Nucleolar stress with and without p53

James, Allison; Wang, Yübo; Raje, Himanshu; Rosby, Raphyel; DiMario, Patrick J.

doi:10.4161/nucl.32235

Cited by 234 publications

(293 citation statements)

References 278 publications

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“…Nevertheless, p53 knockdown does not alter PARP cleavage nor the mitochondrial depolarization in PPAN-depleted cells, revealing that PPAN-mediated apoptosis functions independently of p53. Interestingly, yeast is also sensitive to stress, although p53-dependent stress-response mechanisms do not count, because yeast lacks p53 and MDM2 proteins (44). Consequently ancestral, the so far unraveled modes of p53-independent stress response could exist, which were retained in higher organisms as a safety mechanism.…”

Section: Discussionmentioning

confidence: 99%

The Wnt Target Protein Peter Pan Defines a Novel p53-independent Nucleolar Stress-Response Pathway

Pfister

Keil

Kühl

2015

Journal of Biological Chemistry

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Background: Peter Pan (PPAN) localizes to nucleoli and functions in ribosome biogenesis. Results: PPAN localizes also to mitochondria, and PPAN knockdown triggers p53-independent mitochondrial apoptosis and nucleolar stress as observed by de-stabilization of nucleophosmin. Conclusion: PPAN orchestrates a p53-independent stress-response pathway by coupling nucleolar stress induction to the mitochondrial apoptosis. Significance: Novel insight into the anti-apoptotic role of the ribosome processing factor PPAN is provided.

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Section: Discussionmentioning

confidence: 99%

The Wnt Target Protein Peter Pan Defines a Novel p53-independent Nucleolar Stress-Response Pathway

Pfister

Keil

Kühl

2015

Journal of Biological Chemistry

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“…Previous studies in C.elegans showed that depletion of the nucleolar RNA-associated protein NOL-6 induces immunity against bacteria infection through activation of CEP-1/p53, suggesting that the nucleolus can signal to CEP-1/p53 under stress conditions 58 . A homologue for Mdm2 has not been found in nematodes so it is possible that MLN4924 and ActD induced p53 activation depends strictly on the Mdm2 presence, whereas NOL-6 induced signaling depends on other E3-ligases or other mechanisms of CEP-1/p53 activity regulation (translational) 59 .…”

Section: Discussionmentioning

confidence: 99%

The NEDD8 inhibitor MLN4924 increases the size of the nucleolus and activates p53 through the ribosomal-Mdm2 pathway

et al. 2015

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The NEDD8 inhibitor MLN4924 increases the size of the nucleolus and activates p53 through the ribosomal-Mdm2 pathway Bailly, A.; Perrin, A.; Bou Malhab, L. J.; Pion, E.; Larance, M.; Nagala, M.; Smith, P.; O'Donohue, M.-F.; Gleizes, P.-E.; Zomerdijk, Josephus; Lamond, Angus; Xirodimas, D. P. Published in: Oncogene DOI:10.1038/onc.2015.104 Publication date: 2016 Document VersionPeer reviewed version Link to publication in Discovery Research Portal Citation for published version (APA):Bailly, A., Perrin, A., Bou Malhab, L. J., Pion, E., Larance, M., Nagala, M., ... Xirodimas, D. P. (2016). The NEDD8 inhibitor MLN4924 increases the size of the nucleolus and activates p53 through the ribosomal-Mdm2 pathway. Oncogene, 35(4), 415-426. DOI: 10.1038415-426. DOI: 10. /onc.2015 General rights Copyright and moral rights for the publications made accessible in Discovery Research Portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights.• Users may download and print one copy of any publication from Discovery Research Portal for the purpose of private study or research.• You may not further distribute the material or use it for any profit-making activity or commercial gain.• You may freely distribute the URL identifying the publication in the public portal. Take down policyIf you believe that this document breaches copyright please contact us providing details, and we will remove access to the work immediately and investigate your claim.

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“…The production of ribosomal RNA occupies >50% of all eukaryotic transcription and represents the major source of cellular energy consumption, as well as being tightly coordinated with cell growth and division (Henras et al 2014). As a result, any defect in ribosome biogenesis must be rapidly communicated to the cell's proliferative machinery to prevent division of cells with insufficient translational capacity; similarly, inhibition of ribosome synthesis in response to DNA damage or other stresses is essential to prevent cellular energy depletion and/or production of aberrant ribosomes from damaged rDNA (James et al 2014;Tsai and Pederson 2014). Indeed, eukaryotic cells have developed an array of regulatory checks and balances to arrest rRNA transcription and processing under stress conditions (Boulon et al 2010) and, conversely, to induce cell cycle arrest and/or apoptosis in response to perturbation of ribosome production (termed the 'nucleolar stress response'; Suzuki et al 2012).…”

Section: Introductionmentioning

confidence: 99%

Nucleolin and nucleophosmin: nucleolar proteins with multiple functions in DNA repair

Scott

Oeffinger

2016

Biochem. Cell Biol.

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The nucleolus represents a highly multifunctional intranuclear organelle in which, in addition to the canonical ribosome assembly, numerous processes such as transcription, DNA repair and replication, the cell cycle and apoptosis are coordinated. The nucleolus is further a key hub in the sensing of cellular stress and undergoes major structural and compositional changes in response to cellular perturbations.Numerous nucleolar proteins have been identified that, upon nucleolar stress sensing, deploy additional, non-ribosomal roles in the regulation of varied cell processes including cell cycle arrest, arrest of DNA replication, induction of DNA repair, and apoptosis, among others. The highly abundant proteins nucleophosmin (NPM1) and nucleolin (NCL) are two such factors that transit to the nucleoplasm in response to stress, and participate directly in the repair of numerous different DNA damages. This review discusses the contributions made by NCL and/or NPM1 to the different DNA repair pathways employed by mammalian cells to repair DNA insults, and examines the implications of such activities for the regulation, pathogenesis and therapeutic targeting of NPM1 and NCL.

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Nucleolar stress with and without p53

Cited by 234 publications

References 278 publications

The Wnt Target Protein Peter Pan Defines a Novel p53-independent Nucleolar Stress-Response Pathway

The Wnt Target Protein Peter Pan Defines a Novel p53-independent Nucleolar Stress-Response Pathway

The NEDD8 inhibitor MLN4924 increases the size of the nucleolus and activates p53 through the ribosomal-Mdm2 pathway

Nucleolin and nucleophosmin: nucleolar proteins with multiple functions in DNA repair

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