G-quadruplex ligand RHPS4 radiosensitizes glioblastoma xenograft in vivo through a differential targeting of bulky differentiated- and stem-cancer cells.

Francesco BerardinelliM TanoriD MuoioM BuccarelliA di MasiS LeoneL Ricci-VitianiR PalliniM MancusoA Antoccia

Published in: Journal of experimental & clinical cancer research : CR (2019)

We propose that the potent antiproliferative effect of RHPS4 in GSCs is not determined by telomeric dysfunction but is achieved by the induction of RS and by the concomitant depletion of CHK1 and RAD51, leading to DNA damage and cell death. These data open to novel therapeutic options for the targeting of GSCs, indicating that the combined inhibition of cell-cycle checkpoints and DNA repair proteins provides the most effective means to overcome resistance of GSC to genotoxic insults.

Keyphrases

dna repair
dna damage
cell cycle
dna damage response
cell death
oxidative stress
cell proliferation
cancer therapy
minimally invasive
electronic health record
big data
machine learning
cell cycle arrest
artificial intelligence
deep learning