MDM2 Promotes Proteasomal Degradation of p21Waf1 via a Conformation Change

MDM2 plays a major role in cancer development and progression via both p53-dependent and -independent functions. One of its p53-independent functions is the induction of the ubiquitin-independent proteasomal degradation of p21^Waf1. The present study was designed to characterize the mechanism(s) by which MDM2 induces p21^Waf1 degradation. We first determined the regions of MDM2 required for p21^Waf1 degradation using pulldown assays and Western blotting and then examined the mechanisms using limited proteolysis and fluorescence resonance energy transfer assays. We found that the MDM2-p21^Waf1 interaction depended on the central domain of MDM2 and that nuclear localization of both proteins was necessary for p21^Waf1 degradation. Specifically, amino acids 226–250 of MDM2 were required for p21^Waf1 binding and degradation, and amino acids 251–260 were necessary for p21^Waf1 degradation. The latter region induced a conformation change in p21^Waf1, increasing its interaction with the C8 subunit of the proteasome, leading to its degradation. When MDM2 lacked either segment (aa 226–250 or aa 251–260), its capacity to promote p21^Waf1 degradation and cell cycle progression was significantly reduced. In summary, the present study elucidated a previously unknown mechanism by which MDM2 promotes the degradation of an intact protein (p21^Waf1) through an ubiquitin-independent proteasomal degradation pathway. Because MDM2 also increases the degradation of other proteins in a ubiquitin-independent manner, this mechanism may underlie part of its tumorigenic properties.