Targeting the DNA damage response (DDR) is a key strategy in cancer therapy, leveraging tumour-specific weaknesses in DNA repair pathways to enhance treatment efficacy. Traditional treatments, such as chemotherapy and radiation, use a broad, damage-inducing approach, whereas precision oncology aims to tailor therapies to specific genetic mutations or vulnerabilities. The clinical success of PARP inhibitors has renewed the interest in targeting DNA repair as a therapeutic strategy. Expanding the precision oncology toolbox by targeting the base excision repair (BER) pathway presents a promising avenue for cancer therapy, particularly in tumours that rely heavily on this pathway due to deficiencies in other DNA repair mechanisms. This review discusses how targeting BER could improve treatment outcomes, particularly in DDR-defective cancers. With ongoing advancements in biomarker discovery and drug development, BER-targeted therapies hold significant potential for refining precision oncology approaches.
Keywords: APOBEC; Base Excision Repair; Cancer; DNA glycosylases; PARPi; Telomeres.
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