Song Yeonhwa, Jang Jaewoo, Shin Tae-Hoon, Bae Sang Mun, Kim Jin-Sun, Kim Kang Mo, Myung Seung-Jae, Choi Eun Kyung, Seo Haeng Ran
Cancer Biology Research Laboratory, Institut Pasteur Korea, 16, Daewangpangyo-ro 712 beon-gil, Bundang-gu, Seongnam-si, Gyeonggi-do, 13488, South Korea.
Laboratory of Biochemistry, Division of Life Sciences, Korea University, 145, Anam-ro, Seongbuk-gu, Seoul, 02841, South Korea.
J Exp Clin Cancer Res. 2017 Mar 3;36(1):38. doi: 10.1186/s13046-017-0511-7.
CD133-positive cells in hepatocellular carcinoma (HCC) exhibit cancer stem cell (CSC)-like properties as well as resistance to chemotherapeutic agents and ionizing radiation; however, their function remains unknown. In this paper, we identified a hitherto unknown mechanism to overcome CD133-induced resistance to anticancer therapy.
We applied an alternative approach to enrich the CD133-positive HCC population by manipulating 3D culture conditions. Defense mechanisms against reactive oxygen species (ROS) in CSC spheroids were evaluated by fluorescence image-based phenotypic screening system. Further, we studied the effect of sulfasalazine on ROS defense system and synergistic therapeutic efficacy of anticancer therapies both in culture and in vivo HCC xenograft mouse model.
Here, we found that oxidative stress increase CD133 expression in HCC and increased CD133 expression enhanced the capacity of the defense system against ROS, and thereby play a central role in resistance to liver cancer therapy. Moreover, ablation of CD133 attenuated not only the capacity for defense against ROS, but also chemoresistance, in HCC through decreasing glutathione (GSH) levels in vitro. Sulfasalazine, a potent xCT inhibitor that plays an important role in maintaining GSH levels, impaired the ROS defense system and increased the therapeutic efficacy of anticancer therapies in CD133-positive HCC but not CD133-negative HCC in vivo and in vitro.
These results strongly indicate functional roles for CD133 in ROS defense and in evading anticancer therapies in HCC, and suggest that sulfasalazine, administered in combination with conventional chemotherapy, might be an effective strategy against CD133-positive HCC cells.
肝细胞癌(HCC)中的CD133阳性细胞表现出癌症干细胞(CSC)样特性以及对化疗药物和电离辐射的抗性;然而,它们的功能仍不清楚。在本文中,我们确定了一种前所未知的机制来克服CD133诱导的抗癌治疗抗性。
我们采用了一种替代方法,通过操纵三维培养条件来富集CD133阳性HCC群体。通过基于荧光图像的表型筛选系统评估CSC球体中针对活性氧(ROS)的防御机制。此外,我们研究了柳氮磺胺吡啶对ROS防御系统的影响以及抗癌治疗在体外培养和体内HCC异种移植小鼠模型中的协同治疗效果。
在此,我们发现氧化应激增加了HCC中CD133的表达,而增加的CD133表达增强了针对ROS的防御系统的能力,从而在肝癌治疗抗性中发挥核心作用。此外,在体外通过降低谷胱甘肽(GSH)水平,消除CD133不仅减弱了HCC中针对ROS的防御能力,还减弱了化疗抗性。柳氮磺胺吡啶是一种在维持GSH水平中起重要作用的强效xCT抑制剂,它损害了ROS防御系统,并在体内和体外增加了抗癌治疗对CD133阳性HCC而非CD133阴性HCC的治疗效果。
这些结果有力地表明了CD133在HCC的ROS防御和逃避抗癌治疗中的功能作用,并表明柳氮磺胺吡啶与传统化疗联合使用可能是对抗CD133阳性HCC细胞的有效策略。
