Key Laboratory of Preclinical Study for New Drugs of Gansu Province, School of Basic Medical Sciences, Lanzhou University , Lanzhou , China and.
Toxicol Mech Methods. 2013 Nov;23(9):678-83. doi: 10.3109/15376516.2013.843105. Epub 2013 Oct 8.
Autophagy, as a necessary process for survival in mammalian cells deprived of nutrients or growth factors, will be activated in many tumor cells while treated with chemotherapeutic drugs, but the role of autophagy in acquired multidrug resistance of human acute myelogenous leukemia to adriamycin-based chemotherapy remains to be clarified. Our aim was to address that question by surveying the autophagic activity in parental acute myelogenous leukemia cell line K562 and resistant sub cell line, K562/ADM, which were obtained by treating adriamycin with increasing concentrations. K562/ADM and K562 cells were exposed to PBS culture medium for 3 hours, then the stress-induced autophagy was measured. Real-time quantitative RT-PCR revealed the expression of LC3 mRNA was higher in K562/ADM than in K562 cells. LC3-II, as an autophagosomal marker, was more abundant in K562/ADM than in K562 cells measured by Western blotting. To determine the effect of 3-MA, a known specific inhibitor of autophagy, on overcoming acquired multidrug resistance induced by adriamycin, the MTT assay and flow cytometry were performed. We also found that 3-MA can enhance the growth inhibition and apoptotic effect of adriamycin in acquired resistant cells (K562/ADM). Collectively, our results provide evidence that the upregulation of autophagy plays a major role in multidrug resistance of K562/ADM cells induced by adriamycin.
自噬作为哺乳动物细胞在缺乏营养或生长因子时生存的必要过程,在许多肿瘤细胞受到化疗药物治疗时会被激活,但自噬在人急性髓系白血病对阿霉素为基础的化疗获得多药耐药中的作用仍需阐明。我们的目的是通过调查亲本急性髓系白血病细胞系 K562 和耐药亚系 K562/ADM 中的自噬活性来解决这个问题,这两个亚系是通过用递增浓度的阿霉素处理而获得的。K562/ADM 和 K562 细胞用 PBS 培养基孵育 3 小时,然后测量应激诱导的自噬。实时定量 RT-PCR 显示 LC3 mRNA 在 K562/ADM 中的表达高于 K562 细胞。Western blot 显示 LC3-II 作为自噬体标志物,在 K562/ADM 中的含量高于 K562 细胞。为了确定 3-MA(一种已知的自噬特异性抑制剂)对克服阿霉素诱导的获得性多药耐药的影响,进行了 MTT 测定和流式细胞术。我们还发现 3-MA 可以增强获得性耐药细胞(K562/ADM)中阿霉素的生长抑制和凋亡作用。综上所述,我们的结果提供了证据表明,自噬的上调在阿霉素诱导的 K562/ADM 细胞多药耐药中起主要作用。
