Authors' Affiliations: The Vancouver Prostate Centre and Department of Urologic Sciences, University of British Columbia, Vancouver, British Columbia, Canada; and Department of Urology, Graduate School of Medicine, Yamaguchi University, Ube, Japan.
Cancer Res. 2013 Aug 15;73(16):5206-17. doi: 10.1158/0008-5472.CAN-13-0359. Epub 2013 Jun 20.
Although androgen receptor (AR) pathway inhibitors prolong survival in castrate-resistant prostate cancer (CRPC), resistance rapidly develops and is often associated with increased stress-activated molecular chaperones like clusterin (CLU) and continued AR signaling. Because adaptive pathways activated by treatment facilitate development of acquired resistance, cotargeting the stress response, activated by AR inhibition and mediated through CLU, may create conditional lethality and improve outcomes. Here, we report that CLU is induced by AR antagonism and silencing using MDV3100 and antisense, respectively, to become highly expressed in castrate- and MDV3100-resistant tumors and cell lines. CLU, as well as AKT and mitogen-activated protein kinase (MAPK) signalosomes, increase in response to MDV3100-induced stress. Mechanistically, this stress response is coordinated by a feed-forward loop involving p90rsk (RPS6KA)-mediated phosphoactivation of YB-1 with subsequent induction of CLU. CLU inhibition repressed MDV3100-induced activation of AKT and MAPK pathways. In addition, when combined with MDV3100, CLU knockdown accelerated AR degradation and repressed AR transcriptional activity through mechanisms involving decreased YB-1-regulated expression of the AR cochaperone, FKBP52. Cotargeting the AR (with MDV3100) and CLU (with OGX-011) synergistically enhanced apoptotic rates over that seen with MDV3100 or OGX-011 monotherapy and delayed CRPC LNCaP tumor and prostate-specific antigen (PSA) progression in vivo. These data indicate that cotargeting adaptive stress pathways activated by AR pathway inhibitors, and mediated through CLU, creates conditional lethality and provides mechanistic and preclinical proof-of-principle to guide biologically rational combinatorial clinical trial design.
尽管雄激素受体 (AR) 通路抑制剂可延长去势抵抗性前列腺癌 (CRPC) 的生存期,但耐药性迅速发展,且常与应激激活的分子伴侣(如簇蛋白 (CLU))增加和持续的 AR 信号相关。由于治疗激活的适应性途径有助于获得性耐药的发展,因此靶向 AR 抑制和 CLU 介导的应激反应可能会产生条件致死性并改善预后。在这里,我们报告说,CLU 通过 AR 拮抗剂和反义沉默分别被 MDV3100 和反义寡核苷酸诱导,在去势和 MDV3100 耐药肿瘤和细胞系中高度表达。CLU 以及 AKT 和丝裂原活化蛋白激酶 (MAPK) 信号小体在响应 MDV3100 诱导的应激时增加。从机制上讲,这种应激反应是通过涉及 p90rsk (RPS6KA)-介导的 YB-1 的磷酸化以及随后 CLU 的诱导的正反馈环协调的。CLU 抑制抑制了 MDV3100 诱导的 AKT 和 MAPK 途径的激活。此外,当与 MDV3100 联合使用时,CLU 敲低通过涉及减少 YB-1 调节 AR 共伴侣 FKBP52 表达的机制加速了 AR 的降解并抑制了 AR 的转录活性。靶向 AR(使用 MDV3100)和 CLU(使用 OGX-011)协同作用可提高凋亡率,比 MDV3100 或 OGX-011 单药治疗更明显,并延缓体内 CRPC LNCaP 肿瘤和前列腺特异性抗原 (PSA) 的进展。这些数据表明,靶向 AR 通路抑制剂激活的适应性应激途径,并通过 CLU 介导,可产生条件致死性,并提供了机制和临床前原理证明,以指导基于生物学合理性的组合临床试验设计。
