Abstract 2762: Common DNA methylation patterns in cancer and placental cells involved in migration and invasion, immune escape, and angiogenesis induction

Abstract

Abstract Identifying common patterns of regulation in cancer and placental cells might shed new light on cellular programs allowing aggressive tumor development. Indeed, as it has been described for the first time more than a century ago, cancer and placental cells (trophoblasts) share astonishingly similar phenotypes : migration and invasion, immune escape, and angiogenesis induction. These common phenotypes, relying on common genomic sequences and transcriptomic profiles, may result from a shared epigenomic regulation program. This might be especially true for tumor cells leading eventually to metastasis and cytotrophoblasts (a trophoblasts subset) during placental implantation at the beginning of pregnancy. In order to investigate such common epigenomic patterns, we carried out comparisons of DNA methylation in cancer and placental cell genomes. This study involved: cancer samples (primary tumor vs. normal tissue) across various tissues (including breast, colon, liver, lung, prostate, thyroid, uterus), on one hand; and placenta samples (early vs. late term) either heterogeneous (chorionic villi) or homogenous (ex vivo cytotrophoblasts), on the other hand. Cancer data were data downloaded from The Cancer Genome Atlas web portal. Placenta data were downloaded from the Gene Expression Omnibus web portal. In addition, our group generated original data from ex vivo cytotrophoblasts samples. All data were generated on the Illumina Infinium 450K array. Data analysis was carried out thanks to computational methods for epigenomics recently described. This first direct comparison of cancer and placental cells epigenomes, leveraging both published data and original data, led to the identification of large hypomethylated blocks common to cancer and placental cells. Such common patterns have recently been described as a universal defining epigenetic alteration in human solid tumors. These megabase-scale DNA methylation marks differentiate primary tumors from normal tissues. Likewise, they differentiate early term placentas from late term placentas. Moreover, genes belonging to genomic regions displaying common large hypomethylated blocks overlapping in cancers and placentas are enriched for pathways involved in migration and invasion, immune escape, and angiogenesis induction. Common DNA methylation patterns in cancer and placental cells identified in this pilot study might contribute to the epigenomic regulation of cellular programs allowing aggressive tumor development. Further analyses of these common patterns, as well as analyses of differences in cancer and placental cell epigenomes, could eventually lead to the identification of critical epigenomic switches that prevent healthy placentas to degenerate into tumors, while they allow aggressive tumors to develop. Ultimately, such epigenomic switches could also represent innovative targets in oncology. Citation Format: Akpeli V. Nordor, Sophie Richon, Thierry Fournier, Dominique Bellet, Virginie Dangles-Marie, Martin J. Aryee. Common DNA methylation patterns in cancer and placental cells involved in migration and invasion, immune escape, and angiogenesis induction. [abstract]. In: Proceedings of the 107th Annual Meeting of the American Association for Cancer Research; 2016 Apr 16-20; New Orleans, LA. Philadelphia (PA): AACR; Cancer Res 2016;76(14 Suppl):Abstract nr 2762.