克拉斯
突变体
胶水
癌症研究
肺癌
MAPK/ERK通路
突变
生物
医学
细胞生物学
激酶
病理
遗传学
材料科学
基因
复合材料
作者
Brynne Raines,Stephanie Tseng-Rogenski,Amanda Dowdican,Irene Peris,Matthew Hinderman,Kaitlin P. Zawacki,K. P. Barrie,Gabrielle Hodges Onishi,Alexander M. Dymond,Tahra Luther,Steven M. Musser,Behirda Karaj Majchrowski,J. Chad Brenner,Aqila Ahmed,Derek J. Taylor,Caitlin M. O’Connor,Goutham Narla
摘要
The effectiveness of RAS/MAPK inhibitors in treating metastatic KRAS-mutant NSCLC is often hindered by the development of resistance driven by disrupted negative feedback mechanisms led by phosphatases like PP2A. PP2A is frequently suppressed in lung cancer to maintain elevated RAS/MAPK activity. Despite its established role in regulating oncogenic signaling, targeting PP2A with RAS/MAPK to prevent resistance has not been previously demonstrated. In this study, we aimed to establish a treatment paradigm by combining a PP2A molecular glue with a RAS/MAPK inhibitor to restore PP2A activity and counteract resistance. We demonstrated that KRASG12C and MEK1/2 inhibitors disrupted PP2A carboxymethylation and destabilized critical heterotrimeric complexes. Furthermore, genetic disruption of PP2A carboxymethylation enhanced intrinsic resistance to MEK1/2 inhibition both in vitro and in vivo. We developed RPT04402, a PP2A molecular glue that selectively stabilizes PP2A-B56α heterotrimers. In both commercial cell lines and a patient-derived model, combining RPT04402 with a RAS/MAPK inhibitor slowed proliferation and enhanced apoptosis. In mouse xenografts, this combination induced tumor regressions, extended median survival, and delayed the onset of treatment resistance. These findings highlight that promoting PP2A stabilization and RAS/MAPK inhibition presents a promising therapeutic strategy to improve treatment outcomes and overcome resistance in metastatic KRAS-mutant NSCLC.
科研通智能强力驱动
Strongly Powered by AbleSci AI