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Genome Wide Methylome Alterations in Lung Cancer
Author(s) -
Nandita Mullapudi,
Bin Ye,
Masako Suzuki,
Melissa Fazzari,
Weiguo Han,
Miao Shi,
Gaby Marquardt,
Juan Lin,
Tao Wang,
Steven M. Keller,
Changcheng Zhu,
Joseph Locker,
Simon D. Spivack
Publication year - 2015
Publication title -
plos one
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.99
H-Index - 332
ISSN - 1932-6203
DOI - 10.1371/journal.pone.0143826
Subject(s) - dna methylation , biology , cpg site , methylation , adenocarcinoma , genetics , cancer research , lung cancer , transcriptome , cancer , epigenetics , gene , microbiology and biotechnology , gene expression , oncology , medicine
Aberrant cytosine 5-methylation underlies many deregulated elements of cancer. Among paired non-small cell lung cancers (NSCLC), we sought to profile DNA 5-methyl-cytosine features which may underlie genome-wide deregulation. In one of the more dense interrogations of the methylome, we sampled 1.2 million CpG sites from twenty-four NSCLC tumor (T)–non-tumor (NT) pairs using a methylation-sensitive restriction enzyme- based HELP-microarray assay. We found 225,350 differentially methylated (DM) sites in adenocarcinomas versus adjacent non-tumor tissue that vary in frequency across genomic compartment, particularly notable in gene bodies (GB; p<2.2E-16). Further, when DM was coupled to differential transcriptome (DE) in the same samples, 37,056 differential loci in adenocarcinoma emerged. Approximately 90% of the DM-DE relationships were non-canonical; for example, promoter DM associated with DE in the same direction. Of the canonical changes noted, promoter (PR) DM loci with reciprocal changes in expression in adenocarcinomas included HBEGF , AGER , PTPRM , DPT , CST1 , MELK; DM GB loci with concordant changes in expression included FOXM1 , FERMT1 , SLC7A5 , and FAP genes. IPA analyses showed adenocarcinoma-specific promoter DMxDE overlay identified familiar lung cancer nodes [ tP53 , Akt ] as well as less familiar nodes [ HBEGF , NQO1 , GRK5 , VWF , HPGD , CDH5 , CTNNAL1 , PTPN13 , DACH1 , SMAD6 , LAMA3 , AR ]. The unique findings from this study include the discovery of numerous candidate The unique findings from this study include the discovery of numerous candidate methylation sites in both PR and GB regions not previously identified in NSCLC, and many non-canonical relationships to gene expression. These DNA methylation features could potentially be developed as risk or diagnostic biomarkers, or as candidate targets for newer methylation locus-targeted preventive or therapeutic agents.

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