Al-Halabi Racha, Abou Merhi Raghida, Chakilam Saritha, El-Baba Chirine, Hamade Eva, Di Fazio Pietro, Ocker Matthias, Schneider-Stock Regine, Gali-Muhtasib Hala
Department of Biology, Faculty of Sciences, EDST, Lebanese University, Beirut, Lebanon.
Institute for Surgical Research, Philipps University of Marburg, Marburg, Germany.
Mol Carcinog. 2015 Oct;54(10):1037-50. doi: 10.1002/mc.22172. Epub 2014 May 6.
The plant secondary metabolite gallotannin (GT) is the simplest hydrolyzable tannin shown to have anti-carcinogenic properties in several cell lines and to inhibit tumor development in different animal models. Here, we determined if GT induces senescence and DNA damage and investigated the involvement of p53 and p21 in this response. Using HCT116 human colon cancer cells wildtype for p53(+/+) /p21(+/+) and null for p53(+/+) /p21(-/-) or p53(-/-) /p21(+/+) , we found that GT induces senescence independently of p21 and p53. GT was found to increase the production of reactive oxygen species (ROS) by altering the redox balance in the cell, mainly by reducing the levels of glutathione and superoxide dismutase (SOD). Using the key antioxidants N-acetyl cysteine, dithiothreitol, SOD, and catalase, we showed that ROS were partially involved in the senescence response. Furthermore, GT-induced cell cycle arrest in S-phase in all HCT116 cell lines. At later time points, we noticed that p53 and p21 null cells escaped complete arrest and re-entered cell cycle provoking higher rates of multinucleation. The senescence induction by GT was irreversible and was accompanied by significant DNA damage as evidenced by p-H2AX staining. Our findings indicate that GT is an interesting anti colon cancer agent which warrants further study.
植物次生代谢产物没食子单宁(GT)是最简单的可水解单宁,已证明在多种细胞系中具有抗癌特性,并能在不同动物模型中抑制肿瘤发展。在此,我们确定了GT是否诱导衰老和DNA损伤,并研究了p53和p21在这一反应中的作用。使用p53(+/+) /p21(+/+)野生型且p53(+/+) /p21(-/-)或p53(-/-) /p21(+/+)缺失的HCT116人结肠癌细胞,我们发现GT诱导衰老独立于p21和p53。发现GT通过改变细胞内的氧化还原平衡来增加活性氧(ROS)的产生,主要是通过降低谷胱甘肽和超氧化物歧化酶(SOD)的水平。使用关键抗氧化剂N-乙酰半胱氨酸、二硫苏糖醇、SOD和过氧化氢酶,我们表明ROS部分参与了衰老反应。此外,GT在所有HCT116细胞系中诱导S期细胞周期停滞。在后期时间点,我们注意到p53和p21缺失的细胞逃脱了完全停滞并重新进入细胞周期,导致多核化率更高。GT诱导的衰老不可逆,并伴有明显的DNA损伤,这通过p-H2AX染色得以证明。我们的研究结果表明,GT是一种值得进一步研究的有趣的抗结肠癌药物。
