Oncology, Novartis Institutes for BioMedical Research, Cambridge, Massachusetts.
Chemical Biology and Therapeutics, Novartis Institutes for BioMedical Research, Cambridge, Massachusetts.
Mol Cancer Res. 2019 Jan;17(1):199-211. doi: 10.1158/1541-7786.MCR-18-0327. Epub 2018 Sep 10.
The most frequent genetic alterations in melanoma are gain-of-function (GOF) mutations in BRAF, which result in RAF-MEK-ERK signaling pathway addiction. Despite therapeutic success of RAF and MEK inhibitors in treating BRAF-mutant tumors, a major challenge is the inevitable emergence of drug resistance, which often involves reactivation of the MAPK pathway. Interestingly, resistant tumors are often sensitive to drug withdrawal, suggesting that hyperactivation of the MAPK pathway is not tolerated. To further characterize this phenomenon, isogenic models of inducible MAPK hyperactivation in BRAF melanoma cells were generated by overexpression of ERK2. Using this model system, supraphysiologic levels of MAPK signaling led to cell death, which was reversed by MAPK inhibition. Furthermore, complete tumor regression was observed in an ERK2-overexpressing xenograft model. To identify mediators of MAPK hyperactivation-induced cell death, a large-scale pooled shRNA screen was conducted, which revealed that only shRNAs against and rescued loss of cell viability. This suggested that no single downstream ERK2 effector was required, consistent with pleiotropic effects on multiple cellular stress pathways. Intriguingly, the detrimental effect of MAPK hyperactivation could be partially attributed to secreted factors, and more than 100 differentially secreted proteins were identified. The effect of ERK2 overexpression was highly context dependent, as RAS/RAF mutant but not RAS/RAF wild-type melanoma were sensitive to this perturbation. IMPLICATIONS: This vulnerability to MAPK hyperactivation raises the possibility of novel therapeutic approaches for RAS/RAF-mutant cancers.
黑色素瘤中最常见的遗传改变是 BRAF 的功能获得(GOF)突变,导致 RAF-MEK-ERK 信号通路成瘾。尽管 RAF 和 MEK 抑制剂在治疗 BRAF 突变型肿瘤方面取得了治疗成功,但一个主要挑战是不可避免的耐药性的出现,这通常涉及 MAPK 通路的重新激活。有趣的是,耐药肿瘤通常对药物停药敏感,这表明 MAPK 通路的过度激活是不可耐受的。为了进一步描述这种现象,通过过表达 ERK2 生成了 BRAF 黑色素瘤细胞中诱导性 MAPK 过度激活的同基因模型。使用这种模型系统,超生理水平的 MAPK 信号导致细胞死亡,MAPK 抑制可逆转该细胞死亡。此外,在 ERK2 过表达的异种移植模型中观察到完全肿瘤消退。为了鉴定 MAPK 过度激活诱导的细胞死亡的介质,进行了大规模的 pooled shRNA 筛选,结果表明只有针对 和 的 shRNA 可挽救细胞活力的丧失。这表明不需要单个下游 ERK2 效应物,这与对多种细胞应激途径的多效性效应一致。有趣的是,MAPK 过度激活的有害影响部分归因于分泌因子,并且鉴定出 100 多种差异分泌蛋白。ERK2 过表达的影响高度依赖于上下文,因为 RAS/RAF 突变型但不是 RAS/RAF 野生型黑色素瘤对这种干扰敏感。意义:这种对 MAPK 过度激活的易感性提出了针对 RAS/RAF 突变型癌症的新治疗方法的可能性。
