Silibinin is an active constituent extracted from blessed milk thistle (Silybum marianum). Our previous study demonstrated that silibinin induced autophagy and apoptosis via reactive oxygen species (ROS) generation in HeLa cells. In this study, we investigated whether the autophagy- and apoptosis-associated molecules also involved in ROS generation. Silibinin promoted the expression phosphorylated-p53 (p-p53) in a dose-dependent manner. Pifithrin-α (PFT-α), a specific inhibitor of p53, reduced ROS production and reversed silibinin's growth-inhibitory effect. The ROS scavenger N-acetyl cysteine (NAC) attenuated silibinin-induced up-regulation of p-p53 expression, suggesting that p53 might be regulated by ROS and forms a positive feedback loop with ROS. On the other hand, silibinin dose-dependently promoted the expression of phosphorylated-c-Jun N-terminal kinase (p-JNK). Inhibition of JNK by SP600125 decreased ROS generation. NAC down-regulated the expression of p-JNK, indicating that JNK could be activated by ROS. Activation of p53 was suppressed by SP600125 and expression of p-JNK was inhibited by PFT-α, therefore silibinin might activate a ROS-JNK-p53 cycle to induce cell death. Silibinin up-regulated the PUMA and Bax expressions and down-regulated the mitochondrial membrane potential (MMP) level. PFT-α reduced the expression of PUMA and Bax. These results showed that p53 could interfere with mitochondrial functions such as MMP via PUMA pathways, thus resulting in ROS generation. In order to elucidate the functions of p53 in silibinin induced ROS generation, we have chosen the A431 cells (human epithelial carcinoma) because they lack p53 activity (p53His273 mutation). Interestingly, silibinin did not up-regulate the ROS level in A431 cells but lower the ROS level. PFT-α had no influence on ROS level in A431 cells. p53 activation plays a crucial role in silibinin induced ROS generation.
Silibinin, as the major active constituent of silymarin, has its various biological effects. Here, we investigated the inhibitory effects of silibinin on HeLa cell growth in relation to autophagy and apoptosis induced by reactive oxygen species (ROS) and reactive nitrogen species (RNS) generation. Silibinin dose and time-dependently decreased cell growth cultured in medium containing 10% fetal bovine serum or in serum free media (SFM) with an IC(50) of approximately 80-100 and 40-60 μM at 24 h, respectively. Silibinin induced autophagy at 12 h, confirmed by monodansylcadervarine (MDC) staining and up-regulation of beclin-1, and induced apoptosis at 24 h, detected by observation of apoptotic bodies and activation of caspase-3. 3-methyladenine (3-MA) inhibited silibinin-induced autophagy and attenuated the silibinin's inhibitory effect on cell viability, suggesting that autophagy enhanced silibinin-induced cell death. Silibinin increased ROS levels at 12 h, and ROS scavenger, N-acetylcysteine (NAC), significantly reversed the cytotoxicity of silibinin through inhibiting both autophagy and apoptosis. Specific antioxidants were applied and results indicated that hydroxyl radical (·OH) was the major ROS induced by silibinin, and OH scavenger glutathione (GSH) inhibited apoptosis and autophagy. Silibinin also generated RNS production in the cells at 12 h. High concentration of N omega-nitro-l-arginine methyl ester (L-NAME) as nitric oxide synthase (NOS) inhibitor attenuated the cytotoxicity of silibinin by decreasing ROS levels, leading to down-regulation of apoptosis. Silibinin also could interrupt the respiring functions of mitochondria, leading to ROS production and oxidative damage.
Abstract. Pseudolaric acid B (PAB) is the primary biologically active compound isolated from the root bark of P. kaempferi GORDON. Our previous study demonstrated that PAB induced mitotic catastrophe in L929 cells and indicated that only a small percentage (12%) of the cells undergoing mitotic catastrophe displayed an apoptotic phenotype after PAB treatment for 72 h. In this study, we found that a minority of the cells undergoing mitotic catastrophe ended in apoptosis, and a majority of them entered a period of senescence. Further data confirmed that PAB induced autophagy, reactive oxygen species (ROS) generation, and mitochondrial dysfunction in L929 cells. Subsequently, we found that autophagy inhibitors significantly delayed the senescence process, indicating that autophagy facilitated senescence. Moreover, ROS scavenger significantly decreased the autophagic level and improved mitochondrial function. Additionally, autophagy inhibitors effectively reduced ROS levels and ameliorated mitochondrial function. In conclusion, autophagy promoted senescence via enhancement of ROS generation and mitochondrial dysfunction in PAB-treated L929 cells.
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