Here we found that dual mTORC1/2 inhibitor AZD-2014 significantly inhibited RCC cell survival and growth, with higher efficiency than conventional mTORC1 inhibitors rapamycin and RAD001. RCC cell apoptosis was also induced by AZD-2014. AZD-2014 disrupted mTORC1/2 assembly and activation, while downregulating HIF-1α/2α and cyclin D1 expressions in RCC cells. Meanwhile, AZD-2014 activated autophagy, detected by p62 degradation, Beclin-1/ATG-5 upregulation and light LC3B-I/-II conversion. Autophagy inhibition by pharmacologic or siRNA-based means increased AZD-2014 activity in vitro, causing substantial RCC cell apoptosis. In vivo, AZD-2014 was more efficient than RAD001 in inhibiting 786-0 xenografts and downregulating HIF-1α/2α or p-AKT (Ser-473). Finally, AZD-2014's activity in vivo was further enhanced by co-administration of the autophagy inhibitor 3-methyaldenine. We provide evidence for clinical trials of using AZD-2014 in RCC treatment.

作者：Bing, Zheng；Jia-Hui, Mao；Lin, Qian；Hua, Zhu；Dong-hua, Gu；Xiao-dong, Pan；Fang, Yi；Dong-mei, Ji

来源：Cancer letters 2015 年 357卷 2期