Impeding the NHEJ Pathway for Overcoming Radioresistance in the Context of Precision Radiotherapy of Cancer
Dragoș Andrei Niculae, Radu Marian Șerban, Dana Niculae, Doina Drăgănescu

TL;DR
This paper reviews how inhibiting the NHEJ pathway, specifically the DNA-PK complex, can help overcome cancer cell resistance to radiation therapy.
Contribution
The paper highlights DNA-PK as a strategic target for radiosensitization and precision radiotherapy.
Findings
Inhibiting DNA-PK disrupts NHEJ, leading to increased cancer cell death from radiation and chemotherapy.
DNA-PK inhibition can be used to stratify patients based on tumor vulnerability to NHEJ disruption.
Combining DNA-PK inhibitors with traditional therapies may improve survival outcomes in cancer patients.
Abstract
Non-homologous end joining (NHEJ) is a critical DNA double-strand break (DSB) repair pathway that operates throughout the cell cycle to maintain the genomic stability of the cell. Unlike homologous recombination (HR), NHEJ is capable of repairing DSBs without the need for a homologous template, making it a rapid response mechanism, but potentially prone to errors. Central to NHEJ function and essential for the ligation through the recruitment and activation of additional repair factors, such as Artemis, XRCC4, and DNA ligase IV, is the DNA-dependent protein kinase (DNA-PK) complex. Dysregulation in the NHEJ pathway contributes to genomic instability, oncogenesis, and resistance to genotoxic therapies. Consequently, inhibitors of DNA-PK have emerged as promising therapeutic agents to sensitize tumor cells to radiation and DNA-damaging chemotherapeutics. Inhibiting the DNA-PK ability to…
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Taxonomy
TopicsDNA Repair Mechanisms · PARP inhibition in cancer therapy · Microtubule and mitosis dynamics
