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DNA Damage Repair Inhibitors—Combination Therapies

Gabriella Smith, Zachary Alholm, Robert L. Coleman, Bradley J. Monk

2021The Cancer Journal30 citationsDOI

Abstract

ABSTRACT: DNA damage response and repair (DDR) is responsible for ensuring genomic integrity. It is composed of intricate, complex pathways that detect various DNA insults and then activate pathways to restore DNA fidelity. Mutations in this network are implicated in many malignancies but can also be exploited for cancer therapies. The advent of inhibitors of poly(ADP-ribose) polymerase has led to the investigation of other DDR inhibitors and combinations to address high unmet needs in cancer therapeutics. Specifically, regimens, often in combination with chemotherapy, radiation, or other DDR inhibitors, are being investigated. This review will focus on 4 main DDR pathways-ATR/CHK1, ATM/CHK2, DNA-PKcs, and polymerase θ-and the current state of clinical research and use of the inhibitors of these pathways with other DDR inhibitors.

Topics & Concepts

DNA damageDNA repairDNA Damage RepairDNA polymeraseCancer researchPolymeraseSynthetic lethalityCancerBiologyDNAPoly ADP ribose polymeraseComputational biologyGenome instabilityMutationMedicineCell biologyGeneticsDNA polymerase betaBioinformaticsDNA mismatch repairCancer treatmentPARP inhibition in cancer therapyDNA Repair MechanismsCancer therapeutics and mechanisms
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