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Adaptive Resistance to Dual BRAF/MEK Inhibition in BRAF-Driven Tumors through Autocrine FGFR Pathway Activation.

Victoria E Wang ,
Jenny Y Xue ,
Dennie T Frederick ,
Yi Cao ,
Eva Lin ,
Catherine Wilson ,
Anatoly Urisman ,
David P Carbone ,
Keith T Flaherty ,
Rene Bernards ,
Piro Lito ,
Jeff Settleman ,
Frank McCormick

Abstract

CONCLUSIONS

Taken together, these results describe a new, adaptive resistance mechanism that is more commonly observed in the context of dual BRAF/MEK blockade as opposed to single-agent treatment and reveal the potential clinical utility of FGFR-targeting agents in combination with BRAF and MEK inhibitors as a promising strategy to forestall resistance in a subset of BRAF-driven cancers.

RESULTS

In response to drug treatment, transcriptional upregulation of FGF1 results in autocrine activation of FGFR, which potentiates extracellular signal-regulated kinases (ERK) activation. FGFR inhibition overcomes resistance to dual BRAF/MEK inhibitors in both cell lines and patient-derived xenograft (PDX) models. Abrogation of this bypass mechanism in the first-line setting enhances tumor killing and prevents the emergence of drug-resistant cells. Moreover, clinical data implicate serum FGF1 levels in disease prognosis.

PURPOSE

Combined MAPK pathway inhibition using dual BRAF and MEK inhibitors has prolonged the duration of clinical response in patients with BRAFV600E-driven tumors compared with either agent alone. However, resistance frequently arises.

EXPERIMENTAL DESIGN

We generated cell lines resistant to dual BRAF/MEK inhibition and utilized a pharmacologic synthetic lethal approach to identify a novel, adaptive resistance mechanism mediated through the fibroblast growth factor receptor (FGFR) pathway.

More about this publication

Clinical cancer research : an official journal of the American Association for Cancer Research

Volume 25
Issue nr. 23
Pages 7202-7217
Publication date 01-12-2019

Full text links

Publisher website (DOI) 10.1158/1078-0432.CCR-18-2779
Europe PubMed Central 31515463
Pubmed 31515463

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