揭示细胞内 Raf 抑制剂敏感性的机理基础,揭示协同处理策略

Ethan G Stoddard, Linglan Fang, Yuhao Zhong, Zachary E Potter, Daniel S Brush, Jessica J Simon, Martin Golkowski, Dustin J Maly
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摘要

Raf 激酶是 Ras-Raf-Mek-Erk 信号通路中的关键效应因子,因此成为开发癌症疗法的重要靶点。本研究调查了DFG-出稳定Raf抑制剂在突变KRas表达细胞系中的不同效力。我们证明,抑制剂的效力与基础 Raf 活性相关,活性越高的 Raf 越容易受到抑制。我们进一步证明,DFG-出稳定抑制剂会破坏高亲和力的 Raf-Mek 相互作用,促进被抑制的 Raf 二聚体的形成。此外,我们发现 cobimetinib 是一种 Mek 抑制剂,它通过破坏自动抑制的 Raf-Mek 复合物,使 Raf 对 DFG-out 抑制剂独特地敏感。基于这一认识,我们开发出了具有更强增敏特性的氯贝替尼类似物。我们的发现为了解细胞对 DFG-out 稳定抑制剂敏感性的决定因素提供了一个机理框架,并为优化 Raf-Mek 抑制剂的协同组合提供了策略。
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Uncovering the mechanistic basis of intracellular Raf inhibitor sensitivity reveals synergistic cotreatment strategies
Raf kinases are crucial effectors in the Ras-Raf-Mek-Erk signaling pathway, making them important targets for the development of cancer therapeutics. This study investigates the variable potency of DFG-out-stabilizing Raf inhibitors in mutant KRas-expressing cell lines. We demonstrate that inhibitor potency correlates with basal Raf activity, with more active Raf being more susceptible to inhibition. We further show that DFG-out-stabilizing inhibitors disrupt high-affinity Raf-Mek interactions, promoting the formation of inhibited Raf dimers. Furthermore, we identify cobimetinib as a Mek inhibitor that uniquely sensitizes Raf to DFG-out inhibitors by disrupting autoinhibited Raf-Mek complexes. Building on this insight, we developed cobimetinib analogs with enhanced sensitization properties. Our findings provide a mechanistic framework for understanding the cellular determinants of DFG-out-stabilizing inhibitor sensitivity and offer strategies for optimizing synergistic Raf-Mek inhibitor combinations.
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