CXXC5 stabilizes DNA methylation patterns in mouse embryonic stem cells.

Aims: Mammalian genomes encode 12 proteins that contain a CXXC zinc finger domain. Most members of this family are large multi-domain proteins that function in the control of DNA methylation and histone methylation patterns. CXXC5 is a smaller member of the family, along with its closest homologue CXXC4. These two proteins lack known catalytic domains. Here, we have characterized CXXC5 in mouse embryonic stem (ES) cells.

Materials & Methods: We used gene knockouts, RNA sequencing, and DNA methylation analysis by whole-genome bisulfite sequencing.

Results & Conclusions: We show that CXXC5 is a nuclear protein that interacts with 5-methylcytosine oxidases (TET proteins). Removal of CXXC5 from ES cells leads to very few changes in gene expression. CXXC5 extensively colocalizes with TET1 and TET2 at CpG islands. CXXC5 inactivation leads to a substantial reduction of DNA methylation levels that affects all genomic compartments including genic and intergenic regions and CpG island shores. We propose a model in which CXXC5 serves as an anchor for TET proteins at CpG islands. In the absence of CXXC5, the 5-methylcytosine oxidases become dislodged from CpG islands and are enabled to induce genome-scale DNA demethylation. Thus, CXXC5 serves as a stabilizer of DNA methylation patterns.