Naoto Tatewaki, Hiroshi Nishida, Masaaki Yoshida, Hidehiro Ando, Seizo Kondo, Toshiyuki Sakamaki, Tetsuya Konishi
Department of Functional and Analytical Food Sciences, Faculty of Applied Life Sciences, Niigata University of Pharmacy & Applied Life Sciences, Niigata, Japan.
Journal of pharmacological sciences 2013We have previously reported that schisandrin B (SchB) is a specific inhibitor of ATR (ataxia telangiectasia and Rad-3-related) protein kinase. Since SchB consists of a mixture of its diastereomers gomisin N (GN) and γ-schisandrin (γ-Sch), the inhibitory action of SchB might result from a stereospecific interaction between one of the stereoisomers of SchB and ATR. Therefore, we investigated the effect of GN and γ-Sch on UV (UVC at 254 nm)-induced activation of DNA damage checkpoint signaling in A549 cells. UV-induced cell death (25 - 75 J/m(2)) was amplified by the presence of the diastereomers, especially GN. At the same time, GN, but not γ-Sch, inhibited the phosphorylation of checkpoint proteins such as p53, structural maintenance of chromosomes 1, and checkpoint kinase 1 in UV-irradiated cells. Moreover, GN inhibited the G2/M checkpoint during UV-induced DNA damage. The in vitro kinase activity of immunoaffinity-purified ATR was dose-dependently inhibited by GN (IC50: 7.28 μM) but not by γ-Sch. These results indicate that GN is the active component of SchB and suggest that GN inhibits the DNA damage checkpoint signaling by stereospecifically interacting with ATR.
Naoto Tatewaki, Hiroshi Nishida, Masaaki Yoshida, Hidehiro Ando, Seizo Kondo, Toshiyuki Sakamaki, Tetsuya Konishi. Differential effect of schisandrin B stereoisomers on ATR-mediated DNA damage checkpoint signaling. Journal of pharmacological sciences. 2013;122(2):138-48
PMID: 23739596
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