[R01] Mechanisms and Functional Roles of PARP1 Hyperactivation in Cancer
Ente: National Cancer Institute
Scadenza: 2031-05-31
Importo max: 639.707 EUR
Paese: US
Descrizione
PROJECT SUMMARY
Genomic integrity is constantly challenged by endogenous and exogenous factors such as replication stress,
APOBEC enzymes, UV radiation, and chemical agents that induce DNA damage. The DNA Damage Response
(DDR) serves as a critical safeguard, detecting lesions and activating repair pathways to maintain genome
stability. While most DNA lesions are repaired, excessive damage can lead to mutations and chromosomal
rearrangements that contribute to cancer. Poly(ADP-ribose) polymerase 1 (PARP1) plays a central role in the
early detection of DNA damage by recognizing DNA strand breaks and coordinating chromatin remodeling, DNA
repair, and cell death pathways. Despite its essential function, the extent of PARP1 activation varies significantly
depending on the type of DNA lesion, suggesting an additional layer of regulation that remains poorly understood.
ATR kinase, a master regulator of replication stress response, ensures the stability of stalled replication forks
and facilitates DNA repair. Given its essential role in genome maintenance, ATR inhibitors (ATRi) are currently
being evaluated in clinical trials as promising cancer therapeutics. Notably, cancer cells treated with ATRi exhibit
hypersensitivity to PARP inhibitors (PARPi), yet the underlying mechanism driving this synthetic lethality remains
unclear. The goal of this proposal is to elucidate the mechanism by which ATR inhibitors enhance cancer cell
sensitivity to PARP inhibitors. Our preliminary data reveal that DNA replication fork cleavage by APE1 is the key
step leading to PARP1 hyperactivation after ATRi treatment. We propose to explain (1) why DNA cleavage by
APE1 is the essential step leading to PARP1 hyperactivation regardless of the type of DNA lesion, (2) identify
the factors driving cell sensitivity to ATR inhibition, and (3) determine the consequences of PARP1
hyperactivation for the cells. Together, this proposal will reveal how cells regulate PARP1 activation in response
to different types of DNA lesions and explain why the type of DNA damage caused by ATR inhibition renders
cells hypersensitive to PARP inhibitors.
Istituzione: UNIVERSITY OF CALIFORNIA-IRVINE
PI: Remi Buisson
Progetto: 1R01CA307676-01A1
Settori: National Cancer Institute
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