Epigenetic Reprogramming of Pericentromeric Satellite DNA in Premalignant and Malignant Lesions.

Repression of repetitive DNA is important for maintaining genomic stability, but is often perturbed in cancer. For instance, the megabase satellite domain at chromosome 1q12 is a common site of genetic rearrangements, such as translocations and deletions. Polycomb-group proteins can be observed as large subnuclear domains called polycomb bodies, the composition and cellular function of which has remained elusive. This study demonstrates that polycomb bodies are canonical subunits of the multiprotein polycomb repressive complex 1 deposited on 1q12 pericentromeric satellite DNA, which are normally maintained as constitutive heterochromatin by other mechanisms. Furthermore, the data reveal that polycomb bodies are exclusive to premalignant and malignant cells, being absent in normal cells. For instance, polycomb bodies are present in melanocytic cells of nevi and conserved in primary and metastatic melanomas. Deposition of polycomb on the 1q12 satellite DNA in melanoma development correlated with reduced DNA methylation levels. In agreement with this, inhibition of DNA methyltransferases, with the hypomethylating agent guadecitabine (SGI-110), was sufficient for polycomb body formation on pericentromeric satellites in primary melanocytes. This suggests that polycomb bodies form in cancer cells with global DNA demethylation to control the stability of pericentromeric satellite DNA. These results reveal a novel epigenetic perturbation specific to premalignant and malignant cells that may be used as an early diagnostic marker for detection of precancerous changes and a new therapeutic entry point.Implications: Pericentromeric satellite DNA is epigenetically reprogrammed into polycomb bodies as a premalignant event with implications for transcriptional activity and genomic stability. Mol Cancer Res; 16(3); 417-27. ©2018 AACR.

SSX2 is a novel DNA-binding protein that antagonizes polycomb group body formation and gene repression.

Polycomb group (PcG) complexes regulate cellular identity through epigenetic programming of chromatin. Here, we show that SSX2, a germline-specific protein ectopically expressed in melanoma and other types of human cancers, is a chromatin-associated protein that antagonizes BMI1 and EZH2 PcG body formation and derepresses PcG target genes. SSX2 further negatively regulates the level of the PcG-associated histone mark H3K27me3 in melanoma cells, and there is a clear inverse correlation between SSX2/3 expression and H3K27me3 in spermatogenesis. However, SSX2 does not affect the overall composition and stability of PcG complexes, and there is no direct concordance between SSX2 and BMI1/H3K27me3 presence at regulated genes. This suggests that SSX2 antagonizes PcG function through an indirect mechanism, such as modulation of chromatin structure. SSX2 binds double-stranded DNA in a sequence non-specific manner in agreement with the observed widespread association with chromatin. Our results implicate SSX2 in regulation of chromatin structure and function.