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)

New compounds derived from inhibitors of histone deacetylases (HDACs) have been synthesized and their antiproliferative activities towards non small lung cancer cell line H661 evaluated. Their design is based on hybrids between indanones to limit conformational mobility and other known HDAC inhibitors (SAHA, MS-275). The synthesis of these new derivatives was achieved by alkylation of appropriate indanones to introduce the side chain bearing a terminal ester group, the latter being a precursor of hydroxamic acid and aminobenzamide derivatives. These new analogues were found to be moderately active to inhibit H661 cell proliferation.
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PMID:Antiproliferative activities of a library of hybrids between indanones and HDAC inhibitor SAHA and MS-275 analogues. 1789 24

The cytokine and potent angiogenic factor vascular endothelial growth factor (VEGF) plays an important role in airway remodelling in various airway diseases such as idiopathic pulmonary fibrosis, pulmonary hypertension, lung cancer, asthma and chronic obstructive pulmonary disease (COPD). The effect of cigarette-smoking on VEGF expression, the modulatory role of extracellular signal-regulated kinase (ERK)-1,-2, p38mitogen-activated protein kinase (MAPK), histone acetylation and the anti-inflammatory effect of dexamethasone on TNFalpha-induced VEGF expression were examined in human airway smooth muscle cells (HASMC) of five non-smokers, 17 smokers without airflow limitation and 15 smokers with COPD. TNFalpha increased VEGF expression 5.4-fold and 4.0-fold in HASMC from non-smokers and smokers without airflow limitation, respectively, but only 2.5-fold in HASMC from smokers with COPD compared with non-stimulated HASMC. VEGF production was dependent on phosphorylation of ERK-1,-2 and p38MAPK, as was shown by examining the effects of PD 098059 (10 microM), an inhibitor of the upstream activator of MAPKkinase (MKK)-1, and SB 203580 (10 microM), an inhibitor of p38MAPK; there were no differences between non-smokers, smokers without airflow limitation and smokers with COPD in this respect. Dexamethasone (DEX; 10(-12)-10(-4) M) reduced TNFalpha-induced phosphorylation of ERK-1/-2 and prevented TNFalpha-induced VEGF generation without differences between non-smokers, smokers with and without COPD. There was an additional inhibitory effect of DEX (10(-12) M) on VEGF-release when PD 098059 was added. The basal and TNFalpha-induced acetylation status of the VEGF-promoter (chromatin immunoprecipitation [ChIP] assay) was increased in HASMC from smokers with COPD compared with smokers without airflow limitation and non-smokers. In comparison to non-stimulated HASMC, TNFalpha decreased the acetylation status of the VEGF-promoter by approximately 46% and approximately 43% in HASMC from non-smokers and smokers without COPD compared with approximately 68% in HASMC from smokers with COPD. The data suggest that HASMC express VEGF in response to TNFalpha and that this may be reduced in HASMC of smokers with COPD in a smoking-independent manner. VEGF expression is directly modulated by phosphorylation of ERK-1,-2 and p38MAPK and by histone acetylation and the acetylation status of the VEGF gene is increased in HASMC of smokers with COPD in a smoking-independent manner. TNFalpha reduced the acetylation status of the VEGF promoter in HASMC.
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PMID:Impaired TNFalpha-induced VEGF expression in human airway smooth muscle cells from smokers with COPD: role of MAPkinases and histone acetylation--effect of dexamethasone. 1790 65

To understand the mechanisms of PTEN inactivation, which is reported to be involved in tumor progression and drug resistance in lung cancer, we analyzed the expression levels of PTEN at mRNA and protein levels, along with the genetic and epigenetic status of the PTEN gene, in a panel of lung cancer cell lines. Western blot analysis showed that six out of 25 (24%) cell lines displayed low expression of PTEN protein. The level of PTEN mRNA correlated well with corresponding protein expression in each of these six cell lines. In two of the six cell lines genomic analysis revealed homozygous deletions of the PTEN gene. Another two of the six cell lines displayed hypermethylation of the PTEN gene promoter assessed by methylation-specific PCR. The levels of PTEN mRNA and protein expression in PC9/f9 and PC9/f14 cells, which are gefitinib-resistant derivatives of the gefitinib-sensitive cell line, PC9, were reduced compared to the parental line. After treatment with the demethylating agent 5-aza-2'deoxycytidine (5-AZA) and the histone deacetyltransferase (HDAC) inhibitor Trichostatin A (TSA), the expression levels of PTEN mRNA and protein in these four cell lines (PC9/f9, PC9/f14, PC10 and PC14) were actually restored. In summary, reduction in PTEN protein expression was regulated by histone deacetylation and hypermethylation of the gene promoter, as well as homozygous deletion. In addition, we demonstrated that the combination treatment of gefitinib and TSA induced significant growth inhibition in gefitinib-resistant PC9/f9 and PC9/f14 cells. These findings suggest that the combination of the epidermal growth factor receptor tyrosine kinase inhibitor gefitinib with the demethylating agent 5-AZA and the HDAC inhibitor TSA may be a useful strategy for the treatment of some lung cancers.
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PMID:PTEN inactivation in lung cancer cells and the effect of its recovery on treatment with epidermal growth factor receptor tyrosine kinase inhibitors. 1791 43

We have shown previously that wild-type p53 renders H460 human lung cancer cells more sensitive to apoptosis induction by environmental carcinogen benzo[a]pyrene-7,8-diol-9,10-epoxide (BPDE), but the mechanism of cell death is not fully understood. The present study provides insights into the mechanism by which BPDE causes apoptosis in H460 cells. Exposure of H460 cells to BPDE resulted in a concentration-dependent apoptotic cell death characterized by cleavage of poly(ADP-ribose)polymerase, DNA condensation, and apoptotic histone-associated DNA fragments released into the cytosol. The BPDE-mediated release of apoptotic histone-associated DNA fragments into the cytosol was also observed in a normal bronchial epithelial cell line BEAS-2B. The BPDE-induced apoptosis in H460 cells correlated with up-regulation of pro-apoptotic protein Bak, downregulation of anti-apoptotic Bcl-2 family members Bcl-2 and Bcl-xL, release of cytochrome c from mitochondria to the cytosol without a change in mitochondrial membrane potential or mitochondrial morphology (electron microscopy), and cleavage of caspase-8, -9, and -3. Ectopic expression of Bcl-2 failed to confer significant protection against BPDE-induced apoptosis in H460 cells. The SV40 immortalized mouse embryonic fibroblasts (MEFs) derived from Bak and Bax double knockout mice, but not Bid knockout mice, were significantly more resistant to BPDE-induced apoptosis compared with the MEFs derived from wild-type mice. The BPDE-induced apoptosis was partially but statistically significantly attenuated in the presence of specific inhibitors of caspase-9 (z-LEHDfmk) and caspase-8 (z-IETDfmk). In conclusion, the present study reveals that BPDE-induced apoptosis in H460 cells is associated with Bak induction and caspase activation but independent of Bcl-2.
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PMID:Benzo[a]pyrene-7,8-diol-9,10-epoxide causes caspase-mediated apoptosis in H460 human lung cancer cell line. 1798 67

VILIP-1, a member of the neuronal Ca++ sensor protein family, acts as a tumor suppressor gene in an experimental animal model by inhibiting cell proliferation, adhesion and invasiveness of squamous cell carcinoma cells. Western Blot analysis of human tumor cells showed that VILIP-1 expression was undetectable in several types of human tumor cells, including 11 out of 12 non-small cell lung carcinoma (NSCLC) cell lines. The down-regulation of VILIP-1 was due to loss of VILIP-1 mRNA transcripts. Rearrangements, large gene deletions or mutations were not found. Hypermethylation of the VILIP-1 promoter played an important role in gene silencing. In most VILIP-1-silent cells the VILIP-1 promoter was methylated. In vitro methylation of the VILIP-1 promoter reduced its activity in a promoter-reporter assay. Transcriptional activity of endogenous VILIP-1 promoter was recovered by treatment with 5'-aza-2'-deoxycytidine (5'-Aza-dC). Trichostatin A (TSA), a histone deacetylase inhibitor, potently induced VILIP-1 expression, indicating that histone deacetylation is an additional mechanism of VILIP-1 silencing. TSA increased histone H3 and H4 acetylation in the region of the VILIP-1 promoter. Furthermore, statistical analysis of expression and promoter methylation (n = 150 primary NSCLC samples) showed a significant relationship between promoter methylation and protein expression downregulation as well as between survival and decreased or absent VILIP-1 expression in lung cancer tissues (p<0.0001). VILIP-1 expression is silenced by promoter hypermethylation and histone deacetylation in aggressive NSCLC cell lines and primary tumors and its clinical evaluation could have a role as a predictor of short-term survival in lung cancer patients.
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PMID:VILIP-1 downregulation in non-small cell lung carcinomas: mechanisms and prediction of survival. 1830 74

Histone deacetylase inhibitor (HDACi) has been shown to demethylate the mammalian genome, which further strengthens the concept that DNA methylation and histone modifications interact in regulation of gene expression. Here, we report that an HDAC inhibitor, depsipeptide, exhibited significant demethylating activity on the promoters of several genes, including p16, SALL3, and GATA4 in human lung cancer cell lines H719 and H23, colon cancer cell line HT-29, and pancreatic cancer cell line PANC1. Although expression of DNA methyltransferase 1 (DNMT1) was not affected by depsipeptide, a decrease in binding of DNMT1 to the promoter of these genes played a dominant role in depsipeptide-induced demethylation and reactivation. Depsipeptide also suppressed expression of histone methyltransferases G9A and SUV39H1, which in turn resulted in a decrease of di- and trimethylated H3K9 around these genes' promoter. Furthermore, both loading of heterochromatin-associated protein 1 (HP1alpha and HP1beta) to methylated H3K9 and binding of DNMT1 to these genes' promoter were significantly reduced in depsipeptide-treated cells. Similar DNA demethylation was induced by another HDAC inhibitor, apicidin, but not by trichostatin A. Our data describe a novel mechanism of HDACi-mediated DNA demethylation via suppression of histone methyltransferases and reduced recruitment of HP1 and DNMT1 to the genes' promoter.
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PMID:Histone deacetylase inhibitor depsipeptide activates silenced genes through decreasing both CpG and H3K9 methylation on the promoter. 1833 7

Beta-catenin accumulation is often found in lung tumors, but only a few patients have mutations in beta-catenin gene. In addition, activated p53 downregulates beta-catenin. Therefore, we postulated that alteration of the degradation complex AXIN2 (axis inhibition protein 2) and betaTrCP (beta-transducin repeat-containing protein) and p53 regulation could result in beta-catenin protein accumulation in lung cancer. Using the immunohistochemical and sequencing analyses, we found that patients with beta-catenin accumulation without mutation were associated with patients with p53 overexpression and low AXIN2 expression (P=0.023 approximately 0.041). Alteration of AXIN2 was associated with poor survival in early stage patients (P=0.016). Low expression of AXIN2 and betaTrCP was significantly associated with promoter hypermethylation and histone deacetylation. Ectopic expression and knockdown of p53, AXIN2 and betaTrCP genes in A549 (p53 wild-type) and H1299 (p53 null) lung cancer cell lines showed cooperation between p53 and AXIN2/betaTrCP in the reduction of beta-catenin expression. Our clinical and cell model findings provide new evidence that epigenetic silencing of AXIN2/betaTrCP in the degradation complex and deregulation of p53-mediated control lead to wild-type beta-catenin nuclear accumulation in non-small cell lung cancer tumorigenesis. In addition, a high level of p53 downregulates the beta-catenin expression, but this effect is attenuated by non-functional AXIN2 or betaTrCP in lung cancer.
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PMID:Epigenetic silencing of AXIN2/betaTrCP and deregulation of p53-mediated control lead to wild-type beta-catenin nuclear accumulation in lung tumorigenesis. 1837 14

Lung cancer is the leading cause of cancer-related death and thus a major health problem. The efficiency of current treatment modalities for lung cancer depends strongly on the time of diagnosis, with better chances of survival if a tumor has been detected at an early stage. Thus, there is an urgent need for rapid and efficient early detection methods. Biomarkers represent a possible alternative to current, rather expensive, screening tools such as spiral computer tomography (CT), or may allow the identification of high risk groups for whom screening would be cost efficient. Although most lung cancers are the consequence of smoking, a substantial fraction of molecular-epidemiological studies point to high-prevalence, low-penetrance genetic polymorphisms as modifiers of environmental lung cancer risk. In the past the genomics field has also made significant advances in identifying genetic lesions that can now be harvested with the goal of identifying novel biomarkers for lung cancer. Furthermore, the importance of epigenetic changes that occur during lung cancer development has been reported, but has been underestimated in the past. Novel high-throughput, quantitative assays for the detection of DNA methylation or histone tail modifications are now applied, to search for alterations in the lung cancer genome and will identify novel cancer-related genes that may become attractive targets for treatment, provide new insight into the biology of lung cancers, and could also become useful biomarkers for the early detection of lung cancer in sputum, or may be used as prognostic markers. Thus, an integrative approach in lung cancer research combining epidemiological, genetic and epigenetic information becomes an important concept for the future.
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PMID:Lung cancer epigenetics and genetics. 1842 19

Histone modification is important for maintaining chromatin structure and function. Recently, histone acetylation has been shown to have a critical regulatory role in both transcription and DNA repair. We report here that expression of histone acetyltransferase (HAT) genes is associated with cisplatin resistance. We found that Tip60 is overexpressed in cisplatin-resistant cells. The expression of two other HAT genes, HAT1 and MYST1, did not differ between drug-sensitive and -resistant cells. Knockdown of Tip60 expression rendered cells sensitive to cisplatin but not to oxaliplatin, vincristine, and etoposide. Tip60 expression is significantly correlated with cisplatin sensitivity in human lung cancer cell lines. Interestingly, the promoter region of the Tip60 gene contains several E boxes, and its expression was regulated by the E-box binding circadian transcription factor Clock but not by other E-box binding transcription factors such as c-Myc, Twist, and USF1. Hyperacetylation of H3K14 and H4K16 was found in cisplatin-resistant cells. The microarray study reveals that several genes for DNA repair are down-regulated by the knockdown of Tip60 expression. Our data show that HAT gene expression is required for cisplatin resistance and suggest that Clock and Tip60 regulate not only transcription, but also DNA repair, through periodic histone acetylation.
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PMID:Tip60 is regulated by circadian transcription factor clock and is involved in cisplatin resistance. 1845 78

Molecularly targeted therapies have recently expanded the options available for patients with advanced non-small-cell lung cancer (NSCLC). Two cancer cell pathways in particular have been exploited, the epidermal growth factor receptor (EGFR) and the vascular endothelial growth factor (VEGF) pathway. The former has emerged as a key regulator of cancer cell proliferation and invasion, and several EGFR inhibitors have been developed. Erlotinib, a small-molecule inhibitor of the EGFR intracellular tyrosine kinase, has been found to improve survival compared with placebo in previously treated patients with advanced NSCLC and is Food and Drug Administration (FDA)-approved in this setting. Clinical and molecular predictors of response to erlotinib, such as a history of never smoking and EGFR gene mutation or amplification, are presently being evaluated to select patients for earlier therapy with erlotinib. Additional EGFR inhibitors are also being examined in randomized trials. The VEGF pathway, a key mediator of angiogenesis, has become an attractive target in multiple malignancies, including lung cancer. Bevacizumab, a monoclonal antibody to VEGF, received FDA approval for use in advanced non-squamous-cell NSCLC in 2006 after a phase III trial reported a significant survival advantage when bevacizumab was added to standard first-line chemotherapy. Small-molecule inhibitors of the VEGF receptor tyrosine kinase, such as sunitinib and sorafenib, have also shown promise in phase II trials and are being further investigated in phase III studies. Because preclinical data suggest a synergistic effect when VEGF and EGFR inhibitors are combined, the concurrent use of erlotinib and bevacizumab has additionally been evaluated in a phase II trial, with encouraging early results suggesting at least equivalent activity to standard salvage chemotherapy, with less toxicity. Several other novel agents are being examined, including inhibitors of histone deacteylases and the 26S proteosome. Research efforts are currently focusing on tailoring such therapies according to predictive clinical and molecular markers.
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PMID:Targeted therapy in advanced non-small-cell lung cancer. 1850 67

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