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:C0596263 (carcinogenesis)
64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Lung cancer, a leading cause of cancer deaths, consists of two major groups: small cell lung cancer (SCLC) and nonsmall cell lung cancer (NSCLC) with the NSCLC accounting for approximately 75% cases of lung cancers. It has been suggested that molecular changes including overexpression of oncogenes and decreased expression of tumor suppressor genes are responsible for lung carcinogenesis. In this study, we analyzed protein profiles of four different human NSCLC cell lines compared with normal human bronchial epithelial cells using two-dimensional PAGE and MALDI-TOF mass spectrometry. We identified 12 protein spots with different expressions between the normal and cancer cells. Of these proteins, vimentin, cytokeratin 8, YB-1, PCNA, Nm23, hnRNP A2/B1, and HSP90beta were known to be up-regulated in lung cancers, which is consistent with the current study. We also found that the expression of M-type pyruvate kinase is altered in NSCLC likely due to changes in translational control and/or differential phosphorylation of the protein. Interestingly, the expression of the tumor suppressor gene 14-3-3sigma is down-regulated while that of the proto-oncogene TEF1delta is up-regulated in NSCLC cells. On the basis of these observations and previous studies, we propose that the altered expression of 14-3-3sigma and TEF1delta may be involved in lung carcinogenesis.
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PMID:Tumor suppressor gene 14-3-3sigma is down-regulated whereas the proto-oncogene translation elongation factor 1delta is up-regulated in non-small cell lung cancers as identified by proteomic profiling. 1535 25

Deregulation of cell cycle inhibition contributes to human carcinogenesis. Reprimo (for stop/repress) is a newly identified mediator of the p53-mediated cell cycle arrest at the G2 phase. Loss of Reprimo expression due to promoter methylation was recently identified in pancreatic cancer. We examined Reprimo expression by reverse transcription PCR (RT-PCR) and aberrant methylation of Reprimo by methylation specific PCR (MSP) in lung cancer cell lines (n=35) and primary tumors (n=167). We also correlated the p53 gene status with Reprimo methylation in cell lines. Aberrant methylation of Reprimo was present in 32% (six of 19) of non-small cell lung cancer (NSCLC) cell lines, 6% (one of 16) of small cell lung cancer (SCLC) cell lines, and 31% (51 of 167) of primary tumors. Methylation was absent in normal lymphocytes and was rare in corresponding nonmalignant lung tissues (7%; four of 57). Overall concordance between loss of expression and aberrant methylation of Reprimo was 94% (33 of 35) in cell lines. Reprimo expression was restored after treatment with the demethylating agent 5-aza-2'-deoxycytidine in all five-cell lines tested that lacked Reprimo expression. There was no significant correlation between p53 gene status and Reprimo methylation in cell lines. These data indicate that Reprimo methylation is frequent in lung cancers and occurs independently of p53 status. Methylation of Reprimo may play a role in the pathogenesis of lung cancers.
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PMID:Aberrant methylation of Reprimo in lung cancer. 2541 16

Retrospective studies have shown that patients with tobacco-related cancers who continue to smoke after their diagnoses have lower response rates and shorter median survival compared with patients who stop smoking. To provide insight into the biologic basis for these clinical observations, we tested whether two tobacco components, nicotine or the tobacco-specific carcinogen, 4-(methylnitrosoamino)-1-(3-pyridyl)-1-butanone (NNK), could activate the Akt pathway and increase lung cancer cell proliferation and survival. Nicotine or NNK, rapidly and potently, activated Akt in non-small cell lung cancer (NSCLC) or small cell lung cancer (SCLC) cells. Nicotinic activation of Akt increased phosphorylation of multiple downstream substrates of Akt in a time-dependent manner, including GSK-3, FKHR, tuberin, mTOR and S6K1. Since nicotine or NNK bind to cell surface nicotinic acetylcholine receptors (nAchR), we used RT-PCR to assess expression of nine alpha and three beta nAchR subunits in five NSCLC cell lines and two types of primary lung epithelial cells. NSCLC cells express multiple nAchR subunits in a cell line-specific manner. Agonists of alpha3/alpha4 or alpha7 subunits activated Akt in a time-dependent manner, suggesting that tobacco components utilize these subunits to activate Akt. Cellular outcomes after nicotine or NNK administration were also assessed. Nicotine or NNK increased proliferation of NSCLC cells in an Akt-dependent manner that was closely linked with changes in cyclin D1 expression. Despite similar induction of proliferation, only nicotine decreased apoptosis caused by serum deprivation and/or chemotherapy. Protection conferred by nicotine was NFkappaB-dependent. Collectively, these results identify tobacco component-induced, Akt-dependent proliferation and NFkappaB-dependent survival as cellular processes that could underlie the detrimental effects of smoking in cancer patients.
Carcinogenesis 2005 Jul
PMID:Tobacco components stimulate Akt-dependent proliferation and NFkappaB-dependent survival in lung cancer cells. 1579 May 91

The upstream stimulatory factors USF-1 and USF-2 dimerize to regulate transcription through E-box motifs in target genes. Although widely expressed, they can mediate tissue-specific transcription and we previously reported that USF-2 can enhance transcription of arginine vasopressin, a neuropeptide growth factor in small cell lung cancer. Here we determine the expression and role of USF-2 in lung cancer subtypes and examine USF-2 distribution in the bronchial epithelium. For a panel of 12 cell lines and 10 frozen human tumour samples, immunoblotting demonstrated that USF-2 expression was more frequent and abundant in small cell lung cancer than in non-small cell lung cancer. An immunohistochemical study of 108 formalin-fixed and paraffin-embedded human samples was undertaken to localize USF-2 expression and included 44 small cell and 32 non-small cell lung cancers, and 32 samples with bronchial dysplasia. USF-2 was restricted to ciliated cells in normal bronchial epithelium, but was more strongly expressed in dysplastic epithelium (72%) and certain lung cancer types, including small cell lung cancer (71%), squamous cell carcinoma (69%) and a large cell neuroendocrine carcinoma, but was less common in adenocarcinoma (11%). In a small series, expression was assessed adjacent to positively staining tumours; in phenotypically normal bronchial tissues, USF-2 was more highly expressed at 1 cm than at 5 cm from the tumour. Transient USF-2 overexpression in non-small cell lung cancer cell lines significantly stimulated in vitro cell proliferation; this response was most apparent for NCI-H460 (p < 0.005), reducing the mean cell doubling time from 19 to 16 h. Dominant-negative USF-2 mutants had no significant effect on cell growth. Taken together, these data suggest that USF-2 represents a relatively early molecular marker for the development of bronchial dysplasia and non-adenocarcinoma lung cancer. USF may also play a role in bronchial carcinogenesis, perhaps through promoting cell proliferation, although the genes through which this is regulated remain to be determined.
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PMID:Roles for USF-2 in lung cancer proliferation and bronchial carcinogenesis. 1585 26

FBN2, a large modular extracellular matrix glycoprotein, is known to be a key component of human elastic fiber. A loss of FBN2 expression due to promoter methylation was recently identified in pancreatic cancer. We examined FBN2 expression by reverse transcription PCR and aberrant methylation of FBN2 by methylation specific PCR in lung cancer cell lines. Aberrant methylation of FBN2 was present in 55% (6 of 11) of non-small cell lung cancer (NSCLC) cell lines, but it absent in small cell lung cancer cell lines. The concordance between loss of expression and aberrant methylation of FBN2 was 88% (14 of 16) in the cell lines. FBN2 expression was restored after treatment with the demethylating agent, 5-aza-2'-deoxycytidine in all six cell lines tested that lacked FBN2 expression. Among primary NSCLC, 49% (62/126) of cases had FBN2 methylation, but only 7% (5/69) of the corresponding nonmalignant lung tissues had it. Although FBN2 methylation was detected even in patients with early stage disease, it occurred frequently in large tumors (p=0.022), with nodal metastasis (p=0.037), or with advanced stages of NSCLC (p=0.014). Methylation and silencing of FBN2 in tumor cells may play an important role in carcinogenesis, invasion, and metastasis of NSCLC.
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PMID:Aberrant methylation of FBN2 in human non-small cell lung cancer. 1595 Oct 52

Aberrant methylation of promoter CpG that causes silencing of tumor suppressor genes (TSGs) may play a key role in the carcinogenesis of many cancer types. RASSF1A, regarded as a TSG, has been extensively studied in lung cancer and other malignant tumors, whereas RASGRF2 has only been reported to possibly play a role in the pathogenesis of pancreatic cancer cell lines. The aims of our study were to i) determine the methylation profile of RASGRF2 and ii) compare the methylation profiles of RASGRF2 with RASSF1A in lung cancer. We examined RASGRF2 expression by reverse transcription PCR and aberrant methylation of RASGRF2 by methylation-specific PCR in lung cancer cell lines. Loss of RASGRF2 expression was presented in 36% lung cancer cell lines while aberrant methylation of RASGRF2 was present in 30% (3/10) non-small cell lung cancer (NSCLC) cell lines and in 25% (1/4) small cell lung cancer (SCLC) cell lines. The concordance between loss of expression and aberrant methylation of RASGRF2 was 86% (12/14). RASGRF2 expression was restored after treatment with the demethylating agent, 5-aza-2'-deoxycytidine in all four cell lines tested that downregulated RASGRF2 expression. Among primary NSCLC, RASGRF2 and RASSF1A methylation was observed in 34% (39/114) and 39% (44/114) of cases respectively, while it was observed in only 7% (4/57) and none of the corresponding non-malignant lung tissue. There is no correlation between RASGRF2 and RASSF1A methylation status. Both RASGRF2 and RASSF1A methylation did not associate with clinical characteristics. Frequent methylation and silencing of RASGRF2 in tumor cells may play an important role, different from that of RASSF1A, in the carcinogenesis of NSCLC.
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PMID:Aberrant methylation of RASGRF2 and RASSF1A in human non-small cell lung cancer. 1659 98

Cancers of the lung and pleura remain a major cause of cancer deaths, both in men and women, with strong causal relationships between cigarette smoking and asbestos fibres, and deaths from lung cancer and mesothelioma, respectively. The poor survival rates for small cell lung cancer and mesotheliomas argue powerfully for greater understanding of mechanisms of carcinogenesis, genetic abnormalities and the role of tumour suppressor genes and proteins in carcinomas of the lung and pleura. Despite progress in the development of newer cytotoxic drugs, lung cancer remains a lethal disease. Chemotherapy and radiotherapy produce only a modest improvement in survival of patients with advanced disease. Increased knowledge of molecular mechanisms of lung cancer and apoptosis are providing opportunities for treating lung cancer with new classes of molecularly targeted drugs. These novel therapies should target the abnormalities in lung cancer by maximizing the effects of anti-tumour molecules, with minimal side effects on normal tissues. Of the several molecular targets, those receiving attention are p53 gene replacement, Bcl-2 downregulation, apoptosis by induced by TNF, the FAS/CD95 receptor system and TRAIL, and inhibition of NF-kappaB. Although several studies have shown benefits, there is a need for well planned clinical trials of drugs that target the apoptotic cascade. Stem cell therapy and gene replacement offer the prospect of novel approaches that are likely in the near future to play a definitive role in the treatment of advanced lung cancer. Furthermore, with their apparent minimal toxicity to normal tissues, the newer molecular targets represent attractive investigational directions for innovative cancer therapies.
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PMID:Molecular genetics and mechanisms of apoptosis in carcinomas of the lung and pleura: therapeutic targets. 1803 30

Magnesium (Mg) is required for maintenance of genomic stability; however, data on the relationship between dietary Mg intake and lung cancer are lacking. In an ongoing lung cancer case-control study, we identified 1139 cases and 1210 matched healthy controls with data on both diet and DNA repair capacity (DRC). Dietary intake was assessed using a modified Block-NCI food frequency questionnaire and DRC was measured using the host-cell reactivation assay to assess repair in lymphocyte cultures. After adjustment for potential confounding factors including DRC, the odds ratios (ORs) and 95% confidence intervals (CIs) for lung cancer with increasing quartiles of dietary Mg intake were 1.0, 0.83 (0.66-1.05), 0.64 (0.50-0.83) and 0.47 (0.36-0.61), respectively, for all subjects (P-trend < 0.0001). Similar results were observed by histology and clinical stage of lung cancer. Low dietary Mg intake was associated with poorer DRC and increased risk of lung cancer. In joint effects analyses, compared with those with high dietary Mg intake and proficient DRC, the OR (95% CI) for lung cancer in the presence of both low dietary Mg and suboptimal DRC was 2.36 (1.83-3.04). Similar results were observed for men and women. The effects were more pronounced among older subjects (>60 years), current or heavier smokers, drinkers, those with a family history of cancer in first-degree relatives, small cell lung cancer and late-stage disease. These intriguing results need to be confirmed in prospective studies.
Carcinogenesis 2008 May
PMID:Dietary magnesium and DNA repair capacity as risk factors for lung cancer. 1844 87

The genotoxic effects of tobacco carcinogens have long been recognized, the contribution of tobacco components to cancerogenesis by cell surface receptor signaling is relatively unexplored. Nicotine, the principal tobacco alkaloid, acts through nicotinic acetylcholine receptor (nAChR). nAChR are functionally present on human lung airway epithelial cells, on lung carcinoma [SCLC and NSCLC] and on mesothelioma and build a part of an autocrine-proliferative network that facilitates the growth of neoplastic cells. Different nAChR subunit gene expression patterns are expressed between NSCLC from smokers and non-smokers. Although there is no evidence that nicotine itself could induce cancer, different studies established that nicotine promotes in vivo the growth of cancer cells and the proliferation of endothelial cells suggesting that nicotine might contribute to the progression of tumors already initiated. These observations led to the hypothesis that nicotine might be playing a direct role in the promotion and progression of human lung cancers. Here, we briefly overview the role and the effects of nicotine on pulmonary cell growth and physiology and its feasible implications in lung carcinogenesis.
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PMID:Multiple roles of nicotine on cell proliferation and inhibition of apoptosis: implications on lung carcinogenesis. 1849 23

Garlic-derived organosulfur compounds (OSCs) are highly effective in affording protection against chemically induced pulmonary carcinogenesis in animal models. We now demonstrate that garlic constituent diallyl trisulfide (DATS) suppresses viability of cultured human lung cancer cell lines H358 (anon-small cell lung cancer cell line) and H460 (a large cell lung cancer cell line) by causing G2-M phase cell cycle arrest and apoptotic cell death. On the other hand, a normal human bronchial epithelial cell line BEAS-2B was significantly more resistant to growth inhibition and apoptosis induction by DATS compared with lung cancer cells. We also found that even a subtle change in the OSC structure could have a significant impact on its biological activity. For example, DATS was significantly more effective than either diallyl sulfide or diallyl disulfide against proliferation of lung cancer cells. The DATS-mediated G2-M phase cell cycle arrest was explained by down-regulation of cyclin-dependent kinase 1 (Cdk1) and cell division cycle 25C protein expression leading to accumulation of Tyr15 phosphorylated (inactive) Cdk1. The DATS-induced apoptosis correlated with induction of pro-apoptotic proteins Bax, Bak and BID, and a decrease in the expression of anti-apoptotic proteins Bcl-2 and Bcl-xL in lung cancer cells but not in BEAS-2B. Knockdown of Bax and Bak proteins conferred significant protection against DATS-induced apoptotic cytoplasmic histone-associated DNA fragmentation. On the other hand, BID protein was dispensable for DATS-induced apoptosis. In conclusion, the present study indicates that Bax and Bak proteins are critical targets of DATS-induced apoptosis in human lung cancer cells.
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PMID:Diallyl trisulfide selectively causes Bax- and Bak-mediated apoptosis in human lung cancer cells. 1880 Mar 51


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