Abstract
TrkB with its ligand, brain-derived neurotrophic factor (BDNF), are overexpressed in the majority of high-risk neuroblastomas (NB). Entrectinib is a novel pan-TRK, ALK, and ROS1 inhibitor that has shown excellent preclinical efficacy in NB xenograft models, and recently it has entered phase 1 trials in pediatric relapsed/refractory solid tumors. We examined entrectinib-resistant NB cell lines to identify mechanisms of resistance. Entrectinib-resistant cell lines were established from five NB xenografts initially sensitive to entrectinib therapy. Clonal cell lines were established in increasing concentrations of entrectinib and had >10X increase in IC50 Cell lines underwent genomic and proteomic analysis using whole-exome sequencing, RNA-Seq, and proteomic expression profiling with confirmatory RT-PCR and Western blot analysis. There was no evidence of NTRK2 (TrkB) gene mutation in any resistant cell lines. Inhibition of TrkB was maintained in all cell lines at increasing concentrations of entrectinib (target independent). PTEN pathway downregulation and ERK/MAPK pathway upregulation were demonstrated in all resistant cell lines. One of these clones also had increased IGF1R signaling, and two additional clones had increased P75 expression, which likely increased TrkB sensitivity to ligand. In conclusion, NB lines overexpressing TrkB developed resistance to entrectinib by multiple mechanisms, including activation of ERK/MAPK and downregulation of PTEN signaling. Individual cell lines also had IGF1R activation and increased P75 expression, allowing preservation of downstream TrkB signaling in the presence of entrectinib. An understanding of changes in patterns of expression can be used to inform multimodal therapy planning in using entrectinib in phase II/III trial planning.
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