Glutaminase and poly(ADP-ribose) polymerase inhibitors suppress pyrimidine synthesis and VHL-deficient renal cancers
Arimichi Okazaki, … , Lee Zou, Othon Iliopoulos
Arimichi Okazaki, … , Lee Zou, Othon Iliopoulos
Published March 27, 2017
Citation Information: J Clin Invest. 2017;127(5):1631-1645. https://doi.org/10.1172/JCI87800.
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Research Article Metabolism Oncology

Glutaminase and poly(ADP-ribose) polymerase inhibitors suppress pyrimidine synthesis and VHL-deficient renal cancers

Abstract

Many cancer-associated mutations that deregulate cellular metabolic responses to hypoxia also reprogram carbon metabolism to promote utilization of glutamine. In renal cell carcinoma (RCC), cells deficient in the von Hippel–Lindau (VHL) tumor suppressor gene use glutamine to generate citrate and lipids through reductive carboxylation (RC) of α-ketoglutarate (αKG). Glutamine can also generate aspartate, the carbon source for pyrimidine biosynthesis, and glutathione for redox balance. Here we have shown that VHL–/– RCC cells rely on RC-derived aspartate to maintain de novo pyrimidine biosynthesis. Glutaminase 1 (GLS1) inhibitors depleted pyrimidines and increased ROS in VHL–/– cells but not in VHL+/+ cells, which utilized glucose oxidation for glutamate and aspartate production. GLS1 inhibitor–induced nucleoside depletion and ROS enhancement led to DNA replication stress and activation of an intra–S phase checkpoint, and suppressed the growth of VHL–/– RCC cells. These effects were rescued by administration of glutamate, αKG, or nucleobases with N-acetylcysteine. Further, we observed that the poly(ADP-ribose) polymerase (PARP) inhibitor olaparib synergizes with GLS1 inhibitors to suppress the growth of VHL–/– cells in vitro and in vivo. This work describes a mechanism that explains the sensitivity of RCC tumor growth to GLS1 inhibitors and supports the development of therapeutic strategies for targeting VHL-deficient RCC.

Authors

Arimichi Okazaki, Paulo A. Gameiro, Danos Christodoulou, Laura Laviollette, Meike Schneider, Frances Chaves, Anat Stemmer-Rachamimov, Stephanie A. Yazinski, Richard Lee, Gregory Stephanopoulos, Lee Zou, Othon Iliopoulos

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Figure 6

GLS1 inhibitors selectively induce DNA replication stress in VHL–/– RCC cells.

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GLS1 inhibitors selectively induce DNA replication stress in VHL–/– RCC ...
Isogenic VHL–/– and VHL+/+ UMRC2 cells were treated with 1.5 μM BPTES for 48 hours with or without supplementation with 0.5 mM DM-αKG, 5 μM nucleobases, or 4 mM NAC. (A) DNA breaks were imaged by immunohistochemical detection of γH2AX foci (green) and quantified. (B) Percentage of nuclei with the indicated number of γH2AX foci. At least 100 nuclei for each condition were analyzed. (CE) Detection and quantification of DNA replication stress by DNA fiber assay. Cells were treated with BPTES (1.5 μM) or vehicle control in the presence or absence of DM-αKG (0.5 mM) and pulse-labeled with CldU (green) and IdU (red). (C) Representative images of DNA incorporation of CldU and IdU under different treatment conditions. Quantification of CldU and IdU incorporation in replication forks of VHL–/– (D) and VHL+/+ (E) cells under different treatment conditions. At least 150 DNA fibers for each condition were analyzed.