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Modulation of Radiation-Induced Base Excision Repair Pathway Gene Expression by Melatonin Publisher



Rezapoor S1 ; Shirazi A2 ; Abbasi S3 ; Bazzaz J2 ; Izadi P2 ; Rezaeejam H4 ; Valizadeh M5 ; Soleimanimohammadi F6 ; Najafi M7
Authors
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Authors Affiliations
  1. 1. Department of Radiology, School of Allied Medical Sciences, Tehran University of Medical Sciences, Tehran, Iran
  2. 2. Department of Medical Physics and Biomedical Engineering, Faculty of Medicine, Tehran University of Medical Sciences, Tehran, Iran
  3. 3. Department of Medical Biotechnology, School of Allied Medical Sciences, Tehran University of Medical Sciences, Tehran, Iran
  4. 4. Department of Radiology, Allied Medical School, Zanjan University of Medical Sciences, Zanjan, Iran
  5. 5. Department of Medical Physics, Faculty of Medicine, Zabol University of Medical Sciences, Zabol, Iran
  6. 6. Department of Virology, School of Public Health, Tehran University of Medical Sciences, Tehran, Iran
  7. 7. Department of Radiology and Nuclear Medicine, School of Paramedical Sciences, Kermanshah University of Medical Sciences, Kermanshah, Iran

Source: Journal of Medical Physics Published:2017


Abstract

Objective: Approximately 70% of all cancer patients receive radiotherapy. Although radiotherapy is effective in killing cancer cells, it has adverse effects on normal cells as well. Melatonin (MLT) as a potent antioxidant and anti-inflammatory agent has been proposed to stimulate DNA repair capacity. We investigated the capability of MLT in the modification of radiation-induced DNA damage in rat peripheral blood cells. Materials and Methods: In this experimental study, male rats (n = 162) were divided into 27 groups (n = 6 in each group) including: irradiation only, vehicle only, vehicle with irradiation, 100 mg/kg MLT alone, 100 mg/kg MLT plus irradiation in 3 different time points, and control. Subsequently, they were irradiated with a single whole-body X-ray radiation dose of 2 and 8 Gy at a dose rate of 200 MU/min. Rats were given an intraperitoneal injection of MLT or the same volume of vehicle alone 1 h prior to irradiation. Blood samples were also taken 8, 24, and 48 h postirradiation, in order to measure the 8-oxoguanine glycosylase1 (Ogg1), Apex1, and Xrcc1 expression using quantitative real-time-polymerase chain reaction. Results: Exposing to the ionizing radiation resulted in downregulation of Ogg1, Apex1, and Xrcc1 gene expression. The most obvious suppression was observed in 8 h after exposure. Pretreatments with MLT were able to upregulate these genes when compared to the irradiation-only and vehicle plus irradiation groups (P < 0.05) in all time points. Conclusion: Our results suggested that MLT in mentioned dose may result in modulation of Ogg1, Apex1, and Xrcc1 gene expression in peripheral blood cells to reduce X-ray irradiation-induced DNA damage. Therefore, administration of MLT may increase the normal tissue tolerance to radiation through enhancing the cell DNA repair capacity. We believed that MLT could play a radiation toxicity reduction role in patients who have undergone radiation treatment as a part of cancer radiotherapy. © 2017 Journal of Medical Physics.
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