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Replication and ribosomal stress induced by targeting pyrimidine synthesis and cellular checkpoints suppress p53-deficient tumors

Soňa Hubáčková, Eliška Davidová, Štěpána Boukalová, Jaromíra Kovářová, Martina Bajzíková, Ana R. Coelho, Mikkel G. Terp, Henrik J. Ditzel, Jakub Rohlena, Jiřı́ Neužil

2020Cell Death and Disease52 citationsDOIOpen Access PDF

Abstract

p53-mutated tumors often exhibit increased resistance to standard chemotherapy and enhanced metastatic potential. Here we demonstrate that inhibition of dihydroorotate dehydrogenase (DHODH), a key enzyme of the de novo pyrimidine synthesis pathway, effectively decreases proliferation of cancer cells via induction of replication and ribosomal stress in a p53- and checkpoint kinase 1 (Chk1)-dependent manner. Mechanistically, a block in replication and ribosomal biogenesis result in p53 activation paralleled by accumulation of replication forks that activate the ataxia telangiectasia and Rad3-related kinase/Chk1 pathway, both of which lead to cell cycle arrest. Since in the absence of functional p53 the cell cycle arrest fully depends on Chk1, combined DHODH/Chk1 inhibition in p53-dysfunctional cancer cells induces aberrant cell cycle re-entry and erroneous mitosis, resulting in massive cell death. Combined DHODH/Chk1 inhibition effectively suppresses p53-mutated tumors and their metastasis, and therefore presents a promising therapeutic strategy for p53-mutated cancers.

Topics & Concepts

Cell biologyReplication (statistics)PyrimidineBiologyCancer researchChemistryGeneticsVirologyCancer-related Molecular PathwaysRNA modifications and cancerDNA Repair Mechanisms
Replication and ribosomal stress induced by targeting pyrimidine synthesis and cellular checkpoints suppress p53-deficient tumors | Litcius