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- Title
Circulating tumor DNA reveals mechanisms of lorlatinib resistance in patients with relapsed/refractory ALK-driven neuroblastoma.
- Authors
Berko, Esther R.; Witek, Gabriela M.; Matkar, Smita; Petrova, Zaritza O.; Wu, Megan A.; Smith, Courtney M.; Daniels, Alex; Kalna, Joshua; Kennedy, Annie; Gostuski, Ivan; Casey, Colleen; Krytska, Kateryna; Gerelus, Mark; Pavlick, Dean; Ghazarian, Susan; Park, Julie R.; Marachelian, Araz; Maris, John M.; Goldsmith, Kelly C.; Radhakrishnan, Ravi
- Abstract
Activating point mutations in Anaplastic Lymphoma Kinase (ALK) have positioned ALK as the only mutated oncogene tractable for targeted therapy in neuroblastoma. Cells with these mutations respond to lorlatinib in pre-clinical studies, providing the rationale for a first-in-child Phase 1 trial (NCT03107988) in patients with ALK-driven neuroblastoma. To track evolutionary dynamics and heterogeneity of tumors, and to detect early emergence of lorlatinib resistance, we collected serial circulating tumor DNA samples from patients enrolled on this trial. Here we report the discovery of off-target resistance mutations in 11 patients (27%), predominantly in the RAS-MAPK pathway. We also identify newly acquired secondary compound ALK mutations in 6 (15%) patients, all acquired at disease progression. Functional cellular and biochemical assays and computational studies elucidate lorlatinib resistance mechanisms. Our results establish the clinical utility of serial circulating tumor DNA sampling to track response and progression and to discover acquired resistance mechanisms that can be leveraged to develop therapeutic strategies to overcome lorlatinib resistance. Inhibition of ALK is initially effective in patients with ALK-driven lung cancer but resistance often arises. Here, the authors use circulating tumour DNA, collected as part of a phase I trial investigating lorlatinib (ALK inhibitor) in pediatric patients with ALK-driven neuroblastoma, to detect early resistance mechanisms.
- Subjects
CIRCULATING tumor DNA; ANAPLASTIC lymphoma kinase; NEUROBLASTOMA; DNA; CHILD patients
- Publication
Nature Communications, 2023, Vol 14, Issue 1, p1
- ISSN
2041-1723
- Publication type
Article
- DOI
10.1038/s41467-023-38195-0