TY - JOUR
T1 - Clinical relevance of an amplicon-based liquid biopsy for detecting ALK and ROS1 fusion and resistance mutations in patients with non–small-cell lung cancer
AU - Mezquita, Laura
AU - Swalduz, Aurélie
AU - Jovelet, Cécile
AU - Ortiz-Cuaran, Sandra
AU - Howarth, Karen
AU - Planchard, David
AU - Avrillon, Virginie
AU - Recondo, Gonzalo
AU - Marteau, Solène
AU - Benitez, Jose Carlos
AU - de Kievit, Frank
AU - Plagnol, Vincent
AU - Lacroix, Ludovic
AU - Odier, Luc
AU - Rouleau, Etienne
AU - Fournel, Pierre
AU - Caramella, Caroline
AU - Tissot, Claire
AU - Adam, Julien
AU - Woodhouse, Samuel
AU - Nicotra, Claudio
AU - Auclin, Edouard
AU - Remon, Jordi
AU - Morris, Clive
AU - Green, Emma
AU - Massard, Christophe
AU - Pérol, Maurice
AU - Friboulet, Luc
AU - Besse, Benjamin
AU - Saintigny, Pierre
N1 - Publisher Copyright:
© 2020 by American Society of Clinical Oncology
PY - 2020/1/1
Y1 - 2020/1/1
N2 - PURPOSE Liquid biopsy specimen genomic profiling is integrated in non–small-cell lung cancer (NSCLC) guidelines; however, data on the clinical relevance for ALK/ROS1 alterations are scarce. We evaluated the clinical utility of a targeted amplicon-based assay in a large prospective cohort of patients with ALK/ROS1-positive NSCLC and its impact on outcomes. PATIENTS AND METHODS Patients with advanced ALK/ROS1-positive NSCLC were prospectively enrolled in the study by researchers at eight French institutions. Plasma samples were analyzed using InVisionFirst-Lung and correlated with clinical outcomes. RESULTS Of the 128 patients included in the study, 101 were positive for ALK and 27 for ROS1 alterations. Blood samples (N = 405) were collected from 29 patients naïve for treatment with tyrosine kinase inhibitors (TKI) or from 375 patients under treatment, including 105 samples collected at disease progression (PD). Sensitivity was 67% (n = 18 of 27) for ALK/ROS1 fusion detection. Higher detection was observed for ALK fusions at TKI failure (n = 33 of 74; 46%) versus in patients with therapeutic response (n = 12 of 109; 11%). ALK-resistance mutations were detected in 22% patients (n = 16 of 74) overall; 43% of the total ALK-resistance mutations identified occurred after next-generation TKI therapy. ALK G1202R was the most common mutation detected (n = 7 of 16). Heterogeneity of resistance was observed. ROS1 G2032R resistance was detected in 30% (n = 3 of 10). The absence of circulating tumor DNA mutations at TKI failure was associated with prolonged median overall survival (105.7 months). Complex ALK-resistance mutations correlated with poor overall survival (median, 26.9 months v NR for single mutation; P = .003) and progression-free survival to subsequent therapy (median 1.7 v 6.3 months; P = .003). CONCLUSION Next-generation, targeted, amplicon-based sequencing for liquid biopsy specimen profiling provides clinically relevant detection of ALK/ROS1 fusions in TKI-naïve patients and allows for the identification of resistance mutations in patients treated with TKIs. Liquid biopsy specimens from patients treated with TKIs may affect clinical outcomes and capture heterogeneity of TKI resistance, supporting their role in selecting sequential therapy.
AB - PURPOSE Liquid biopsy specimen genomic profiling is integrated in non–small-cell lung cancer (NSCLC) guidelines; however, data on the clinical relevance for ALK/ROS1 alterations are scarce. We evaluated the clinical utility of a targeted amplicon-based assay in a large prospective cohort of patients with ALK/ROS1-positive NSCLC and its impact on outcomes. PATIENTS AND METHODS Patients with advanced ALK/ROS1-positive NSCLC were prospectively enrolled in the study by researchers at eight French institutions. Plasma samples were analyzed using InVisionFirst-Lung and correlated with clinical outcomes. RESULTS Of the 128 patients included in the study, 101 were positive for ALK and 27 for ROS1 alterations. Blood samples (N = 405) were collected from 29 patients naïve for treatment with tyrosine kinase inhibitors (TKI) or from 375 patients under treatment, including 105 samples collected at disease progression (PD). Sensitivity was 67% (n = 18 of 27) for ALK/ROS1 fusion detection. Higher detection was observed for ALK fusions at TKI failure (n = 33 of 74; 46%) versus in patients with therapeutic response (n = 12 of 109; 11%). ALK-resistance mutations were detected in 22% patients (n = 16 of 74) overall; 43% of the total ALK-resistance mutations identified occurred after next-generation TKI therapy. ALK G1202R was the most common mutation detected (n = 7 of 16). Heterogeneity of resistance was observed. ROS1 G2032R resistance was detected in 30% (n = 3 of 10). The absence of circulating tumor DNA mutations at TKI failure was associated with prolonged median overall survival (105.7 months). Complex ALK-resistance mutations correlated with poor overall survival (median, 26.9 months v NR for single mutation; P = .003) and progression-free survival to subsequent therapy (median 1.7 v 6.3 months; P = .003). CONCLUSION Next-generation, targeted, amplicon-based sequencing for liquid biopsy specimen profiling provides clinically relevant detection of ALK/ROS1 fusions in TKI-naïve patients and allows for the identification of resistance mutations in patients treated with TKIs. Liquid biopsy specimens from patients treated with TKIs may affect clinical outcomes and capture heterogeneity of TKI resistance, supporting their role in selecting sequential therapy.
UR - http://www.scopus.com/inward/record.url?scp=85092719445&partnerID=8YFLogxK
U2 - 10.1200/PO.19.00281
DO - 10.1200/PO.19.00281
M3 - Article
AN - SCOPUS:85092719445
SN - 2473-4284
VL - 4
SP - 272
EP - 282
JO - JCO Precision Oncology
JF - JCO Precision Oncology
ER -