Enhancement of cisplatin-induced colon cancer cells apoptosis by shikonin, a natural inducer of ROS in vitro and in vivo.

Cisplatin-based therapy is one of the most important chemotherapy treatments for cancers. However, its efficacy is greatly limited by drug resistance and undesirable side effects. Therefore, it is of great importance to develop effective chemosensitization agents to cisplatin. In the present study, we demonstrated the strategy to use shikonin, a natural product from the root of Lithospermum erythrorhizon, as a synergistic agent of cisplatin and elucidated their action mechanisms. The combination of shikonin and cisplatin exhibited synergistic anticancer efficacy and achieved greater selectivity between cancer cells and normal cells. By inducing intracellular oxidative stress, shikonin potentiated cisplatin-induced DNA damage, followed by increased activation of mitochondrial pathway. In addition, inhibition of ROS reversed the apoptosis induced by shikonin and cisplatin, and recovered the depletion of mitochondrial membrane potential, which revealed the vital role of ROS in the synergism. Moreover, HCT116 xenograft tumor growth in nude mice was more effectively inhibited by combined treatment with shikonin and cisplatin. Our findings suggest that the strategy to apply shikonin as a synergistic agent to cisplatin could be a highly efficient way to achieve anticancer synergism by inducing intracellular oxidative stress. Shikonin may be a promising candidate as a chemosensitizer to cisplatin-based therapy for cancer treatments.

[Role of vascular endothelial active facters in gas exchange impairment induced by tourniquet and the effect of shenmai injection].

OBJECTIVE: To investigate the effect of Shenmai injection on vascular endothelial active facters nitric oxide (NO) and endothelin-1 (ET-1), and pulmonary gas exchange induced by tourniquet deflation in patients undergoing lower extremity surgery. METHOD: Twenty-six patients scheduled for unilateral lower extremity surgery were randomly divided into 2 groups: control group (group C, n = 14) and Shenmai injection group (group SM, n = 12). All the patients agreed to a combined spinal-epidural anesthesia at the L2-L3 interspace and a radial artery catheter was placed for sampling. Patients in group SM were injected Shenmai injection 0.6 mL x kg(-1) and physiological saline 100 mL, while patients in group C were injected equal volume of normal saline instead 15 min before tourniquet inflation. Blood samples which were used for blood gas analysis and measurement of nitric oxide (NO) and endothelin-1 (ET-1) were taken before tourniquet inflation (T0, baseline) and 30 min (T1), 2 h (T2), 6 h (T3), 24 h (T4) after tourniquet deflation. RESULT: Compared with the baseline values at T0, in group C at T3 P(a) O2 and the levels of NO were significantly decreased, while P(A-a) DO2 and the levels of ET-1 at T3 were significantly increased (P < 0.05 or P < 0.01), in group SM, the levels of NO at T3 were significantly decreased (P < 0.05). Compared with group C, the changes of P(a)O2, P(A-a) DO2, NO and ET-1 were significantly mitigated in group SM. CONCLUSION: The concentrations of NO and ET-1 is connected with the pulmonary gas exchange impairment induced by tourniquet application. Shenmai injection can improve the pulmonary gas exchange based on rising the level of NO, reducing the level of ET-1.