Kumar Rahul, Deep Gagan, Wempe Michael F, Surek Joseph, Kumar Amit, Agarwal Rajesh, Agarwal Chapla
Department of Pharmaceutical Sciences, Skaggs School of Pharmacy, University of Colorado Denver, Aurora, Colorado.
University of Colorado Cancer Center, University of Colorado Denver, Aurora, Colorado.
Mol Carcinog. 2018 Jan;57(1):57-69. doi: 10.1002/mc.22731. Epub 2017 Sep 22.
Neoplastic cells exhibit higher oxidative stress compared to normal cells; however, antioxidants based clinical trials have mostly failed. Another attractive therapeutic approach is to further increase the oxidative stress in cancer cells leading to cell death. Herein, we show that Procyanidin B2 3,3″-di-O-gallate (B2G2), the most active constituent of grape seed extract, treatment causes cell death in human prostate cancer (PCa) cells (LNCaP and 22Rv1) via increasing the reactive oxygen species (ROS) generation. Mechanistically, B2G2 treatment decreased the mitochondrial electron transport chain complex III activity leading to enhanced mitochondrial superoxide generation and decreased ATP production in LNCaP cells. Additional molecular studies revealed that B2G2-induced cell death was mediated mainly through ROS-induced sustained activation of ERK1/2, which was due to inhibition of MAP kinase phosphatase (MKP) activity as over-expression of MKP3 in LNCaP cells conferred significant protection against B2G2-induced cell death. Along with ERK1/2, AMP-activated protein kinase α (AMPKα) was also activated by B2G2 treatment, and pre-treatment with AMPKα inhibitor compound C significantly reversed the cytotoxic effects of B2G2 in LNCaP cells. Furthermore, pre-treatment of MKP3 over-expressing LNCaP cells with compound C further reduced the B2G2-induced cell death, suggesting the involvement of AMPKα along with MKP3 and ERK1/2 in the biological effects of B2G2. Together, these results for the first time identified that oxidative stress and MKP3 inhibition play a critical role in B2G2-induced cell death in PCa cells through sustained activation of both ERK1/2 and AMPKα. These results offer a unique opportunity to control this deadly malignancy through B2G2 use.
与正常细胞相比,肿瘤细胞表现出更高的氧化应激;然而,基于抗氧化剂的临床试验大多失败了。另一种有吸引力的治疗方法是进一步增加癌细胞中的氧化应激,从而导致细胞死亡。在此,我们表明葡萄籽提取物中最具活性的成分原花青素B2 3,3″-二-O-没食子酸酯(B2G2)通过增加活性氧(ROS)的产生,导致人前列腺癌(PCa)细胞(LNCaP和22Rv1)死亡。从机制上讲,B2G2处理降低了线粒体电子传递链复合物III的活性,导致LNCaP细胞中线粒体超氧化物生成增加和ATP产生减少。进一步的分子研究表明,B2G2诱导的细胞死亡主要通过ROS诱导的ERK1/2持续激活介导,这是由于丝裂原活化蛋白激酶磷酸酶(MKP)活性受到抑制,因为LNCaP细胞中MKP3的过表达赋予了对B2G2诱导的细胞死亡的显著保护作用。与ERK1/2一起,B2G2处理还激活了AMP活化蛋白激酶α(AMPKα),用AMPKα抑制剂化合物C预处理可显著逆转B2G2对LNCaP细胞的细胞毒性作用。此外,用化合物C预处理过表达MKP3的LNCaP细胞进一步降低了B2G2诱导的细胞死亡,表明AMPKα与MKP3和ERK1/2一起参与了B2G2的生物学效应。总之,这些结果首次确定氧化应激和MKP3抑制通过ERK1/2和AMPKα的持续激活在B2G2诱导的PCa细胞死亡中起关键作用。这些结果为通过使用B2G2来控制这种致命的恶性肿瘤提供了独特的机会。
