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Abstract
In this study, we aimed to identify novel drivers that would be epigenetically altered through aberrant methylation in early-stage lung adenocarcinoma (LADC), regardless of the presence or absence of tobacco smoking-induced epigenetic field defects. Through genome-wide screening for aberrantly methylated CpG islands (CGIs) in 12 clinically uniform, stage-I LADC cases affecting six non-smokers and six smokers, we identified candidate tumor-suppressor genes (TSGs) inactivated by hypermethylation. Through systematic expression analyses of those candidates in panels of additional tumor samples and cell lines treated or not treated with 5-aza-deoxycitidine followed by validation analyses of cancer-specific silencing by CGI hypermethylation using a public database, we identified TRIM58 as the most prominent candidate for TSG. TRIM58 was robustly silenced by hypermethylation even in early-stage primary LADC, and the restoration of TRIM58 expression in LADC cell lines inhibited cell growth in vitro and in vivo in anchorage-dependent and -independent manners. Our findings suggest that aberrant inactivation of TRIM58 consequent to CGI hypermethylation might stimulate the early carcinogenesis of LADC regardless of smoking status; furthermore, TRIM58 methylation might be a possible early diagnostic and epigenetic therapeutic target in LADC.
Highlights
Lung adenocarcinoma (LADC) is the most predominant histologic subtype of lung cancer and one of the leading causes of cancer-related death worldwide [1, 2]
Because the number of hypermethylated CpG islands (CGIs) was much larger than that of hypomethylated CGIs (Figure 1B), we focused on the former group
This study is the first to demonstrate the functional significance of TRIM58 as a tumor suppressor genes (TSGs) in the context of tumorigenesis
Summary
Lung adenocarcinoma (LADC) is the most predominant histologic subtype of lung cancer and one of the leading causes of cancer-related death worldwide [1, 2]. Major improvements in treatment strategies have increased the short-term survival of patients with LADC, the impacts on long-term survival have remained modest [3]. Both late diagnosis and the scarcity of therapies that effectively achieve durable responses are important factors associated with poor outcomes. A better understanding of the molecular pathogenesis of LADC is needed to identify biomarkers that could be useful for early detection and to develop novel targeted therapies. Few genes that are altered by aberrant DNA methylation irrespective of etiology ( smoking status) and contribute to early LADC carcinogenesis have been identified
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