At least one of these genes was hypermethylated in 87% of the cases, suggesting that measurement of DNA methylation in plasma samples is feasible. Conclusion: The
panel of methylated genes indentified in the current study will be further tested in a large cohort of prospectively collected samples to determine their utility as early biomarkers of HCC. (HEPATOLOGY 2012;55:1799–1810) Hepatocellular carcinoma (HCC) is a complex disease and is likely the result Selisistat of the accumulation of both genetic and epigenetic aberrations. A number of mutations have been observed in HCC, most frequently in p53.1 Gene-expression studies have found profiles associated with survival, recurrence, and metastasis.2 These changes in gene expression may be related
to gene-specific DNA hyper- or hypomethylation, as has been reviewed elsewhere.3 Most previous methylation studies looked at one or a few genes at a time,4-11 although 105 genes were analyzed in one study.12 Though reasonably consistent results have been observed across studies, the exact frequencies of hypermethylation in tumor PF-01367338 chemical structure tissues differ. CDKN2A/INK4 (p16) is methylated in 30%-70% of HCCs.13-16 RASSF1A is methylated in up to 85% of HCCs,15, 17 GSTP1 in 50%-90%,18-20 and MGMT in 40%.21 Our studies also observed that frequent methylation of particular genes correlated with aflatoxin B1 (AFB1)-DNA adduct levels in liver tissues.15, 16, 18, 21 We found correlations between gene-specific hypermethylation in tumor tissue and plasma DNA using blood collected at the time of diagnosis.16 Using samples from a prospective ∼25,000-subject cohort, we found that methylation of three genes (e.g., RASSF1A, CDKN2A, and INK4B [p15]) in plasma DNA was predictive of later HCC development.22 These previous studies used a candidate gene approach. To identify additional differentially methylated genes with a genome-wide approach, we used Illumina Infinium HumanMethylation27K arrays (Illumina, Inc., San Diego, CA) to analyze 27,578 CpG sites covering 14,495 genes find more in paired HCC tumor and adjacent nontumor tissues. The aims of the current study were first
to identify DNA-methylation markers that significantly differentiate tumor tissue from adjacent nontumor tissue and then to test the feasibility of detecting the hypermethylated markers in plasma samples and their correlations with relevant liver tissues. Because plasma DNAs are mostly derived from necrotic or apoptotic cells with little released from white blood cells, it is appropriate to use plasma to study circulating tumor DNA.23 Recently, three other studies have reported DNA-methylation profiles in HCC tumor/adjacent tissues using Illumina arrays. Two studies used Illumina 1,500 Golden Gate arrays on five paired samples from Korea and 30 from France and the third used Illumina Human Methylation27K arrays on 12 samples from Germany.