Abstract 598: Resistance mechanisms to BRAF inhibition identified by single circulating tumor cell and cell-free tumor DNA molecular profiling in BRAF-mutant non-small cell lung cancer

Abstract Background: Combination therapy with dabrafenib + trametinib demonstrated robust activity in patients (pts) with BRAFV600E-mutant advanced non-small cell lung cancer (NSCLC), but its resistance mechanisms are poorly known. Liquid biopsy components such as circulating tumor cells (CTCs) and cell-free (cf) tumor DNA can provide a comprehensive genomic picture of tumor content. Molecular profiling of single CTCs from pts with BRAF-V600Emutant NSCLC was performed to carry out a pilot study to identify resistance mutations at failure to dabrafenib + trametinib and to compare the mutations detected on CTCs to the mutations found on cfDNA and tumor biopsies. Patients and Methods: Eight pts with advanced BRAFV600E-mutant NSCLC at failure to dabrafenib + trametinib were prospectively enrolled between Jul 2018 and Mar 2019 at Gustave Roussy (IDRCB2008-A00585-50). Bloods samples were collected. Matched tissue-cfDNA and CTCs were available in 3 pts and matched tissue-CTCs for 4 pts. Single CTC isolation strategy included RosetteSep enrichment, immunofluorescent staining (Hoechst/CD45/cytokeratins) and fluorescence activated cell-sorting. The process to identify CTC mutations included Ampli1 whole-genome amplification, quality controls, multiplex targeted PCR with the Ampli1 CHPCustomBeta cancer panel developed by (Menarini Silicon Biosystems) and next-generation sequencing (NGS). The cfDNA was analyzed using InVisionFirst-Lung. Tissue samples were analyzed using targeted NGS in the MATCH-R trial (Recondo G; NPJ Precis Oncol 2020). Results: Single CTCs were isolated from 7 pts. As baseline characteristics, the median age was 66 years, 5 (71%) were smoker; all the pts with adenocarcinoma histology. Most of the pts received dabrafenib + trametinib as 2nd line (86%). The median of CTCs isolated by patient was 20 (8-28). A wide spectrum of mutations in CTCs was observed at treatment failure that were involved in the main cancer pathways, including MAPK (n=1; NRAS), tyrosine kinase receptors (n=5; EGFR, ALK, FLT3, HER2,…), signal transduction (n=4; IDH1, EZH2,⋯), and DNA repair (n=2; AKT1, ATM,⋯). In the same CTC, several mutations were observed in 5/7 patients, commonly involving more than one cancer pathways. A higher degree of mutational diversity was observed in CTCs compared to tumor tissue biopsies and cfDNA. In the 3 patients with an available tumor/liquid biopsy, only 1 shared mutations between CTCs and matched tumor and cfDNA. Conclusion: Single CTC profiling reveals a wide spectrum of therapeutic resistance mutations not detected by other analyses in pts with BRAFV600E-mutant NSCLC at failure to dabrafenib + trametinib. Integration of single CTC sequencing to tumor and cfDNA analysis, provides important perspectives to assess heterogeneous resistance mechanisms and to guide precision medicine in BRAFV600E- NSCLC. Citation Format: Laura Mezquita, Marianne Oulhen, Agathe Aberlenc, Marc Deloger, Aurélie Honoré, Marianna Garonzi, Genny Buson, Claudio Forcato, Yann Lecluse, Mihaela Aldea, Maud NgoCamus, Claudio Nicotra, Karen Howarth, Ludovic Lacroix, Luc Friboulet, Benjamin Besse, Nicolò Manaresi, David Planchard, Françoise Farace. Resistance mechanisms to BRAF inhibition identified by single circulating tumor cell and cell-free tumor DNA molecular profiling in BRAF-mutant non-small cell lung cancer [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2021; 2021 Apr 10-15 and May 17-21. Philadelphia (PA): AACR; Cancer Res 2021;81(13_Suppl):Abstract nr 598.