Conceitos essenciais
DePARylation of S phase pADPr by PARG is essential for cell viability.
Resumo
The content explores the critical role of dePARylation in regulating DNA damage response. It highlights how PARG-mediated dePARylation of S phase pADPr is crucial for cell survival, emphasizing the impact on Okazaki fragment ligation and base excision repair. The study also delves into the potential of PARG as a biomarker for cancer therapy involving PARG inhibitors.
Abstract:
- PARP1 and PARG play vital roles in DNA damage response regulation.
- DePARylation by PARG is essential for cell viability.
- Loss of dePARylation activity leads to uncontrolled pADPr accumulation and cytotoxicity.
Introduction:
- PARylation by PARP1 is crucial for DNA damage repair.
- PARG functions as a key dePARylation enzyme.
- Targeting dePARylation is considered to overcome PARP inhibitor resistance.
Results:
- PARG depletion increases sensitivity to PARGi.
- Unligated Okazaki fragments induce S phase-specific pADPr signaling.
- Loss of genes involved in BER or Okazaki fragment ligation enhances sensitivity to PARGi.
Data Extraction:
- Loss of full-length PARG expression correlates with increased sensitivity to PARG inhibition.
Estatísticas
Loss of full-length PARG expression correlates with increased sensitivity to PARG inhibition.
Citações
"Targeting dePARylation is considered an alternative strategy to overcome PARP inhibitor resistance."
"PARG depletion leads to drastic sensitivity to PARGi."