Purpose: Artemis and DNA Ligase IV are 2 critical elements in the nonhomologous end joining pathway of DNA repair, acting as the nuclease and DNA ligase, respectively. Enhanced cellular radiosensitivity by inhibition of either protein contributes to a promising approach to develop molecular targeted radiosensitizers. The interaction between Artemis and DNA Ligase IV is required for the activation of Artemis as nuclease at 3'overhang DNA; thus, we aim to generate an inhibitory peptide targeting the interaction between Artemis and DNA Ligase IV for novel radiosensitizer development.
Methods and materials: We synthesized the peptide BAL, which consists of the interaction residues of Artemis to DNA Ligase IV. The radiosensitization effect of BAL was evaluated by colony formation assay. The effects of BAL on radiation-induced DNA repair were evaluated with Western blotting and immunofluorescence. The effects of BAL on cell proliferation, cell cycle arrest, and cell apoptosis were assessed via CCK-8 and flow cytometry assays. The potential synergistic effects of BAL and irradiation in vivo were investigated in a xenograft mouse model.
Results: The generated peptide BAL blocking the interaction between Artemis and DNA Ligase IV significantly enhanced the radiosensitivity of GBC-SD and HeLa cell lines. BAL prolonged DNA repair after irradiation; BAL and irradiation showed synergistic effects on cell proliferation, cell cycle, and cell apoptosis, and these functions are all DNA Ligase IV-related. Finally, we confirmed the endogenous radiosensitization effect of BAL in a xenograft mouse model.
Conclusions: The inhibitory peptide BAL targeting the binding of Artemis and DNA Ligase IV successfully functions as a novel radiosensitizer that delays DNA repair and synergizes with irradiation to inhibit cell proliferation, induce cell cycle arrest, and promote cell apoptosis.
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