Abstract
Proper ribosome formation is a prerequisite for cell growth and proliferation. Failure of this process results in nucleolar stress and p53-mediated apoptosis. The Wnt target Peter Pan (PPAN) is required for 45 S rRNA maturation. So far, the role of PPAN in nucleolar stress response has remained elusive. We demonstrate that PPAN localizes to mitochondria in addition to its nucleolar localization and inhibits the mitochondrial apoptosis pathway in a p53-independent manner. Loss of PPAN induces BAX stabilization, depolarization of mitochondria, and release of cytochrome c, demonstrating its important role as an anti-apoptotic factor. Staurosporine-induced nucleolar stress and apoptosis disrupt nucleolar PPAN localization and induce its accumulation in the cytoplasm. This is accompanied by phosphorylation and subsequent cleavage of PPAN by caspases. Moreover, we show that PPAN is a novel interaction partner of the anti-apoptotic protein nucleophosmin (NPM). PPAN depletion induces NPM and upstream-binding factor (UBF) degradation, which is independent of caspases. In summary, we provide evidence for a novel nucleolar stress-response pathway involving PPAN, NPM, and BAX to guarantee cell survival in a p53-independent manner.
Highlights
Peter Pan (PPAN) localizes to nucleoli and functions in ribosome biogenesis
We demonstrate that PPAN localizes to mitochondria in addition to its nucleolar localization and inhibits the mitochondrial apoptosis pathway in a p53-independent manner
We show here for the first time that PPAN inhibits mitochondrial apoptosis independently of p53
Summary
Peter Pan (PPAN) localizes to nucleoli and functions in ribosome biogenesis. Results: PPAN localizes to mitochondria, and PPAN knockdown triggers p53-independent mitochondrial apoptosis and nucleolar stress as observed by de-stabilization of nucleophosmin. Recent evidence uncovered novel stress-response pathways, which function independently of p53 and still result in cell cycle arrest and/or apoptosis. A nucleolar stress response in p53-silenced HCT116 cancer cells induces forced interaction of the ribosomal protein RpL11 with MDM2 resulting in E2F-1 degradation and cell cycle arrest [8]. Further steps into this direction are required, as only a few p53-independent pathways are identified. PPAN functions independently of p53, highlighting its bi-functional role as a pro-survival factor in ribosome biogenesis and mitochondrial apoptosis These data define a novel p53-independent nucleolar stress response
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