Department of Biochemistry, McGill University, Montreal, QC, Canada H3G 1Y6.
Proc Natl Acad Sci U S A. 2011 Jan 18;108(3):1046-51. doi: 10.1073/pnas.1011477108. Epub 2010 Dec 29.
Deregulation of cap-dependent translation is associated with cancer initiation and progression. The rate-limiting step of protein synthesis is the loading of ribosomes onto mRNA templates stimulated by the heterotrimeric complex, eukaryotic initiation factor (eIF)4F. This step represents an attractive target for anticancer drug discovery because it resides at the nexus of the TOR signaling pathway. We have undertaken an ultra-high-throughput screen to identify inhibitors that prevent assembly of the eIF4F complex. One of the identified compounds blocks interaction between two subunits of eIF4F. As a consequence, cap-dependent translation is inhibited. This compound can reverse tumor chemoresistance in a genetically engineered lymphoma mouse model by sensitizing cells to the proapoptotic action of DNA damage. Molecular modeling experiments provide insight into the mechanism of action of this small molecule inhibitor. Our experiments validate targeting the eIF4F complex as a strategy for cancer therapy to modulate chemosensitivity.
翻译 cap 依赖性翻译的去调控与癌症的发生和发展有关。蛋白质合成的限速步骤是核糖体在异三聚体复合物,真核起始因子 (eIF)4F 的刺激下加载到 mRNA 模板上。这一步是抗癌药物发现的一个有吸引力的目标,因为它位于 TOR 信号通路的交汇点。我们进行了超高通量筛选,以鉴定阻止 eIF4F 复合物组装的抑制剂。鉴定出的一种化合物阻止了 eIF4F 的两个亚基之间的相互作用。结果,cap 依赖性翻译被抑制。这种化合物可以通过使细胞对 DNA 损伤的促凋亡作用敏感,来逆转遗传工程化淋巴瘤小鼠模型中的肿瘤化疗耐药性。分子建模实验提供了对这种小分子抑制剂作用机制的深入了解。我们的实验验证了将 eIF4F 复合物作为一种调节化疗敏感性的癌症治疗策略的靶向性。