Dong Yinying, Shen Xiaoyun, He Mingyan, Wu Zhifeng, Zheng Qiongdan, Wang Yaohui, Chen Yuhan, Wu Sifan, Cui Jiefeng, Zeng Zhaochong
Department of Radiation Oncology, Zhongshan Hospital, Fudan University, 180 Feng Lin Road, Shanghai, 200032, People's Republic of China.
Liver Cancer Institute, Zhongshan Hospital, Fudan University & Key Laboratory of Carcinogenesis and Cancer Invasion, Ministry of Education, 180 Feng Lin Road, Shanghai, 200032, People's Republic of China.
J Exp Clin Cancer Res. 2016 Jul 18;35(1):114. doi: 10.1186/s13046-016-0394-z.
It is well established that some irradiated liver non-parenchymal cells secrete pro-inflammatory cytokines to facilitate the development of radiation-induced liver disease. However, little is known on whether the irradiated hepatoma cells-mediated non-irradiated hepatocyte injury occurs in HCC patients. Here, we elucidated the roles of the irradiated hepatoma cells in driving non-irradiated hepatocyte injury and its underlying mechanism.
SMMC7721 cells were cultured and divided into irradiated (4-Gy X-ray, R) and non-irradiated (NR) groups. At 24th hour after irradiation, conditioned medium (CM) from these cultures was mixed with normal culture medium in specific proportions, and termed as 7721-R-CM and 7721-NR-CM. Following incubation with these CM compound, the biological characteristics of L02 cells related to liver cell injury including viability, apoptosis and liver dysfunction indices were comparatively analyzed. Simultaneously, the levels of proliferation- and apoptosis-related cytokines in irradiated and non-irradiated SMMC7721 cells were also measured. FasL as a cytokine with significantly differential expression, was selected to clarify its effects on L02 apoptosis. Subsequently, FasL expression following irradiation was examined in SMMC7721 and other HCC cells with varying malignant potentials, as well as in HCC tissues, the related mechanism of higher expression of FasL in irradiated HCC cells was further investigated.
Apoptosis and liver dysfunction indices were all significantly enhanced in L02 cells treated with 7721-R-CM, whereas viability was suppressed, compared to those with 7721-NR-CM stimulation. FasL was identified as a leading differential cytokine in the irradiated SMMC7721 cells. Higher proportion of apoptosis was also found in L02 cells following FasL incubation. A recombinant Fas-Fc protein, which blocks Fas-FasL interaction, ameliorated 7721-R-CM-induced apoptosis in L02 cells. FasL was highly expressed in a dose-dependent manner, and peaked at the 24th hour post-irradiation in different HCC cells and their culture supernatant. Meanwhile, phosphorylation levels of JNK, ERK, Akt, and p38 were all upregulated significantly in irradiated HCC cells. But, only JNK inhibition was validated to block radiation-induced FasL expression in HCC cells. c-Jun, the target transcription factor of JNK, was also activated.
In HCC cells, the JNK-c-Jun pathway plays an important role in mediating irradiation- induced FasL expression, which may be critical in determining non-irradiated hepatocyte injury.
众所周知,一些受辐照的肝脏非实质细胞会分泌促炎细胞因子,以促进放射性肝病的发展。然而,对于肝癌患者中是否发生受辐照的肝癌细胞介导的未受辐照肝细胞损伤,人们知之甚少。在此,我们阐明了受辐照的肝癌细胞在驱动未受辐照肝细胞损伤中的作用及其潜在机制。
培养SMMC7721细胞并将其分为辐照组(4 Gy X射线,R)和未辐照组(NR)。辐照后第24小时,将这些培养物的条件培养基(CM)按特定比例与正常培养基混合,分别称为7721-R-CM和7721-NR-CM。用这些CM复合物孵育后,比较分析L02细胞与肝细胞损伤相关的生物学特性,包括活力、凋亡和肝功能障碍指标。同时,还检测了辐照和未辐照的SMMC7721细胞中增殖和凋亡相关细胞因子的水平。选择FasL作为表达差异显著的细胞因子,以阐明其对L02细胞凋亡的影响。随后,检测了SMMC7721和其他具有不同恶性潜能的肝癌细胞以及肝癌组织辐照后的FasL表达,并进一步研究了辐照后肝癌细胞中FasL高表达的相关机制。
与7721-NR-CM刺激的L02细胞相比,用7721-R-CM处理的L02细胞凋亡和肝功能障碍指标均显著增强,而活力受到抑制。FasL被确定为辐照后的SMMC7721细胞中主要的差异细胞因子。FasL孵育后的L02细胞中也发现较高比例的凋亡。一种阻断Fas-FasL相互作用的重组Fas-Fc蛋白可改善7721-R-CM诱导的L02细胞凋亡。FasL在不同肝癌细胞及其培养上清液中以剂量依赖性方式高表达,并在辐照后第24小时达到峰值。同时,辐照后的肝癌细胞中JNK、ERK、Akt和p38的磷酸化水平均显著上调。但是,只有JNK抑制被证实可阻断肝癌细胞中辐射诱导的FasL表达。JNK的靶转录因子c-Jun也被激活。
在肝癌细胞中,JNK-c-Jun途径在介导辐射诱导的FasL表达中起重要作用,这可能是决定未受辐照肝细胞损伤的关键因素。
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