Methylation of the DPYD promoter and dihydropyrimidine dehydrogenase deficiency.

To the Editor: In their important article, Ezzeldin et al. (1) report a positive association between dihydropyrimidine dehydrogenase (DPD) deficiency and the DPD gene (DPYD) promoter hypermethylation in peripheral blood mononuclear cells of studied individuals. The authors focused on methylation in the individuals with the DPD deficiency, but did not elaborate on the impact of hypermethylation of the DPYD promoter region on the DPD activity across individuals. We have recently completed a study of methylation of the DPYD promoter in both colon tumor and nonmalignant tissues from a cohort of colorectal cancer patients, all which were wild-type for known DPYD variants. We used pyrosequencing to evaluate the DPYD promoter methylation at positions 119 to 86, which contains six CpG loci. Our result showed that 10 out of 48 (21%) tumor DNA samples were methylated, and 4 of 48 (8%) normal DNAs were methylated at all six CpG loci in the region of the DPYD promoter mentioned above. DPYD promoter methylation was a dichotomous event, with little variation between the six loci. In the same cohort of patients, the overall RNA expression was nearly 3-fold lower in tumors than normal tissues in our previous study (2). DPYD RNA expression was not different between the DPYD methylated and unmethylated samples for both tumor and normal tissues. The majority of tumors with low DPYD RNA expression had no DPYD promoter methylation. This suggests that the effect of DPYD promoter methylation on DPD activity could be tissue-specific. There has been evidence (3) that hypermethylation of gene promoter may be correlated with an increased, rather than a decreased level of expression in some of the genes, and methylation at different regions of the gene sequence may have variable effects on gene expression. Especially, methylation within the transcribed sequences may not suppress gene expression in most of the cases (4). A specific pattern of DNA methylation within the promoter region has a distinctive influence on gene expression and is tissue-specific (3). In fact, Ezzeldin et al. highlight that in addition to the methylation mechanism in the DPD deficiency, a variety of polymorphisms in DPYD play an important role in the 5fluorouracil-induced toxicity (5). These important findings now need to be evaluated in patient cohorts to determine the clinical utility of DPYD methylation analysis.