Vitamin C Induces Specific Demethylation of H3K9me2 in Mouse Embryonic Stem Cells via Kdm3a/b

Histone methylation patterns regulate gene expression and are highly dynamic during development. The erasure of histone methylation is carried out by histone demethylase enzymes. We had previously shown that vitamin C enhances the activity of Tet enzymes in embryonic stem (ES) cells, leading to DNA demethylation and activation of germline genes. We report here that vitamin C induces a remarkably specific demethylation of histone H3 lysine 9 dimethylation (H3K9me2) in ES cells. Vitamin C treatment reduces global levels of H3K9me2, but not other histone methylation marks analyzed, as measured by Western blot, immunofluorescence and mass spectrometry. Vitamin C leads to widespread loss of H3K9me2 at large chromosomal domains as well as gene promoters and repeat elements. Vitamin C-induced loss of H3K9me2 occurs rapidly within 24 hours and is reversible. Importantly, we found that the histone demethylases Kdm3a and Kdm3b are required for vitamin C-induced demethylation of H3K9me2. Moreover, we show that vitamin C-induced Kdm3a/b-mediated H3K9me2 demethylation and Tet-mediated DNA demethylation are independent processes. Lastly, we document Kdm3a/b are partially required for the up-regulation of germline genes by vitamin C. These results reveal a specific role for vitamin C in histone demethylation in ES cells, and document that DNA methylation and H3K9me2 cooperate to silence germline genes in pluripotent cells. ChIP for H3K9me2 was performed on untreated and vitamin C-treated ES cells. ChIP DNA and Input DNA were subjected to paired-end sequencing.