Marco M. Candeias scite author profile

The E3 ubiquitin ligase Mdm2 is a focal regulator of p53 tumour suppressor activity. It binds p53, promoting its polyubiquitination and degradation, and also controls p53 synthesis. However, it is not known how this dual function of Mdm2 on p53 synthesis and degradation is achieved. Here we show that the p53 mRNA region encoding the Mdm2-binding site interacts directly with the RING domain of Mdm2. This impairs the E3 ligase activity of Mdm2 and promotes p53 mRNA translation. We also show that introduction of cancer-derived single silent point-mutations in the p53 mRNA weakens its binding to Mdm2 and results in reduced p53 activity. These data are consistent with a mechanism by which changes in silent nucleotides can affect the function of the encoded protein, and indicate that Mdm2-mediated control of p53 synthesis and degradation has evolved in the p53 mRNA sequence and its encoded amino acids.

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Endoplasmic Reticulum Stress Induces G2 Cell-Cycle Arrest via mRNA Translation of the p53 Isoform p53/47

Bourougaa

et al. 2010

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p53 downstream pathways control G1 and G2 cell-cycle arrest, DNA repair, or apoptosis. However, it is still not clear how cells differentiate the cell-biological outcome of p53 activation in response to different types of stresses. The p53/47 isoform lacks the first 39 amino acids of full-length p53 including the Mdm2 binding site and the first trans-activation domain, and tetramers including p53/47 exhibit altered activity and biochemical properties. Here we show that endoplasmic reticulum stress promotes PERK-dependent induction of p53/47 mRNA translation and p53/47 homo-oligomerization. p53/47 induces 14-3-3sigma and G2 arrest but does not affect G1 progression. This is contrary to p53FL, which promotes G1 arrest but has no effect on the G2. These results show a unique role for p53/47 in the p53 pathway and illustrate how a cellular stress leads to a defined cell-biological outcome through expression of a p53 isoform.

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The p53 mRNA-Mdm2 Interaction Controls Mdm2 Nuclear Trafficking and Is Required for p53 Activation following DNA Damage

et al. 2012

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The ATM kinase and p53 are key tumor suppressor factors that control the genotoxic stress response pathway. The ATM substrate Mdm2 controls p53 activity by either targeting p53 for degradation or promoting its synthesis by binding the p53 mRNA. The physiological role and regulation of Mdm2's dual function toward p53 is not known. Here we show that ATM-dependent phosphorylation of Mdm2 at Ser395 is required for the p53 mRNA-Mdm2 interaction. This event also promotes SUMO-conjugation of Mdm2 and its nucleoli accumulation. Interfering with the p53 mRNA-Mdm2 interaction prevents p53 stabilization and activation following DNA damage. These results demonstrate how ATM activity switches Mdm2 from a negative to a positive regulator of p53 via the p53 mRNA.

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Marco M. Candeias

p53 mRNA controls p53 activity by managing Mdm2 functions

Endoplasmic Reticulum Stress Induces G2 Cell-Cycle Arrest via mRNA Translation of the p53 Isoform p53/47

The p53 mRNA-Mdm2 Interaction Controls Mdm2 Nuclear Trafficking and Is Required for p53 Activation following DNA Damage

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