The MDM2 oncogene has both p53-dependent and p53-independent activities. We have previously reported that antisense MDM2 inhibitors have significant antitumor activity in multiple human cancer models with various p53 statuses (Zhang, Z., Li, M., Wang, H., Agrawal, S., and Zhang, R. (2003) Proc. Natl. Acad. Sci. U. S. A. 100, 11636 -11641). We have also provided evidence that MDM2 has a direct role in the regulation of p21, a cyclin-dependent kinase inhibitor. Here we provide evidence supporting functional interaction between MDM2 and p21 in vitro and in vivo. The inhibition of MDM2 with anti-MDM2 antisense oligonucleotide or Short Interference RNA targeting MDM2 significantly elevated p21 protein levels in PC3 cells (p53 null). In contrast, overexpression of MDM2 diminished the p21 level in the same cells by shortening the p21 half-life, an effect reversed by MDM2 antisense inhibition. MDM2 facilitates p21 degradation independent of ubiquitination and the E3 ligase function of MDM2. Instead, MDM2 promotes p21 degradation by facilitating binding of p21 with the proteasomal C8 subunit. The physical interaction between p21 and MDM2 was demonstrated both in vitro and in vivo with the binding region in amino acids 180 -298 of the MDM2 protein. In summary, we provide evidence supporting a physical interaction between MDM2 and p21. We also demonstrate that, by reducing p21 protein stability via proteasome-mediated degradation, MDM2 functions as a negative regulator of p21, an effect independent of both p53 and ubiquitination.
p21WAF1/CIP1 , which belongs to the CIP/KIP1 family of cyclindependent kinase inhibitors, has long been characterized as an inhibitor of cell proliferation, but increasing evidence suggests that it plays a role in cell differentiation, senescence, and modulation of apoptosis (1). The regulation of p21 also may be more complicated than previously thought (3-5). Its transcription can be regulated through p53-dependent (2) and -independent pathways (3); its degradation is also processed by ubiquitin-dependent (4) and -independent (5) pathways via proteasome-mediated mechanisms.The MDM2 1 (mouse double minute 2) oncoprotein is a negative regulator of p53 (6) that functions through blocking its transcriptional activity (7) and promoting its proteasome-mediated degradation (8). However, MDM2 now has been shown to interact with other cellular proteins including p19/14 ARF (9), E2F1 (10), p300 (11), ribosomal L5 protein (12), and p73 (13), suggesting that it has p53-independent activities (6). The Ring finger domain in the C terminus of MDM2, containing the ubiquitin E3 ligase activity, is responsible for p53 ubiquitination and subsequent degradation (14). More recently, this E3 ligase has also been shown to facilitate the proteasome-dependent degradation of the androgen receptor (15).The MDM2 oncoprotein is overexpressed in many human malignancies, and high MDM2 levels are associated with a poor prognosis (6). The MDM2 oncoprotein may also have a role in cancer therapy. We have recently developed specifi...
