Temporal DNA-PK activation drives genomic instability and therapy resistance in glioma stem cells
Yanling Wang, Haineng Xu, Tianrun Liu, Menggui Huang, Param-Puneet Butter, Chunsheng Li, Lin Zhang, Gary D. Kao, Yanqing Gong, Amit Maity, Constantinos Koumenis, Yi Fan
Yanling Wang, Haineng Xu, Tianrun Liu, Menggui Huang, Param-Puneet Butter, Chunsheng Li, Lin Zhang, Gary D. Kao, Yanqing Gong, Amit Maity, Constantinos Koumenis, Yi Fan
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Research Article Oncology Stem cells

Temporal DNA-PK activation drives genomic instability and therapy resistance in glioma stem cells

Abstract

Cancer stem cells (CSCs) — known to be resistant to genotoxic radiation and chemotherapy — are fundamental to therapy failure and cancer relapse. Here, we reveal that glioma CSCs are hypersensitive to radiation, but a temporal DNA repair mechanism converts the intrinsic sensitivity to genomic instability and treatment resistance. Transcriptome analysis identifies DNA-dependent protein kinase (DNA-PK) as a predominant DNA repair enzyme in CSCs. Notably, DNA-PK activity is suppressed after irradiation when ROS induce the dissociation of DNA-PKcs with Ku70/80, resulting in delayed DNA repair and radiosensitivity; subsequently, after ROS clearance, the accumulated DNA damage and robust activation of DNA-PK induce genomic instability, facilitated by Rad50-mediated cell-cycle arrest, leading to enhanced malignancy, CSC overgrowth, and radioresistance. Finally, we show a requisite in vivo role for DNA-PK in CSC-mediated radioresistance and glioma progression. These findings identify a time-sensitive mechanism controlling CSC resistance to DNA-damaging treatments and suggest DNA-PK/Rad50 as promising targets for CSC eradication.

Authors

Yanling Wang, Haineng Xu, Tianrun Liu, Menggui Huang, Param-Puneet Butter, Chunsheng Li, Lin Zhang, Gary D. Kao, Yanqing Gong, Amit Maity, Constantinos Koumenis, Yi Fan

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Figure 4

ROS induces time-dependent DNA-PK inhibition by disrupting Ku70/80 binding to DNA-PKcs, leading to delayed H2AX phosphorylation and DNA repair.

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ROS induces time-dependent DNA-PK inhibition by disrupting Ku70/80 bindi...
(A) IN528 CSCs and matched non-CSCs were irradiated with 5-Gy x-ray. Intracellular ROS levels (H2O2) were measured by luminol-based luminescence analysis at different time points after irradiation (mean ± SEM, n = 3). (B–E) IN528 CSCs were pretreated with TEMPOL (10 mM) and irradiated with 5-Gy x-ray. (B) Cells were harvested at different time after irradiation and were subjected to immunoblot analysis. (C) At 4 hours after irradiation, cell lysates were immunoprecipitated with anti–DNA-PKcs or anti-Ku80 antibodies, followed by immunoblot analysis with anti-Ku80 or anti–DNA-PKcs antibody. (D) Cells were harvested at different times after irradiation and analyzed by immunoblot with anti–P-H2AX-Ser139 (γ-H2AX) and anti-GAPDH antibodies. (E) Cells were harvested different time after radiation. Nucleic extracts were incubated with linearized DNA in NHEJ reaction buffer, followed by electrophoresis and gel imaging. The reaction mixtures were immunoblotted with anti-PCNA antibody.