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DNA repair machinery is involved in estrogen-dependent transactivation. Mounting evidence suggests that mechanisms underlying estrogen-induced DNA damage are complicated. To date estrogen-induced DNA oxidation and its impact on ERα-mediated transaction… Click to show full abstract
DNA repair machinery is involved in estrogen-dependent transactivation. Mounting evidence suggests that mechanisms underlying estrogen-induced DNA damage are complicated. To date estrogen-induced DNA oxidation and its impact on ERα-mediated transaction remains ambiguous. Herein, we found that the process of 17β-estradiol (E2)-induced ROS production can be approximately divided into two phases according to responding time and generation mechanisms. The intracellular Ca2+ fluctuation and ERα-dependent transcription lead to temporospatially different oxidative DNA damage. Further, we demonstrate that DNA oxidation is dispensable for estrogen-responsive gene expression. Dynamics of estrogen-induced DNA strand break generation also show two-phase pattern and topoisomerase-mediated DNA stand breaks are essential in estrogen signaling. Collectively, our findings have provided new insights into oxidative DNA damage in estrogen signaling.
Journal Title: Biochemical and biophysical research communications
Year Published: 2022
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