Abstract
Currently, our knowledge of how different cell types in a tissue microenvironment respond to low and high linear energy transfer (LET) radiation is highly restricted. In this study, a comparative analysis was performed on γ-ray-induced DNA damage and repair in primary human melanocytes and keratinocytes isolated from 3 donors. Our study demonstrates a modest interindividual variability in both melanocytes and keratinocytes in terms of both spontaneous and ionizing radiation (IR)-induced 53BP1 foci formation and persistence. Melanocytes, in general, showed a slightly elevated (1.66–2.79 folds more) 53BP1 foci induction relative to keratinocytes after exposure to different doses of γ-rays (0.1–2.5 Gy) radiation. To verify the influence of ATM kinase on IR-induced 53BP1 foci formation, melanocytes and keratinocytes were treated with a specific ATM kinase inhibitor (KU55993, 10 μM) for 1 h prior to radiation. ATM kinase inhibition resulted in the reduction of both spontaneous and IR-induced 53BP1 foci by 17–42% in both melanocytes and keratinocytes of all the 3 donors. Increased persistence of IR-induced 53BP1 foci number was observed in ATM-inhibited melanocytes and keratinocytes after different post exposure times (6 h and 24 h). Taken together, our study suggests that interindividual variations exist in the induction and repair of DNA double-strand breaks (DSBs) in melanocytes and keratinocytes and that ATM is crucial for an optimal DSB repair efficiency in both human skin cell types.
Subject
Genetics (clinical),Genetics,Molecular Biology
Cited by
3 articles.
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