Abstract
p53 can be regulated through post-translational modifications and through interactions with positive and negative regulatory factors. MDM2 binding inhibits p53 and promotes its degradation by the proteasome, whereas promyelocytic leukemia (PML) activates p53 by recruiting it to multiprotein complexes termed PML-nuclear bodies. We reported previously an in vivo and in vitro interaction between PML and MDM2 that is independent of p53. In the current study, we investigated whether interaction between MDM2 and PML can indirectly affect p53 activity. Increasing amounts of MDM2 inhibited p53 activation by PML but could not inhibit PML-mediated activation of a p53 fusion protein that lacked the MDM2-binding domain. Conversely, increasing amounts of PML could overcome p53 inhibition by MDM2 but could not overcome MDM2-mediated inhibition of a p53 fusion protein that lacked the PML-binding domain. These results demonstrate that MDM2 and PML can antagonize each other through their direct interaction with p53 and suggest the combined effects of MDM2 and PML on p53 function are determined by the relative level of each protein. Furthermore, these results imply that interactions between MDM2 and PML by themselves have little or no effect on p53 activity.
Highlights
Export signal in the p53 C terminus, leading to the export of p53 from the nucleus to the cytoplasm
We reported recently (17) an in vivo and in vitro interaction between promyelocytic leukemia (PML) and MDM2 that is independent of p53
Transfected cell lysates were mixed with either GST alone or the GST-PML fusion protein, and MDM2 binding was assessed in GST pull-down assays
Summary
Export signal in the p53 C terminus, leading to the export of p53 from the nucleus to the cytoplasm. The promyelocytic leukemia (PML) protein is a tumor suppressor and the major component of multiprotein nuclear complexes that have been variably termed Kremer bodies, ND10, PODs (for PML oncogenic domains), and PML-nuclear bodies (PML-NBs). Acetylation of p53 by CBP/p300 increases p53 DNA binding affinity, leading to an activation of p53responsive genes This activation of p53 likely contributes to the tumor suppressor function of PML. Confocal microscopy revealed a low level association between the endogenous PML and MDM2 proteins in cells These results demonstrated that MDM2 and PML can interact with each other in a manner independent of p53 and suggested that this may be a direct interaction. MDM2 and PML can antagonize each other through their direct interaction with p53
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