Hongdang Xu1, Yu Han2, Mengwei Zhang3, Min Yan3, Chuanyu Gao1. 1. Department of Cardiology, Zhengzhou University People's Hospital Zhengzhou, China. 2. Cardiac Intensive Care Unit, Zhengzhou University People's Hospital Zhengzhou, China. 3. Department of Breast, Zhengzhou University Cancer Hospital Zhengzhou, China.
Abstract
OBJECTIVE: To explore the effect of Osthole on protecting myocardial cell apoptosis induced by doxorubicin during cardiac failure in rats. METHODS: Myocardial cells isolated from the newborn SD rats were separated into three groups: cells treated with 1 μmol doxorubicin, cells treated with Osthole at three concentrations of 10, 20, and 40 μmol, cells treated neither with Osthole nor with doxorubicin were the control groups. Consequently, cell apoptosis of myocardial cells in each group was analyzed using TUNEL assay. Also, expressions of oxidase, NADPH, and ROS in myocardial cells were analyzed using different biological methods. Moreover, expressions of cell apoptosis associated proteins were analyzed using Western blotting. RESULTS: Compared with the controls, the results showed that cells received Osthole and doxorubicin treatments performed high percentage of cell apoptosis, suggesting that Osthole could anesis myocardial cell apoptosis induced by doxorubicin (P<0.05). Osthole of 10 μmol depressed the expressions of cell apoptosis associated proteins including Caspase-3 and Cytc, and enhancing expression of Bcl-XL expression (P<0.05). Osthole of 20 μmol significantly decreased the generation of intracellar superoxidase, NADPH, and NADPH activity in myocardial cells treated with doxorubicin (P<0.05). Moreover, Osthole of 20 μmol could significantly increase phosphorylated elF2α level in cells. CONCLUSION: Our study suggested that Osthole may play a protective role in suppressing myocardial apoptosis induced by doxorubicin through inhibiting NADPH and superoxidase production and downstream phosphorylated elF2α.
OBJECTIVE: To explore the effect of Osthole on protecting myocardial cell apoptosis induced by doxorubicin during cardiac failure in rats. METHODS: Myocardial cells isolated from the newborn SD rats were separated into three groups: cells treated with 1 μmol doxorubicin, cells treated with Osthole at three concentrations of 10, 20, and 40 μmol, cells treated neither with Osthole nor with doxorubicin were the control groups. Consequently, cell apoptosis of myocardial cells in each group was analyzed using TUNEL assay. Also, expressions of oxidase, NADPH, and ROS in myocardial cells were analyzed using different biological methods. Moreover, expressions of cell apoptosis associated proteins were analyzed using Western blotting. RESULTS: Compared with the controls, the results showed that cells received Osthole and doxorubicin treatments performed high percentage of cell apoptosis, suggesting that Osthole could anesis myocardial cell apoptosis induced by doxorubicin (P<0.05). Osthole of 10 μmol depressed the expressions of cell apoptosis associated proteins including Caspase-3 and Cytc, and enhancing expression of Bcl-XL expression (P<0.05). Osthole of 20 μmol significantly decreased the generation of intracellar superoxidase, NADPH, and NADPH activity in myocardial cells treated with doxorubicin (P<0.05). Moreover, Osthole of 20 μmol could significantly increase phosphorylated elF2α level in cells. CONCLUSION: Our study suggested that Osthole may play a protective role in suppressing myocardial apoptosis induced by doxorubicin through inhibiting NADPH and superoxidase production and downstream phosphorylated elF2α.
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