Butein combined with radiotherapy enhances radioresponse of gastric cancer cell by impairing DNA damage repair.

Radiation therapy is common in the current procedures of cancer treatment, but in many cases, radiation resistance of cancerous tissue limits efficacy in clinical applications. Therefore, the use of radiosensitizers has been introduced as an effective strategy to increase the efficiency of radiotherapy. Butein (2', 3, 4, 4'-Tetrahydroxychalcone), a polyphenolic compound of flavonoids family, presents anti-cancer properties and inhibits the signaling pathways associated with radiation resistance. Therefore, we hypothesized that butein in combination with radiation may increase radiosensitivity. To evaluate the radiosensitizing effect of butein, we used MKN-45 cell line and performed several assays such as MTT, soft-agar colony formation, apoptosis, cell cycle, and comet assays. Based on obtained results, butein significantly enhanced radiosensitivity of MKN-45 cells. Butein treatment abrogated the radiation-induced G2/M cell cycle arrest, increased DNA damage, enhanced apoptosis, and reduced colony-forming ability of irradiated cells. This study on MKN-45 cells demonstrates that combination of butein with radiotherapy increases its radiosensitivity by abrogating the radiation-induced G2/M blockage, impairing DNA repair, and enhancing apoptotic and reproductive cell death. Therefore, we suggest butein as a candidate for combination with radiation therapy to decrease dose of radiation delivered to the patients and its corresponding side effects.