Background: Evidence suggests that global methylation levels in blood cell DNA may be a biomarker for cancer risk. To date, most studies have used genomic DNA isolated from blood or urine as a surrogate marker of global DNA methylation levels in bladder tumor tissue.
Methods: A subset of 50 bladder cancer cases was selected from the New England Bladder Cancer Case-Control Study. Genomic DNA was isolated from buffy coat, buccal cells, serum, and formalin-fixed, paraffin-embedded tissue for each participant. DNA methylation at four CpG sites within the long interspersed nucleotide element (LINE-1) repetitive element was quantified using pyrosequencing and expressed as a mean methylation level across sites.
Results: Overall, the mean percent (%) LINE-1 5-methylcytosine (%5MeC) level was highest in serum (80.47% ± 1.44%) and lowest in bladder tumor DNA (61.36% ± 12.74%) and levels varied significantly across tissue types (P = 0.001). An inverse association between LINE-1 mean %5MeC and tumor stage (P = 0.001) and grade (P = 0.002) was observed. A moderate correlation between patient-matched serum and buffy coat DNA LINE-1 %5MeC levels was found (r = 0.32, P = 0.03) but levels were uncorrelated among other matched genomic DNA samples.
Conclusions: The mean promoter LINE-1 %5MeC measurements were correlated between buffy coat and serum DNA samples. No correlation was observed between genomic DNA sources and tumor tissues; however a significant inverse association between tumor percent LINE-1 methylation and tumor stage/grade was found.
Impact: LINE-1 methylation measured in case blood DNA did not reflect that observed in bladder tumor tissue but may represent other factors associated with carcinogenesis.
©2012 AACR