Lamhamedi-Cherradi Salah-Eddine, Menegaz Brian A, Ramamoorthy Vandhana, Vishwamitra Deeksha, Wang Ying, Maywald Rebecca L, Buford Adriana S, Fokt Izabela, Skora Stanislaw, Wang Jing, Naing Aung, Lazar Alexander J, Rohren Eric M, Daw Najat C, Subbiah Vivek, Benjamin Robert S, Ratan Ravin, Priebe Waldemar, Mikos Antonios G, Amin Hesham M, Ludwig Joseph A
Departments of Sarcoma Medical Oncology (SELC, BAM, VR, RSB, RR, JAL), Hematopathology (DV, HMA), Bioinformatics and Computational Biology (YW, JW), Investigational Cancer Therapeutics (AN, VS), Pediatrics-Patient Care (NCD), Experimental Therapeutics (IF, SS, WP), and Pathology (AJL), The University of Texas MD Anderson Cancer Center, Houston, TX; Departments of Radiology (EMR) and Molecular & Human Genetics (RLM), Baylor College of Medicine, Houston, TX; Department of Pediatric-Oncology, Texas Children's Hospital. Houston, TX (ASB); Departments of Chemical and Biomolecular Engineering and Bioengineering, Rice University, Houston, TX (AGM).
Departments of Sarcoma Medical Oncology (SELC, BAM, VR, RSB, RR, JAL), Hematopathology (DV, HMA), Bioinformatics and Computational Biology (YW, JW), Investigational Cancer Therapeutics (AN, VS), Pediatrics-Patient Care (NCD), Experimental Therapeutics (IF, SS, WP), and Pathology (AJL), The University of Texas MD Anderson Cancer Center, Houston, TX; Departments of Radiology (EMR) and Molecular & Human Genetics (RLM), Baylor College of Medicine, Houston, TX; Department of Pediatric-Oncology, Texas Children's Hospital. Houston, TX (ASB); Departments of Chemical and Biomolecular Engineering and Bioengineering, Rice University, Houston, TX (AGM)
J Natl Cancer Inst. 2016 Aug 30;108(12). doi: 10.1093/jnci/djw182. Print 2016 Dec.
Therapies cotargeting insulin-like growth factor receptor 1 (IGF-1R) and mammalian target of rapamycin (mTOR) have demonstrated remarkable, albeit short-lived, clinical responses in a subset of Ewing sarcoma (ES) patients. However, the mechanisms of resistance and applicable strategies for overcoming drug resistance to the IGF-1R/mTOR blockade are still undefined.
To elucidate predominant mechanism(s) of acquired drug resistance while identifying synergistic drug combinations that improve clinical efficacy, we generated more than 18 ES cell lines resistant to IGF-1R- or mTOR-targeted therapy. Two small-molecule inhibitors of IGF-1R were chosen, NVP-ADW-742 (IGF-1R-selective) and OSI-906 (a dual IGF-1R/insulin receptor alpha [IR-α] inhibitor). Reverse-phase protein lysate arrays (RPPAs) revealed proteomic changes linked to IGF-1R/mTOR resistance, and selected proteins were validated in cell-based assays, xenografts, and within human clinical samples. All statistical tests were two-sided.
Novel mechanisms of resistance (MOR) emerged after dalotuzumab-, NVP-ADW-742-, and OSI-906-based targeting of IGF-1R. MOR to dalotuzumab included upregulation of IRS1, PI3K, and STAT3, as well as p38 MAPK, which was also induced by OSI-906. pEIF4E(Ser209), a key regulator of Cap-dependent translation, was induced in ridaforolimus-resistant ES cell lines. Unique drug combinations targeting IGF-1R and PI3K-alpha or Mnk and mTOR were synergistic in vivo and vitro (P < .001) as assessed respectively by Mantel-Cox and isobologram testing.
We discovered new druggable targets expressed by chemoresistant ES cells, xenografts, and relapsed human tumors. Joint suppression of these newfound targets, in concert with IGF-1R or mTOR blockade, should improve clinical outcomes.
联合靶向胰岛素样生长因子受体1(IGF-1R)和雷帕霉素哺乳动物靶点(mTOR)的疗法在部分尤因肉瘤(ES)患者中显示出显著的临床反应,尽管持续时间较短。然而,耐药机制以及克服IGF-1R/mTOR阻断耐药的适用策略仍不明确。
为了阐明获得性耐药的主要机制,同时确定能提高临床疗效的协同药物组合,我们构建了18种以上对IGF-1R或mTOR靶向治疗耐药的ES细胞系。选择了两种IGF-1R小分子抑制剂,NVP-ADW-742(IGF-1R选择性)和OSI-906(一种IGF-1R/胰岛素受体α[IR-α]双重抑制剂)。反相蛋白质裂解物阵列(RPPA)揭示了与IGF-1R/mTOR耐药相关的蛋白质组学变化,并在基于细胞的试验、异种移植和人类临床样本中对选定的蛋白质进行了验证。所有统计检验均为双侧检验。
在基于达洛珠单抗、NVP-ADW-742和OSI-906靶向IGF-1R后出现了新的耐药机制(MOR)。对达洛珠单抗的MOR包括IRS1、PI3K和STAT3以及p38 MAPK的上调,OSI-906也可诱导p38 MAPK上调。pEIF4E(Ser209)是帽依赖性翻译的关键调节因子,在瑞达法莫司耐药的ES细胞系中被诱导。分别通过Mantel-Cox和等效线图测试评估,靶向IGF-1R和PI3K-α或Mnk和mTOR的独特药物组合在体内和体外具有协同作用(P < 0.001)。
我们发现了化疗耐药的ES细胞、异种移植瘤和复发性人类肿瘤中表达的新的可成药靶点。联合抑制这些新发现的靶点,同时阻断IGF-1R或mTOR,应能改善临床结局。