DNA hydroxymethylation is involved in many biological processes, including nuclear reprogramming, embryonic development, and tumor suppression. In this study, we report that an anticancer agent, nutlin-3, selectively stimulates global DNA hydroxymethylation in TP53 wild-type cancer cells as manifested by the elevation of 5-hydroxymethylcytosine (5hmC) in genomic DNA. In contrast, nutlin 3 fails to enhance DNA hydroxymethylation in TP53-mutated cancer cells. Consistently, nutlin-3 as a MDM2 antagonist only activates wild-type but not mutated TP53. Furthermore, nutlin-3 does not alter the expression of TET1 but slightly reduces the expression of TET2 and TET3 proteins. These TET family proteins are responsible for converting 5-methylcytosine (5mC) to 5hmC. Interestingly, TET1 knockdown could significantly block the nutlin-3-induced DNA hydroxymethylation as well as TP53 and P21 activation. Immunoprecipitation analysis supports that p53 strongly interacts with TET1 proteins. These results suggest that nutlin-3 activates TP53 and promotes p53-TET1 interaction. As positive feedback, the p53-TET1 interaction further enhances p53 activation and promotes apoptosis. Collectively, we demonstrate that nutlin-3 stimulates DNA hydroxymethylation and apoptosis via a positive feedback mechanism.