二氢乳清酸脱氢酶驱动的嘧啶生物合成的再激活恢复了呼吸缺陷型癌细胞的肿瘤生长。

Reactivation of Dihydroorotate Dehydrogenase-Driven Pyrimidine Biosynthesis Restores Tumor Growth of Respiration-Deficient Cancer Cells.

机构信息

Institute of Biotechnology, Czech Academy of Sciences, 252 50, Vestec, Prague-West, Czech Republic; Faculty of Science, Charles University, 128 44 Prague, Czech Republic.

Institute of Biotechnology, Czech Academy of Sciences, 252 50, Vestec, Prague-West, Czech Republic.

出版信息

Cell Metab. 2019 Feb 5;29(2):399-416.e10. doi: 10.1016/j.cmet.2018.10.014. Epub 2018 Nov 15.

DOI:10.1016/j.cmet.2018.10.014

PMID:30449682

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7484595/

Abstract

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.

摘要

缺乏线粒体 DNA (mtDNA) 的癌细胞除非通过从宿主基质中获得的线粒体重新构建氧化磷酸化 (OXPHOS)，否则不会形成肿瘤。为了了解为什么功能性呼吸对肿瘤发生至关重要，我们使用 mtDNA 耗尽细胞的时间分辨分析和 OXPHOS 的遗传操作来研究肿瘤形成。我们表明，依赖于呼吸相关的二氢乳清酸脱氢酶 (DHODH) 的嘧啶生物合成对于克服细胞周期停滞是必需的，而线粒体 ATP 的产生对于肿瘤发生是可有可无的。在 mtDNA 缺陷细胞中，潜伏的 DHODH 在线粒体转移后，或通过引入替代氧化酶，完全激活复合物 III/IV 活性和辅酶 Q 氧化还原循环，从而被充分激活。此外，DHODH 的缺失会干扰具有完全功能 OXPHOS 的细胞的肿瘤形成，而破坏线粒体 ATP 合酶的作用则很小。我们的研究结果表明，DHODH 驱动的嘧啶生物合成是连接呼吸和肿瘤发生的关键途径，提示 DHODH 抑制剂可能是潜在的抗癌药物。

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