Mouse double minute 2 (MDM2) is an E3 ubiquitin ligase which effectively degrades tumor suppressor p53. In the past two decades, many MDM2 inhibitors that disrupt the MDM2-p53 binding have been discovered and developed. Given that the MDM2-p53 forms auto-regulatory loop in which p53 is a substrate of MDM2 for targeted degradation, while MDM2 is a p53 target for transcriptional upregulation, these MDM2 inhibitors have limited efficacy due to p53 degradation by accumulated MDM2 upon rapid in vivo clearance of the MDM2 inhibitors. Fortunately, proteolysis targeting chimeras (PROTACs), a novel therapeutic strategy, overcome the limitations of MDM2 inhibitors. Some of MDM2 inhibitors developed in the past two decades have been used in PROTAC technology for two applications: 1) as component 1 to bind with endogenous MDM2 as a target for PROTAC-based degradation of MDM2; and 2) as component 2 to bind with endogenous MDM2 as a PROTAC E3 ligand for PROTAC-based degradation of other oncogenic proteins. In this review, we summarize current progress in the discovery and development of MDM2-based PROTAC drugs with future perspectives and challenges for their applications in effective treatment of human cancer.