Reactivation of Dihydroorotate Dehydrogenase-Driven Pyrimidine Biosynthesis Restores Tumor Growth of Respiration-Deficient Cancer Cells
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Publication year
2019Author(s)
Source
Cell Metabolism, 29, 2, (2019), pp. 399-416.e10ISSN
Publication type
Article / Letter to editor
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Organization
Environmental Science
Biochemistry (UMC)
Journal title
Cell Metabolism
Volume
vol. 29
Issue
iss. 2
Page start
p. 399
Page end
p. 416.e10
Subject
Radboudumc 6: Metabolic Disorders RIMLS: Radboud Institute for Molecular Life Sciences; Biochemistry - Radboud University Medical CenterAbstract
Cancer cells without mitochondrial DNA (mtDNA) do not form tumors unless they reconstitute oxidative phosphorylation (OXPHOS) by mitochondria acquired from host stroma. To understand why functional respiration is crucial for tumorigenesis, we used time-resolved analysis of tumor formation by mtDNA-depleted cells and genetic manipulations of OXPHOS. We show that pyrimidine biosynthesis dependent on respiration-linked dihydroorotate dehydrogenase (DHODH) is required to overcome cell-cycle arrest, while mitochondrial ATP generation is dispensable for tumorigenesis. Latent DHODH in mtDNA-deficient cells is fully activated with restoration of complex III/IV activity and coenzyme Q redox-cycling after mitochondrial transfer, or by introduction of an alternative oxidase. Further, deletion of DHODH interferes with tumor formation in cells with fully functional OXPHOS, while disruption of mitochondrial ATP synthase has little effect. Our results show that DHODH-driven pyrimidine biosynthesis is an essential pathway linking respiration to tumorigenesis, pointing to inhibitors of DHODH as potential anti-cancer agents.
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- Academic publications [243984]
- Electronic publications [130695]
- Faculty of Medical Sciences [92811]
- Faculty of Science [36969]
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