Litcius/Paper detail

Nucleotide depletion reveals the impaired ribosome biogenesis checkpoint as a barrier against DNA damage

Joffrey Pelletier, Ferran Riaño‐Canalias, Eugènia Almacellas, Caroline Mauvezin, Sara Samino, Sònia Feu, Sandra Menoyo, Ana Domostegui, Marta Garcia‐Cajide, Ramón Salazar, Constanza Cortés, Ricard Marcos, Albert Tauler, Óscar Yanes, Neus Agell, Sara C. Kozma, Antonio Gentilella, George Thomas

2020The EMBO Journal37 citationsDOIOpen Access PDF

Abstract

Many oncogenes enhance nucleotide usage to increase ribosome content, DNA replication, and cell proliferation, but in parallel trigger p53 activation. Both the impaired ribosome biogenesis checkpoint (IRBC) and the DNA damage response (DDR) have been implicated in p53 activation following nucleotide depletion. However, it is difficult to reconcile the two checkpoints operating together, as the IRBC induces p21-mediated G1 arrest, whereas the DDR requires that cells enter S phase. Gradual inhibition of inosine monophosphate dehydrogenase (IMPDH), an enzyme required for de novo GMP synthesis, reveals a hierarchical organization of these two checkpoints. We find that the IRBC is the primary nucleotide sensor, but increased IMPDH inhibition leads to p21 degradation, compromising IRBC-mediated G1 arrest and allowing S phase entry and DDR activation. Disruption of the IRBC alone is sufficient to elicit the DDR, which is strongly enhanced by IMPDH inhibition, suggesting that the IRBC acts as a barrier against genomic instability.

Topics & Concepts

Library scienceBiomedicineEnergy metabolismPolitical scienceBiologyBioinformaticsComputer scienceEndocrinologyRNA modifications and cancerDNA Repair MechanismsRNA and protein synthesis mechanisms