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Base excision repair and its implications to cancer therapy

Gabrielle J. Grundy, Jason L. Parsons

2020Essays in Biochemistry113 citationsDOIOpen Access PDF

Abstract

Base excision repair (BER) has evolved to preserve the integrity of DNA following cellular oxidative stress and in response to exogenous insults. The pathway is a coordinated, sequential process involving 30 proteins or more in which single strand breaks are generated as intermediates during the repair process. While deficiencies in BER activity can lead to high mutation rates and tumorigenesis, cancer cells often rely on increased BER activity to tolerate oxidative stress. Targeting BER has been an attractive strategy to overwhelm cancer cells with DNA damage, improve the efficacy of radiotherapy and/or chemotherapy, or form part of a lethal combination with a cancer specific mutation/loss of function. We provide an update on the progress of inhibitors to enzymes involved in BER, and some of the challenges faced with targeting the BER pathway.

Topics & Concepts

Base excision repairBase (topology)Cancer therapyCancerMedicineBiologyDNA repairInternal medicineGeneticsMathematicsGeneMathematical analysisPARP inhibition in cancer therapyDNA Repair MechanismsCell death mechanisms and regulation
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