Gudrun Schleiermacher1, Niloufar Javanmardi2, Virginie Bernard2, Quentin Leroy2, Julie Cappo2, Thomas Rio Frio2, Gaelle Pierron2, Eve Lapouble2, Valérie Combaret2, Frank Speleman2, Bram de Wilde2, Anna Djos2, Ingrid Ora2, Fredrik Hedborg2, Catarina Träger2, Britt-Marie Holmqvist2, Jonas Abrahamsson2, Michel Peuchmaur2, Jean Michon2, Isabelle Janoueix-Lerosey2, Per Kogner2, Olivier Delattre2, Tommy Martinsson2. 1. Gudrun Schleiermacher, Julie Cappo, Isabelle Janoueix-Lerosey, and Olivier Delattre, L'Institut National de la Santé et de la Recherche Médicale U830, Laboratoire de Génétique et Biologie des Cancers; Gudrun Schleiermacher, Virginie Bernard, Quentin Leroy, Thomas Rio Frio, Gaelle Pierron, Eve Lapouble, and Jean Michon, Institut Curie; Michel Peuchmaur, Assistance Publique-Hôpitaux de Paris, Hôpital Universitaire Robert Debré, Service de Pathologie; Michel Peuchmaur, Université Diderot Paris 7, Sorbonne Paris-Cité, Paris; Valérie Combaret, Centre Léon-Bérard, Laboratoire de Recherche Translationnelle, Lyon, France; Niloufar Javanmardi, Anna Djos, Jonas Abrahamsson, and Tommy Martinsson, The Sahlgrenska Academy, University of Gothenburg, Sahlgrenska University Hospital, Gothenburg; Ingrid Øra, Lund University, Lund; Fredrik Hedborg, Uppsala University, and Centre for Research and Development, Uppsala University/County Council of Gävleborg, Gävle; Catarina Träger and Per Kogner, Karolinska Institute, Astrid Lindgren Children's Hospital, Stockholm; Britt-Marie Holmqvist, Linköping University Hospital, Linköping, Sweden; Frank Speleman and Bram de Wilde, Center for Medical Genetics, Ghent University Hospital, Ghent, Belgium. gudrun.schleiermacher@curie.net. 2. Gudrun Schleiermacher, Julie Cappo, Isabelle Janoueix-Lerosey, and Olivier Delattre, L'Institut National de la Santé et de la Recherche Médicale U830, Laboratoire de Génétique et Biologie des Cancers; Gudrun Schleiermacher, Virginie Bernard, Quentin Leroy, Thomas Rio Frio, Gaelle Pierron, Eve Lapouble, and Jean Michon, Institut Curie; Michel Peuchmaur, Assistance Publique-Hôpitaux de Paris, Hôpital Universitaire Robert Debré, Service de Pathologie; Michel Peuchmaur, Université Diderot Paris 7, Sorbonne Paris-Cité, Paris; Valérie Combaret, Centre Léon-Bérard, Laboratoire de Recherche Translationnelle, Lyon, France; Niloufar Javanmardi, Anna Djos, Jonas Abrahamsson, and Tommy Martinsson, The Sahlgrenska Academy, University of Gothenburg, Sahlgrenska University Hospital, Gothenburg; Ingrid Øra, Lund University, Lund; Fredrik Hedborg, Uppsala University, and Centre for Research and Development, Uppsala University/County Council of Gävleborg, Gävle; Catarina Träger and Per Kogner, Karolinska Institute, Astrid Lindgren Children's Hospital, Stockholm; Britt-Marie Holmqvist, Linköping University Hospital, Linköping, Sweden; Frank Speleman and Bram de Wilde, Center for Medical Genetics, Ghent University Hospital, Ghent, Belgium.
Abstract
PURPOSE: In neuroblastoma, the ALK receptor tyrosine kinase is activated by point mutations. We investigated the potential role of ALK mutations in neuroblastoma clonal evolution. METHODS: We analyzed ALK mutations in 54 paired diagnosis-relapse neuroblastoma samples using Sanger sequencing. When an ALK mutation was observed in one paired sample, a minor mutated component in the other sample was searched for by more than 100,000× deep sequencing of the relevant hotspot, with a sensitivity of 0.17%. RESULTS: All nine ALK-mutated cases at diagnosis demonstrated the same mutation at relapse, in one case in only one of several relapse nodules. In five additional cases, the mutation seemed to be relapse specific, four of which were investigated by deep sequencing. In two cases, no mutation evidence was observed at diagnosis. In one case, the mutation was present at a subclonal level (0.798%) at diagnosis, whereas in another case, two different mutations resulting in identical amino acid changes were detected, one only at diagnosis and the other only at relapse. Further evidence of clonal evolution of ALK-mutated cells was provided by establishment of a fully ALK-mutated cell line from a primary sample with an ALK-mutated cell population at subclonal level (6.6%). CONCLUSION: In neuroblastoma, subclonal ALK mutations can be present at diagnosis with subsequent clonal expansion at relapse. Given the potential of ALK-targeted therapy, the significant spatiotemporal variation of ALK mutations is of utmost importance, highlighting the potential of deep sequencing for detection of subclonal mutations with a sensitivity 100-fold that of Sanger sequencing and the importance of serial samplings for therapeutic decisions.
PURPOSE: In neuroblastoma, the ALK receptor tyrosine kinase is activated by point mutations. We investigated the potential role of ALK mutations in neuroblastoma clonal evolution. METHODS: We analyzed ALK mutations in 54 paired diagnosis-relapse neuroblastoma samples using Sanger sequencing. When an ALK mutation was observed in one paired sample, a minor mutated component in the other sample was searched for by more than 100,000× deep sequencing of the relevant hotspot, with a sensitivity of 0.17%. RESULTS: All nine ALK-mutated cases at diagnosis demonstrated the same mutation at relapse, in one case in only one of several relapse nodules. In five additional cases, the mutation seemed to be relapse specific, four of which were investigated by deep sequencing. In two cases, no mutation evidence was observed at diagnosis. In one case, the mutation was present at a subclonal level (0.798%) at diagnosis, whereas in another case, two different mutations resulting in identical amino acid changes were detected, one only at diagnosis and the other only at relapse. Further evidence of clonal evolution of ALK-mutated cells was provided by establishment of a fully ALK-mutated cell line from a primary sample with an ALK-mutated cell population at subclonal level (6.6%). CONCLUSION: In neuroblastoma, subclonal ALK mutations can be present at diagnosis with subsequent clonal expansion at relapse. Given the potential of ALK-targeted therapy, the significant spatiotemporal variation of ALK mutations is of utmost importance, highlighting the potential of deep sequencing for detection of subclonal mutations with a sensitivity 100-fold that of Sanger sequencing and the importance of serial samplings for therapeutic decisions.
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