents in addition to its antimetastatic property.
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PMID:Enhancement of cisplatin-induced cytotoxicity by ROCK inhibitor through suppression of focal adhesion kinase-independent mechanism in lung carcinoma cells. 1296 88

The growing knowledge of the tight connection between apoptosis and cancer has lead to an explosion of research revolving around apoptotic induction with chemotherapeutic agents and small molecule inhibitors. The chemotherapeutic agent paclitaxel (Taxol) activates mitogen-activated protein kinase kinase (MEK)/extracellular signal-regulated kinase and, combined with MEK inhibition, synergistically enhances apoptosis. Here we implement a proteomic approach using two-dimensional gels coupled with mass spectrometry to identify proteins altered with this coordinated combination treatment. We found that the combined treatment of paclitaxel and MEK inhibitor uniquely altered the proteins RS/DJ-1 (RNA-binding regulatory subunit/DJ-1 PARK7) and RhoGDIalpha (Rho GDP-dissociation inhibitor alpha). Functional proteomic analysis by exogenous expression or short interfering RNA targeting confirmed a role in survival and apoptosis for these proteins. Analysis of primary lung tumors with matched adjacent normal tissue confirmed RS/DJ-1 overexpression in non-small cell lung carcinoma. This study shows the power of proteomic profiling coupled with functional analysis for the discovery of novel molecular targets and potential cancer cell-specific biomarkers.
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PMID:Proteomic profiling drug-induced apoptosis in non-small cell lung carcinoma: identification of RS/DJ-1 and RhoGDIalpha. 1458 93

We previously reported that our cDNA microarray analysis of primary non-small cell lung carcinoma (NSCLC) could predict for patients at increased risk of cancer recurrence. From the result of this analysis, we selected 11 genes that were considered candidate prognostic marker genes and used the realtime reverse transcription polymerase chain reaction (RT-PCR) to investigate their expression in the same set of NSCLC cases used in the microarray study. Cluster analysis of the realtime RT-PCR data separated these patients into two groups with significantly different disease-free survivals (log-rank test, P < 0.017). In contrast, cluster analysis failed to confirm the prognostic significance of the realtime RT-PCR results for these 11 genes in a validation series of 92 NSCLC cases. In univariate analysis, hypoxia inducible factor 1alpha, Rho-GDP dissociation inhibitor (GDI) alpha (RhoGDI) and Citron/rho-interacting serine-threonine kinase 21 (Citron K21) were significant prognostic factors for disease-free survival in the entire cohort of 130 NSCLC patients, but none were significant in multivariate analysis. The results demonstrate that the prognostic significance of microarray (SAM) results can be partially validated using realtime RT-PCR, but secondary validation using larger and independent series of tumors is necessary to identify true prognostic marker genes.
Lung Cancer 2004 Nov
PMID:Validating the prognostic value of marker genes derived from a non-small cell lung cancer microarray study. 1547 68

The cyclin-dependent kinase inhibitor p21(WAF-1/CIP1/MDA-6) (p21) plays a key role in cell cycle inhibition and apoptosis, and is negatively regulated during cell proliferation. Extracellular matrices can affect cellular proliferation, but their effects on p21 have not been entirely elucidated. Herein, we explore the effects of the matrix glycoprotein fibronectin on p21 expression in human lung carcinoma cells. Our studies show that fibronectin stimulates cell proliferation, and that this effect is associated with suppression of p21 and stimulation of cyclin D1 mRNA and protein levels in human lung non-small lung cell carcinoma cells (H1838). In contrast, the matrix protein collagen type 1 had no effect. The suppression of p21 by fibronectin was blocked by inhibitors of the extracellular signal-regulated kinase pathway (PD98095), and the Rho-kinase pathway (Y-27632). Fibronectin stimulated the phosphorylation of Erk and increased Rho protein expression. To determine the molecular mechanism(s) responsible for the inhibitory effects of fibronectin on p21 expression, transient transfection assays were performed with cells expressing a wild-type human p21 promoter construct. In these cells, fibronectin reduced p21 gene promoter activity. Finally, electrophoresis mobility shift experiments revealed that fibronectin decreased nuclear Sp1 binding activity in the promoter region of the p21 gene promoter, and a Sp1 competing oligonucleotide inhibited the fibronectin response. Taken together, our results suggest that fibronectin stimulates lung cancer carcinoma cell growth by reducing the cyclin-dependent kinase inhibitor p21 and by inducing cyclin D1 gene expression. The reduction of p21 by fibronectin appears to be mediated through Erk and Rho-kinase signaling and DNA-protein interactions at the Sp1 site in the p21 gene promoter. These observations unveil a novel mechanism for p21 gene regulation by fibronectin in lung carcinoma cell growth that represents a potential target for therapy.
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PMID:Fibronectin stimulates human lung carcinoma cell proliferation by suppressing p21 gene expression via signals involving Erk and Rho kinase. 1569 66

Rho GTPases play an essential role in the control of various cellular functions. Accumulating evidence suggests that RhoA overexpression contributes to human cancer development. However, the activation states of RhoA are poorly defined in cancer cells. In this study, we examined both the expression levels and the activation states of RhoA in various lung cancer cells by quantitative real-time reverse transcriptase-polymerase chain reaction and in vivo Rho guanine nucleotide exchange assay, respectively. Moreover, we dissected the signaling pathway from the cell surface receptors to RhoA using a broad-spectrum G protein coupled receptor (GPCR) antagonist, [D-Arg1,D-Trp5,7,9,Leu11]Substance P (SP), and a recently reported Galphaq/11-selective inhibitor, YM-254890. We found that RhoA was expressed highly in large cell carcinoma cells but only weakly in adenocarcinoma cells. The activation states of RhoA are considerably different from its expression profiles. We found that four of six small cell lung carcinoma (SCLC) cell lines exhibited a moderate to high activation rate of RhoA. The addition of [D-Arg1,D-Trp5,7,9,Leu11]SP reduced RhoA activity by almost 60% in H69 SCLC cells. The addition of YM-254890 had no effect on RhoA activity in H69 cells. Our results suggest that RhoA is activated in various lung cancer cells independent of its expression levels, and the high activation state of RhoA in SCLC cells mainly depends on a neuroendocrine peptide autocrine system which signals through Galpha12 coupled GPCR to RhoA. This study provides new insights into RhoA signaling in lung cancer cells and may help in developing novel therapeutic strategies against lung cancer.
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PMID:Diverse activation states of RhoA in human lung cancer cells: contribution of G protein coupled receptors. 1727 73

Although the molecular function of sigma receptors has not been fully defined and the natural ligand(s) is still not known, there is increasing evidence that these receptors and their ligands might play a significant role in cancer biology. 4-(N-benzylpiperidin-4-yl)-4-iodobenzamide (4-IBP), a selective sigma1 agonist, has been used to investigate whether this compound is able to modify: 1) in vitro the migration and proliferation of human cancer cells; 2) in vitro the sensitivity of human glioblastoma cells to cytotoxic drugs; and 3) in vivo in orthotopic glioblastoma and non-small cell lung carcinoma (NSCLC) models the survival of mice co-administered cytotoxic agents. 4-IBP has revealed weak antiproliferative effects on human U373-MG glioblastoma and C32 melanoma cells but induced marked concentration-dependent decreases in the growth of human A549 NSCLC and PC3 prostate cancer cells. The compound was also significantly antimigratory in all four cancer cell lines. This may result, at least in U373-MG cells, from modifications to the actin cytoskeleton. 4-IBP modified the sensitivity of U373-MG cells in vitro to proapoptotic lomustin and proautophagic temozolomide, and markedly decreased the expression of two proteins involved in drug resistance: glucosylceramide synthase and Rho guanine nucleotide dissociation inhibitor. In vivo, 4-IBP increased the antitumor effects of temozolomide and irinotecan in immunodeficient mice that were orthotopically grafted with invasive cancer cells.
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PMID:4-IBP, a sigma1 receptor agonist, decreases the migration of human cancer cells, including glioblastoma cells, in vitro and sensitizes them in vitro and in vivo to cytotoxic insults of proapoptotic and proautophagic drugs. 1778 88


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