Lee Hyo-Jung, Noh Kyung Hee, Lee Young-Ho, Song Kwon-Ho, Oh Se Jin, Kim So Youn, Kim Tae Woo
Laboratory of Infection and Immunology, Graduate School of Medicine, Korea University, Seoul, Korea.
Clin Exp Metastasis. 2015 Jun;32(5):429-39. doi: 10.1007/s10585-015-9717-2. Epub 2015 Apr 22.
Metastatic recurrence after cancer treatments with radiation, cancer drugs, or even immunotherapeutic agents (cytokine, antibody, lymphocyte etc.) is often intractable and fatal for cancer patients. Therefore, molecular understanding of metastatic recurrence is necessary. Recently, these recurrent and metastatic tumor cells with resistance to cancer drugs have been reported to possess stem-like attributes and epithelial-mesenchymal transition (EMT) phenotype. Previously, we also found that antigen-specific cytotoxic T lymphocyte (CTL)-mediated immunotherapy conferred tumor cells with immune-resistant and stem-like phenotypes by hyper-activating NANOG/TCL1/AKT signaling axis. In this study, we report that these immunoedited cells have high metastatic capability and phenotypes. These cells exhibit enhanced migration, infiltration, and invasiveness in vitro as well as formation of metastatic lung nodules in vivo. Moreover, they display EMT-like features characterized by increased expression of BMI1 and TWIST1. Importantly, these pleiotropic phenotypes of metastasis through the expression of the EMT-associated molecules were critically dependent on the NANOG/TCL1A/AKT signaling axis, which was also conserved across multiple types of human cancer. Thus, we provide proof of the principle that inhibition of the NANOG axis is an effective strategy to control metastasis of immunoedited cancer, particularly, after CTL-based immunotherapy.
使用放疗、抗癌药物甚至免疫治疗药物(细胞因子、抗体、淋巴细胞等)治疗癌症后发生的转移性复发,对癌症患者来说往往难以治疗且致命。因此,有必要从分子层面了解转移性复发。最近,有报道称这些对抗癌药物具有抗性的复发性和转移性肿瘤细胞具有干细胞样特性和上皮-间质转化(EMT)表型。此前,我们还发现抗原特异性细胞毒性T淋巴细胞(CTL)介导的免疫疗法通过过度激活NANOG/TCL1/AKT信号轴,赋予肿瘤细胞免疫抗性和干细胞样表型。在本研究中,我们报告这些免疫编辑细胞具有高转移能力和表型。这些细胞在体外表现出增强的迁移、浸润和侵袭能力,在体内则形成转移性肺结节。此外,它们表现出类似EMT的特征,其特点是BMI1和TWIST1的表达增加。重要的是,这些通过EMT相关分子表达产生的多效性转移表型严重依赖于NANOG/TCL1A/AKT信号轴,该信号轴在多种人类癌症中也保守存在。因此,我们证明了抑制NANOG轴是控制免疫编辑癌症转移的有效策略,特别是在基于CTL的免疫治疗之后。
