SUMO maintains the chromatin environment of human induced pluripotent stem cells.

Pluripotent stem cells represent a powerful system to identify the mechanisms governing cell fate decisions during early mammalian development. Covalent attachment of the Small Ubiquitin Like Modifier (SUMO) to proteins has emerged as an important factor in stem cell maintenance. Here we show that SUMO is required to maintain stem cells in their pluripotent state and identify many chromatin-associated proteins as bona fide SUMO substrates in human induced pluripotent stem cells (hiPSCs). Loss of SUMO increases chromatin accessibility and expression of long non-coding RNAs and human endogenous retroviral elements, indicating a role for the SUMO modification of SETDB1 and a large TRIM28 centric network of zinc finger proteins in silencing of these elements. While most protein coding genes are unaffected, the Preferentially Expressed Antigen of Melanoma (PRAME) gene locus becomes more accessible and transcription is dramatically increased after inhibition of SUMO modification. When PRAME is silent, a peak of SUMO over the transcriptional start site overlaps with ChIP-seq peaks for cohesin, RNA pol II, CTCF and ZNF143, with the latter two heavily modified by SUMO. These associations suggest that silencing of the PRAME gene is maintained by the influence of SUMO on higher order chromatin structure. Our data indicate that SUMO modification plays an important role in hiPSCs by repressing genes that disrupt pluripotency networks or drive differentiation.