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Evolving Acquired Vemurafenib Resistance in a BRAF V600E Mutant Melanoma PDTX Model to Reveal New Potential Targets

József Tóvári, Diána Vári-Mező, Sára Eszter Surguta, Andrea Ladányi, Attila Kígyós, Mihály Cserepes

2023Cells11 citationsDOIOpen Access PDF

Abstract

Malignant melanoma is challenging to treat, and metastatic cases need chemotherapy strategies. Targeted inhibition of commonly mutant BRAF V600E by inhibitors is efficient but eventually leads to resistance and progression in the vast majority of cases. Numerous studies investigated the mechanisms of resistance in melanoma cell lines, and an increasing number of in vivo or clinical data are accumulating. In most cases, bypassing BRAF and resulting reactivation of the MAPK signaling, as well as alternative PI3K-AKT signaling activation are reported. However, several unique changes were also shown. We developed and used a patient-derived tumor xenograft (PDTX) model to screen resistance evolution in mice in vivo, maintaining tumor heterogeneity. Our results showed no substantial activation of the canonical pathways; however, RNAseq and qPCR data revealed several altered genes, such as GPR39, CD27, SLC15A3, IFI27, PDGFA, and ABCB1. Surprisingly, p53 activity, leading to apoptotic cell death, was unchanged. The found biomarkers can confer resistance in a subset of melanoma patients via immune modulation, microenvironment changes, or drug elimination. Our resistance model can be further used in testing specific inhibitors that could be used in future drug development, and combination therapy testing that can overcome inhibitor resistance in melanoma.

Topics & Concepts

VemurafenibMelanomaCancer researchIn vivoPI3K/AKT/mTOR pathwayDrug resistanceTargeted therapyMedicineMAPK/ERK pathwayBiologySignal transductionCancerMetastatic melanomaInternal medicineCell biologyMicrobiologyBiotechnologyMelanoma and MAPK PathwaysPI3K/AKT/mTOR signaling in cancerColorectal Cancer Treatments and Studies