Decreased DNA Methylations at the Progesterone Receptor Promoter A Induce Functional Progesterone Withdrawal in Human Parturition.

The functional interaction of progesterone receptor (PR) isoforms PRA and PRB regulates myometrial transition from the resting state to excitation-contraction to initiate parturition. However, the regulatory mechanisms responsible for maintenance and functional alteration of the PRA and PRB expression levels during human pregnancy and term labor, respectively, remain unknown. Therefore, this study was designed to investigate whether and how epigenetic DNA modifications, specifically methylations, at the PRs' promoter regions contribute to the differential expression of PRA and PRB in laboring term myometrium of humans. Comparative analysis of PRA and PRB messenger RNA (mRNA) expression levels and accompanying changes in their promoters' methylation status was carried out using human myometrial samples from women undergoing singleton, term deliveries by cesarean section, either in the absence of labor (designated as NIL for not-in-labor) or in active labor (designated as IL for in labor). The PRA gene expression was shown to be elevated significantly during labor, while PRB gene expression was unaltered, and this differential expression was accompanied by decreased DNA methylation at the PRA promoter and not at the PRB promoter. In addition, labor-related decreased mRNA expression of the DNA methyltransferase (DNMT) family members DNMT1 and DNMT3a was found, however whether the increased expression of DNMTs directly supports the functional withdrawal of progesterone needs further investigation. Collectively, these data indicate that DNA methylation might represent an important epigenetic mechanism of labor-related differential expression of PRs, thereby mediating the biological process of functional PR withdrawal at term for parturition.