Regulation of TORC1 by MAPK Signaling Determines Sensitivity and Acquired Resistance to Trametinib in Pediatric BRAFV600E Brain Tumor Models.
Fuyang LiKathryn M BondraSamson GhiluAdam StudebakerQianqian LiuJoel E MichalekMari KogisoXiao-Nan LiJohn A KalapurakalC David JamesSandeep BurmaRaushan T KurmashevaPeter J HoughtonPublished in: Clinical cancer research : an official journal of the American Association for Cancer Research (2022)
In these three pediatric BRAF-mutant brain tumors, TORC1 signaling is controlled by the MAPK cascade. Trametinib suppressed both MAPK/TORC1 pathways leading to tumor regression. While low-dose intermittent rapamycin to enhance inhibition of TORC1 only modestly enhanced the antitumor activity of trametinib, it prevented or retarded development of trametinib resistance, suggesting future therapeutic approaches using rapamycin analogs in combination with MEKis that may be therapeutically beneficial in both KIAA1549::BRAF- and BRAFV600E-driven gliomas.