ldentification and characterization of novel enzymes involved in the DNA damage response in human cells
Author
Hernández Reyes, YerayDate
2024Abstract
A correct DNA damage response is critical in maintaining genome integrity
and the prevention of cancer. Efficient DNA repair requires the correct and
timely coordination of a multitude of signaling events, in which
post-translational modifications play a critical role. Here we investigate
enzymes important in the cellular response to DNA damage and the molecular
mechanisms of how these enzymes help preventing genome instability. We
identified ubiquitin hydrolase USP29 as novel regulator of SETD8, a methyl
transferase important for the recruitment of 53BP1 to sites of DNA damage by
controlling histone H4K20 methylation. USP29 interacts with and
deubiquitinates SETD8 in vivo. USP29 regulates DNA damage-induced
H4K20 methylation and focus formation of 53BP1 and depletion of USP29
increases the cellular sensitivity to irradiation. These results suggest that
USP29 is critical for the DNA damage response and cell survival. Upon
examining of interactors of lysine demethylase PHF2, described to control
homolog-directed repair of double strand breaks, we identified USP36 and
TRIP13. These novel interactors might collaborate with PHF2 in the
maintenance of genome stability. Finally, we describe a role for RNA helicases
DDX18, DDX37 and DDX50 in the prevention of DNA damage, likely by the
regulation of transcription-dependent R-loop formation. Together, these
findings help our understanding of the maintenance of genome integrity and
could be of use for the identification of novel therapeutic targets for cancer
treatment.