Literature DB >> 19435948

Concomitant promoter methylation of multiple genes in lung adenocarcinomas from current, former and never smokers.

Mathewos Tessema1, Yang Y Yu, Christine A Stidley, Emi O Machida, Kornel E Schuebel, Stephen B Baylin, Steven A Belinsky.   

Abstract

Aberrant promoter hypermethylation is one of the major mechanisms in carcinogenesis and some critical growth regulatory genes have shown commonality in methylation across solid tumors. Twenty-six genes, 14 identified through methylation in colon and breast cancers, were evaluated using primary lung adenocarcinomas (n = 175) from current, former and never smokers. Tumor specificity of methylation was validated through comparison of 14 lung cancer cell lines to normal human bronchial epithelial cells derived from bronchoscopy of 20 cancer-free smokers. Twenty-five genes were methylated in 11-81% of primary tumors. Prevalence for methylation of TNFRSF10C, BHLHB5 and BOLL was significantly higher in adenocarcinomas from never smokers than smokers. The relation between methylation of individual genes was examined using pairwise comparisons. A significant association was seen between 138 (42%) of the possible 325 pairwise comparisons. Most notably, methylation of MMP2, BHLHB4 or p16 was significantly associated with methylation of 16-19 other genes, thus predicting for a widespread methylation phenotype. Kaplan-Meier log-rank test and proportional hazard models identified a significant association between methylation of SULF2 (a pro-growth, -angiogenesis and -migration gene) and better patient survival (hazard ratio = 0.23). These results demonstrate a high degree of commonality for targeted silencing of genes between lung and other solid tumors and suggest that promoter hypermethylation in cancer is a highly co-ordinated event.

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Year:  2009        PMID: 19435948      PMCID: PMC2704285          DOI: 10.1093/carcin/bgp114

Source DB:  PubMed          Journal:  Carcinogenesis        ISSN: 0143-3334            Impact factor:   4.944


  45 in total

1.  Aberrant hypermethylation of the CHFR prophase checkpoint gene in human lung cancers.

Authors:  Kotaro Mizuno; Hirotaka Osada; Hiroyuki Konishi; Yoshio Tatematsu; Yasushi Yatabe; Tetsuya Mitsudomi; Yoshitaka Fujii; Takashi Takahashi
Journal:  Oncogene       Date:  2002-04-04       Impact factor: 9.867

2.  Frequent hypermethylation of the 5' CpG island of the mitotic stress checkpoint gene Chfr in colorectal and non-small cell lung cancer.

Authors:  Paul G Corn; Matthew K Summers; Franz Fogt; Arvind K Virmani; Adi F Gazdar; Thanos D Halazonetis; Wafik S El-Deiry
Journal:  Carcinogenesis       Date:  2003-01       Impact factor: 4.944

3.  Association of meiotic arrest with lack of BOULE protein expression in infertile men.

Authors:  C Marc Luetjens; Eugene Y Xu; Renee A Rejo Pera; Axel Kamischke; Eberhard Nieschlag; Jörg Gromoll
Journal:  J Clin Endocrinol Metab       Date:  2004-04       Impact factor: 5.958

4.  Mechanisms underlying lack of insulin-like growth factor-binding protein-3 expression in non-small-cell lung cancer.

Authors:  Yoon Soo Chang; Luo Wang; Young-Ah Suh; Li Mao; Saul J Karpen; Fadlo R Khuri; Waun Ki Hong; Ho-Young Lee
Journal:  Oncogene       Date:  2004-08-26       Impact factor: 9.867

5.  Promoter hypermethylation of the O6-methylguanine-DNA methyltransferase gene: more common in lung adenocarcinomas from never-smokers than smokers and associated with tumor progression.

Authors:  Leah C Pulling; Kevin K Divine; Donna M Klinge; Frank D Gilliland; Terri Kang; Ann G Schwartz; Therese J Bocklage; Steven A Belinsky
Journal:  Cancer Res       Date:  2003-08-15       Impact factor: 12.701

6.  Human BOULE gene rescues meiotic defects in infertile flies.

Authors:  Eugene Yujun Xu; Douglas F Lee; Ansgar Klebes; Paul J Turek; Tom B Kornberg; Renee A Reijo Pera
Journal:  Hum Mol Genet       Date:  2003-01-15       Impact factor: 6.150

7.  Aberrant methylation of trail decoy receptor genes is frequent in multiple tumor types.

Authors:  Narayan Shivapurkar; Shinichi Toyooka; Kiyomi O Toyooka; Jyotsna Reddy; Kuniharu Miyajima; Makoto Suzuki; Hisayuki Shigematsu; Takao Takahashi; Gunjan Parikh; Harvey I Pass; Preet M Chaudhary; Adi F Gazdar
Journal:  Int J Cancer       Date:  2004-05-01       Impact factor: 7.396

8.  Promoter methylation of the TSLC1 gene in advanced lung tumors and various cancer cell lines.

Authors:  Takeshi Fukami; Hiroshi Fukuhara; Masami Kuramochi; Tomoko Maruyama; Kana Isogai; Michiie Sakamoto; Shinichi Takamoto; Yoshinori Murakami
Journal:  Int J Cancer       Date:  2003-10-20       Impact factor: 7.396

9.  Carcinogen-induced gene promoter hypermethylation is mediated by DNMT1 and causal for transformation of immortalized bronchial epithelial cells.

Authors:  Leah A Damiani; Christin M Yingling; Shuguang Leng; Paul E Romo; Jun Nakamura; Steven A Belinsky
Journal:  Cancer Res       Date:  2008-11-01       Impact factor: 12.701

10.  Aberrant promoter methylation of the transcription factor genes PAX5 alpha and beta in human cancers.

Authors:  William A Palmisano; Kevin P Crume; Marcie J Grimes; Sally A Winters; Minoru Toyota; Manel Esteller; Nancy Joste; Stephen B Baylin; Steven A Belinsky
Journal:  Cancer Res       Date:  2003-08-01       Impact factor: 12.701
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  34 in total

1.  Methylated Genes in Sputum Among Older Smokers With Asthma.

Authors:  Akshay Sood; Hans Petersen; Christopher M Blanchette; Paula Meek; Maria A Picchi; Steven A Belinsky; Yohannes Tesfaigzi
Journal:  Chest       Date:  2012-08       Impact factor: 9.410

Review 2.  Epigenetics of lung cancer.

Authors:  Scott M Langevin; Robert A Kratzke; Karl T Kelsey
Journal:  Transl Res       Date:  2014-03-12       Impact factor: 7.012

3.  Combination therapy with vidaza and entinostat suppresses tumor growth and reprograms the epigenome in an orthotopic lung cancer model.

Authors:  Steven A Belinsky; Marcie J Grimes; Maria A Picchi; Hugh D Mitchell; Chris A Stidley; Yohannes Tesfaigzi; Meghan M Channell; Yanbin Liu; Robert A Casero; Stephen B Baylin; Mathew D Reed; Carmen S Tellez; Thomas H March
Journal:  Cancer Res       Date:  2011-01-11       Impact factor: 12.701

Review 4.  Maternal smoking as a model for environmental epigenetic changes affecting birthweight and fetal programming.

Authors:  Melissa A Suter; Amber M Anders; Kjersti M Aagaard
Journal:  Mol Hum Reprod       Date:  2012-11-08       Impact factor: 4.025

Review 5.  Biomarkers and the genetics of early neoplastic lesions.

Authors:  Sudhir Srivastava; William E Grizzle
Journal:  Cancer Biomark       Date:  2010       Impact factor: 4.388

6.  DNA-PKc deficiency drives pre-malignant transformation by reducing DNA repair capacity in concert with reprogramming the epigenome in human bronchial epithelial cells.

Authors:  Ivo Teneng; Maria A Picchi; Shuguang Leng; Christopher P Dagucon; Suresh Ramalingam; Carmen S Tellez; Steven A Belinsky
Journal:  DNA Repair (Amst)       Date:  2019-04-27

7.  MicroRNA-143 is downregulated in breast cancer and regulates DNA methyltransferases 3A in breast cancer cells.

Authors:  Enders K O Ng; Rufina Li; Vivian Y Shin; Jennifer M Siu; Edmond S K Ma; Ava Kwong
Journal:  Tumour Biol       Date:  2013-11-13

8.  GATA2 is epigenetically repressed in human and mouse lung tumors and is not requisite for survival of KRAS mutant lung cancer.

Authors:  Mathewos Tessema; Christin M Yingling; Amanda M Snider; Kieu Do; Daniel E Juri; Maria A Picchi; Xiequn Zhang; Yushi Liu; Shuguang Leng; Carmen S Tellez; Steven A Belinsky
Journal:  J Thorac Oncol       Date:  2014-06       Impact factor: 15.609

9.  Re-expression of CXCL14, a common target for epigenetic silencing in lung cancer, induces tumor necrosis.

Authors:  M Tessema; D M Klinge; C M Yingling; K Do; L Van Neste; S A Belinsky
Journal:  Oncogene       Date:  2010-06-21       Impact factor: 9.867

Review 10.  Smoking and microRNA dysregulation: a cancerous combination.

Authors:  Navneet Momi; Sukhwinder Kaur; Satyanarayana Rachagani; Apar K Ganti; Surinder K Batra
Journal:  Trends Mol Med       Date:  2013-11-13       Impact factor: 11.951
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