Abstract
Histone H2AX rapidly undergoes phosphorylation at Ser139 (γ-H2AX) in response to DNA double-strand breaks. Although ATM kinase and DNA-PK phosphorylate Ser139 of H2AX in culture cells, the regulatory mechanism of γ-H2AX level remains unclear in vivo. Here, we detected the phosphorylation of H2AX and the elimination of γ-H2AX in the mouse skin after X-irradiation. Furthermore, following X-irradiation, the level of γ-H2AX also increased in mice lacking either ATM or DNA-PK. Although the elimination after X-irradiation was detected in the skin of these mutant mice, the elimination in DNA-PK-deficient mice was slower than that in C3H and ATM knockout mice, suggesting that a fraction of γ-H2AX in the skin is eliminated in a DNA-PK-dependent manner. Although the DNA-PK-dependent elimination of γ-H2AX was also detected in the liver, kidney, and spleen, the DNA-PK-dependent phosphorylation of H2AX was detected in the spleen only. These results suggest that the regulatory mechanism of γ-H2AX level is tissue-specific.
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