Tet2 regulates Sin3a recruitment at active enhancers in embryonic stem cells

Tet2 is a member of the Ten-eleven translocation (Tet1/2/3) family of enzymes and is expressed in embryonic stem cells (ESCs). It demethylates DNA (catalytic functions) and partners with chromatin modifiers (noncatalytic functions) to regulate genes. However, the significance of these functions in ESCs is less defined. Using Tet2 catalytic mutant (Tet2(m/m)) and knockout (Tet2(-/-)) ESCs, we identified Tet2 target genes regulated by its catalytic dependent versus independent roles. Tet2 was enriched at their active enhancers and promoters to demethylate them. We also identified the histone deacetylase component Sin3a as a Tet2 partner, co localizing at promoters and active enhancers. Tet2 deficiency diminished Sin3a at these regions. Tet2 and Sin3a co-occupancy overlapped with Tet1. Combined loss of Tet1/2, but not of their catalytic activities, reduced Sin3a at active enhancers. These findings establish Tet2 catalytic and noncatalytic functions as regulators of DNA demethylation and Sin3a recruitment at active enhancers in ESCs.

Automated summary

Tet2 is a member of the Ten-eleven translocation (Tet1/2/3) family of enzymes and plays a role in DNA demethylation and gene regulation in embryonic stem cells. Its catalytic and noncatalytic functions regulate DNA demethylation and Sin3a recruitment at active enhancers in ESCs.