Journal of Radiation and Cancer Research (Jan 2018)
Enhanced DNA double strand break repair triggered by microbeam irradiation induced cytoplasmic damage
Abstract
Objective: Direct exposure of the nucleus to radiation, is the primary cause of various radiobiological effects. However, the cytoplasm is equally exposed to radiation during treatments that result in activation of intracellular response. Thus, the present study is aimed at investigating (1) whether cytoplasmic irradiation affects double-strand breaks (DSBs) repair when the cytoplasm (C) and nucleus (N) is irradiated sequentially, and (2) whether the cytoplasmic irradiation alone is sufficient to induce DNA DSBs in the nucleus. Materials and Methods: To distinguish the radiobiological effects between nuclear and cytoplasmic irradiation, all the experiments were conducted using the SPICE - National Institute of Radiological Sciences microbeam (SPICE) that can target precisely the N and/or C with desired number of 3.4 MeV protons. We examined the kinetics of DSB repair in WI-38 normal human fibroblast cells that were irradiated by microbeam targeted to the N, C, or N + C. Cells were fixed at various time points between 1 and 24 h postirradiation. Subsequently, they were immunostained with antibodies against γ-H2AX, a DSB marker, and imaged, to quantify the residual DSB in each nucleus. Results: Microbeam irradiation induced significant γ-H2AX, directly proportional to the number of protons delivered per N. In the C-targeted cells, γ-H2AX levels did not increase significantly, compared to controls, 1-h postirradiation. However, 4-h postirradiation, γ-H2AX levels were significantly increased in C-targeted cells, compared to nonirradiated controls, and the increase was proportional to the number of protons delivered. Cells irradiated with 500 protons per N, showed lowered residual γ-H2AX levels in N + C cells additionally irradiated with 500 or 1000 protons targeted to the C, 16 and 24 h postirradiation, respectively. Conclusion: Our results suggest that cytoplasmic damage triggers enhanced repair of DSBs that are induced on nucleus irradiation.
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