Abstract 4747: Novel targets for BRAFV600E and BRAFV600ERAC1P29S drug resistant melanoma

Abstract

Abstract The most common mutational drivers in malignant melanoma are the oncogene BRAFV600E/K (60%), NRASQ61L/R (30%) and the RHO GTPase RAC1P29S/L (9%). BRAFV600E/K melanoma standard of care comprises the use of checkpoint inhibitors (CPIs) such as anti-PD1 or anti-CTLA-4 in combination with targeted therapies against BRAF and MEK kinases. BRAF mutant melanomas develop intrinsic, acquired, or after treatment resistance to BRAF and MEK inhibitors : around half of targeted therapy combination treatments with anti-PD1 and 70% with anti-CTLA-4 will be unsuccessful due to melanoma intrinsic resistance. Among other causes, intrinsic drug resistance can be associated with additional genome mutations, such as the activating Rac1P29S mutation present in 6% of patients with BRAF positive melanoma. A deeper understanding on the biology, progression, and tumor microenvironment of drug resistant melanomas is needed to aid in the search of novel targets and to increase the effectivity of proposed treatments. We generated 3 sets of isogenic BRAFV600E and BRAFV600E/RAC1P29S cell lines by transfecting 501mel, 451Lu and YUMM1.7 cell lines with Rac1P29S. We then exposed them for 3 months to increasing concentrations of PLX4720 to generate drug resistant cell lines (DR). Rac1 P29S -transfected and PLX4720 resistant cell lines had an increase in the Mek/Erk signaling pathway. A differential analysis using a kinome and an epigenome drug screening library in the 501mel cell lines (501mel, 501mel Rac1P29S, 501mel-DR, 501mel Rac1P29S -DR) showed that BRAFV600E/RAC1P29S and the DR melanoma cell lines growth can be inhibited with mTor, PI3K, cdk9 and BRD4 inhibitors. BRD4 is an epigenetic regulator that recruits P-TEFb to stimulate RNA polymerase II elongation. BRD4 also interacts with SMAD3 and CDK9 to regulate transcription through eIF4G increasing oncogenic c-Myc and increasing Mek/Erk signaling pathways. We tested 501mel, 451Lu and YUMM1.7 isogenic cell line series against Rapamycin to confirm mTORC1 as an effective target. Drugs that target different subunits of the eIF4F complex (CR-1-31-B, Ribavirin and Briciclib) also decrease BRAFV600E/RAC1P29S and the DR melanoma cell lines growth specifically. Furthermore, silencing of eIF4A1 and Raptor genes reduces cell growth in the BRAFV600E/RAC1P29S, and the DR cells when compared to the parental cell lines. Silencing Rictor had no effect on cell growth on any cells. When tested in a syngraft model, CR-1-31-B and rapamycin reduced tumor size when using YUMM1.7, YUMM1.7- RAC1P29S and YUMM1.7 RAC1P29S-DR cell lines. Next, we sought to investigate the effect of inhibiting mTOR and eiF4F in the PD-1/PD-L1 axis in tumor cells and tumor associated dendritic cells and macrophages, and how targeting these modifies the tumor microenvironment. Citation Format: Cristina Uribe-Alvarez, Daniela Araiza-Olivera, Alexa Cannon, Jonathan Chernoff. Novel targets for BRAFV600E and BRAFV600ERAC1P29S drug resistant melanoma [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 4747.