Cancer Epigenetics Laboratory, INGEMM, La Paz University Hospital, Madrid, Spain; Biomarkers and Experimental Therapeutics in Cancer, IdiPAZ, Madrid, Spain.
Department of Biochemistry Research, Laboratory of Aptamers, IRYCIS-Hospital Ramón y Cajal, Madrid, Spain.
Transl Res. 2018 Oct;200:1-17. doi: 10.1016/j.trsl.2018.06.005. Epub 2018 Jun 30.
Adjuvant chemotherapy for solid tumors based on platinum-derived compounds such as cisplatin is the treatment of choice in most cases. Cisplatin triggers signaling pathways that lead to cell death, but it also induces changes in tumor cells that modify the therapeutic response, thereby leading to cisplatin resistance. We have recently reported that microRNA-7 is silenced by DNA methylation and is involved in the resistance to platinum in cancer cells through the action of the musculoaponeurotic fibrosarcoma oncogene family, protein G (MAFG). In the present study, we first confirm the miR-7 epigenetic regulation of MAFG in 44 normal- and/or tumor-paired samples in non-small-cell lung cancer (NSCLC). We also provide translational evidence of the role of MAFG and the clinical outcome in NSCLC by the interrogation of two extensive in silico databases of 2019 patients. Moreover, we propose that MAFG-mediated resistance could be conferred due to lower reactive oxygen species production after cisplatin exposure. We developed specifically selected aptamers against MAFG, with high sensitivity to detect the protein at a nuclear level probed by aptacytochemistry and histochemistry analyses. The inhibition of MAFG activity through the action of the specific aptamer apMAFG6F increased the levels of reactive oxygen species production and the sensitivity to cisplatin. We report first the specific nuclear identification of MAFG as a novel detection method for diagnosis in NSCLC, and then we report that MAFG modulates the redox response and confers cell protection against free radicals generated after platinum administration, thus also being a promising therapeutic target.
基于铂类化合物(如顺铂)的辅助化疗是大多数情况下的首选治疗方法。顺铂触发导致细胞死亡的信号通路,但它也诱导肿瘤细胞发生变化,从而改变治疗反应,导致顺铂耐药。我们最近报道,miR-7 被 DNA 甲基化沉默,并通过肌动蛋白连接纤维肉瘤致癌基因家族蛋白 G(MAFG)的作用参与癌细胞对铂的耐药性。在本研究中,我们首先在非小细胞肺癌(NSCLC)的 44 对正常和/或肿瘤样本中证实了 miR-7 对 MAFG 的表观遗传调控。我们还通过对 2019 名患者的两个广泛的计算数据库的查询,提供了 MAFG 在 NSCLC 中的作用和临床结果的转化证据。此外,我们提出,由于顺铂暴露后产生的活性氧(ROS)减少,可能会导致 MAFG 介导的耐药性。我们开发了针对 MAFG 的特异性选择适体,通过适体细胞化学和组织化学分析,对核水平的蛋白质具有高灵敏度的检测。通过特异性适体 apMAFG6F 抑制 MAFG 活性,增加了 ROS 产生的水平和对顺铂的敏感性。我们首次报告了 MAFG 的特异性核鉴定,作为 NSCLC 诊断的一种新的检测方法,然后报告了 MAFG 调节氧化还原反应,并赋予细胞对铂给药后产生的自由基的保护作用,因此也是一个有前途的治疗靶点。
