Radic-Sarikas Branka, Tsafou Kalliopi P, Emdal Kristina B, Papamarkou Theodore, Huber Kilian V M, Mutz Cornelia, Toretsky Jeffrey A, Bennett Keiryn L, Olsen Jesper V, Brunak Søren, Kovar Heinrich, Superti-Furga Giulio
CeMM Research Center for Molecular Medicine of the Austrian Academy of Sciences, Vienna, Austria.
Center for Biological Sequence Analysis, Department of Systems Biology, Technical University of Denmark, Lyngby, Denmark.
Mol Cancer Ther. 2017 Jan;16(1):88-101. doi: 10.1158/1535-7163.MCT-16-0235. Epub 2016 Nov 15.
Improvements in survival for Ewing sarcoma pediatric and adolescent patients have been modest over the past 20 years. Combinations of anticancer agents endure as an option to overcome resistance to single treatments caused by compensatory pathways. Moreover, combinations are thought to lessen any associated adverse side effects through reduced dosing, which is particularly important in childhood tumors. Using a parallel phenotypic combinatorial screening approach of cells derived from three pediatric tumor types, we identified Ewing sarcoma-specific interactions of a diverse set of targeted agents including approved drugs. We were able to retrieve highly synergistic drug combinations specific for Ewing sarcoma and identified signaling processes important for Ewing sarcoma cell proliferation determined by EWS-FLI1 We generated a molecular target profile of PKC412, a multikinase inhibitor with strong synergistic propensity in Ewing sarcoma, revealing its targets in critical Ewing sarcoma signaling routes. Using a multilevel experimental approach including quantitative phosphoproteomics, we analyzed the molecular rationale behind the disease-specific synergistic effect of simultaneous application of PKC412 and IGF1R inhibitors. The mechanism of the drug synergy between these inhibitors is different from the sum of the mechanisms of the single agents. The combination effectively inhibited pathway crosstalk and averted feedback loop repression, in EWS-FLI1-dependent manner. Mol Cancer Ther; 16(1); 88-101. ©2016 AACR.
在过去20年里,尤因肉瘤儿科和青少年患者的生存率改善幅度不大。抗癌药物联合使用仍是克服由代偿途径导致的单药耐药的一种选择。此外,联合用药被认为可通过减少剂量来减轻任何相关的不良副作用,这在儿童肿瘤中尤为重要。我们采用源自三种儿科肿瘤类型的细胞的平行表型组合筛选方法,确定了包括已批准药物在内的多种靶向药物的尤因肉瘤特异性相互作用。我们能够找到针对尤因肉瘤的高度协同的药物组合,并确定了由EWS-FLI1决定的对尤因肉瘤细胞增殖重要的信号传导过程。我们生成了PKC412的分子靶点图谱,PKC412是一种在尤因肉瘤中具有强烈协同倾向的多激酶抑制剂,揭示了其在关键的尤因肉瘤信号通路中的靶点。我们采用包括定量磷酸蛋白质组学在内的多层次实验方法,分析了同时应用PKC412和IGF1R抑制剂产生疾病特异性协同效应的分子原理。这些抑制剂之间的药物协同机制不同于单药机制的总和。该联合用药以EWS-FLI1依赖的方式有效抑制通路串扰并避免反馈回路抑制。《分子癌症治疗》;16(1);88 - 101。©2016美国癌症研究协会。
