Hydroxymethylated-P16 Allele Is Transcription-Inactive

Background: 5-Methylcytosine can be oxidized into 5-hydroxymethylcytosine (5hmC) in the genome. Methylated-P16 (P16M) can be oxidized into completely hydroxymethylated-P16 (P16H) in human cancer and precancer cells. The aim of this study is to investigate the biological function of P16H. Methods: True P16M and P16H were analyzed using bisulfite/TAB-based assays. A ZFP-based P16-specific dioxygenase (P16-TET) was constructed and used to induce P16H. Cell proliferation and migration were determined with a series of biological analyses. Results: (A) The 5hmCs were enriched in the antisense-strand of the P16 exon-1 in HCT116 and AGS cells containing methylated-P16 alleles (P16M). (B) P16-TET induced both P16H and P16 demethylation in H1299 and AGS cells and reactivated P16 expression. Notably, P16H was only detectable in the sorted P16-TET H1299 and AGS cells that did not show P16 expression. (C) P16-TET significantly inhibited the xenograft growth derived from H1299 cells in NOD-SCID mice, but did not inhibit the growth of P16-deleted A549 control cells. P16-siRNA knockdown could rescue P16-TET-inhibited cell migration. Conclusion: Hydroxymethylated P16 alleles are transcriptionally inactive.