VX-984 is a selective inhibitor of non-homologous end joining, with possible preferential activity in transformed cells.

Atif J Khan,Bruce G Haffty,Devora Schiff,Aditya Thandoni,Sarah M Misenko,Samuel F Bunting,Sachin R Jhawar

doi:10.18632/oncotarget.25383

Atif J Khan, Bruce G Haffty + Show 5 more

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https://doi.org/10.18632/oncotarget.25383

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PurposeDNA double-strand breaks (DSBs) can be repaired by non-homologous end joining (NHEJ) or homologous recombination (HR). We demonstrate the selectivity of VX-984, a DNA-PK inhibitor, using assays not previously reported.Experimental DesignThe class switch recombination assay (CSR) in primary B cells was used to measure efficiency of NHEJ. A cellular reporter assay (U2OS EJ-DR) was used to assess the efficiency of HR and NHEJ in cells treated with VX-984. Immunofluorescence assays (IF) evaluated γ-H2AX foci for DSB repair kinetics in human astrocytes and T98G glioma cells. Western blotting was used to evaluate phosphorylation of DNA-PKcs substrates.ResultsWe found a dose-dependent reduction in CSR efficiency with VX-984, and through the EJ-DR assay, dramatic dose-dependent increases in HR and mNHEJ. Immunofluorescence assays showed an inability of malignant cells to resolve γ-H2AX foci in the presence of VX-984. Radiation-induced phosphorylation of DNA-PK substrates was further reduced by treatment with VX-984.ConclusionsVX-984 efficiently inhibits NHEJ, resulting in compensatory increases in alternative repair pathways, increases DSBs, and appears to affect transformed cells preferentially.

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The maintenance of chromosomal structure and proper replication of genetic information is critical in ensuring the survival of higher order eukaryotic species [1, 2]
We found a dose-dependent reduction in class switch recombination assay (CSR) efficiency with VX984, and through the End-joining dual reporter (EJ-DR) assay, dramatic dose-dependent increases in homologous recombination (HR) and mutagenic NHEJ (mNHEJ)
Radiation-induced phosphorylation of DNA-dependent protein kinase (DNA-PK) substrates was further reduced by treatment with VX-984

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Introduction

The maintenance of chromosomal structure and proper replication of genetic information is critical in ensuring the survival of higher order eukaryotic species [1, 2]. Cells have evolved complex pathways to reduce the impact of innumerable DNA lesions and mutations caused by various DNA damaging agents in the environment [1,2,3]. DSBs can be caused through exposure to ionizing radiation, endogenous metabolic processes, or numerous DNA-damaging reagents [5,6,7]. HR employs a sister chromatid or sequence from a homologous chromosome to serve as a template for repair, creating a less error-prone system. HR is mostly restricted to the S/G2 phases of the cell cycle when a sister chromatid is available to be used as a template [1, 3, 7]. DSB repair pathway selection in cells that have the capacity to use both HR and NHEJ is not well understood

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