Heikki Joensuu1, Eva Wardelmann2, Harri Sihto3, Mikael Eriksson4, Kirsten Sundby Hall5, Annette Reichardt6, Jörg T Hartmann7, Daniel Pink8, Silke Cameron9, Peter Hohenberger10, Salah-Eddin Al-Batran11, Marcus Schlemmer12, Sebastian Bauer13, Bengt Nilsson14, Raija Kallio15, Jouni Junnila16, Aki Vehtari17, Peter Reichardt6. 1. Department of Oncology, Helsinki University Hospital and University of Helsinki, Helsinki, Finland. 2. Gerhard Domagk Institute of Pathology, University Hospital Münster, Münster, Germany. 3. Laboratory of Molecular Oncology and Translational Cancer Biology Program, Biomedicum, University of Helsinki, Helsinki, Finland. 4. Department of Oncology, Skåne University Hospital and Lund University, Lund, Sweden. 5. Department of Oncology, The Norwegian Radium Hospital, Oslo University Hospital, Oslo, Norway. 6. Sarkomzentrum Berlin-Brandenburg, HELIOS Klinikum Berlin-Buch, Berlin, Germany. 7. Department of Hematology, Oncology, Immunology, Franziskus Hospital, Catholic Hospital Consortium Ostwestfalen, Bielefeld, Germany. 8. Department of Hematology, Oncology and Palliative Care, HELIOS Klinikum Bad Saarow, Germany. 9. Department of Gastroenterology/Endocrinology, University of Göttingen, Göttingen, Germany. 10. Division of Surgical Oncology & Thoracic Surgery, Mannheim University Medical Center, Mannheim, Germany. 11. Clinical Cancer Research, Krankenhaus Nordwest, Universitäres Centrum für Tumorerkrankungen University Cancer Center Frankfurt, Frankfurt, Germany. 12. Department of Internal Medicine III, University Hospital-Großhadern, Ludwig Maximilians University, Munich, Germany. 13. Sarcoma Center, West German Cancer Center, University of Duisburg-Essen, Essen, Germany. 14. Department of Surgery, Sahlgrenska University Hospital, Gothenburg, Sweden. 15. Department of Oncology and Radiotherapy, Oulu University Hospital, Oulu, Finland. 16. Pharma Ltd, Turku, Finland. 17. Helsinki Institute for Information Technology, Department of Computer Science, Aalto University, Espoo, Finland.
Abstract
IMPORTANCE: Little is known about whether the duration of adjuvant imatinib influences the prognostic significance of KIT proto-oncogene receptor tyrosine kinase (KIT) and platelet-derived growth factor receptor α (PDGFRA) mutations. OBJECTIVE: To investigate the effect of KIT and PDGFRA mutations on recurrence-free survival (RFS) in patients with gastrointestinal stromal tumors (GISTs) treated with surgery and adjuvant imatinib. DESIGN, SETTING, AND PARTICIPANTS: This exploratory study is based on the Scandinavian Sarcoma Group VIII/Arbeitsgemeinschaft Internistische Onkologie (SSGXVIII/AIO) multicenter clinical trial. Between February 4, 2004, and September 29, 2008, 400 patients who had undergone surgery for GISTs with a high risk of recurrence were randomized to receive adjuvant imatinib for 1 or 3 years. Of the 397 patients who provided consent, 341 (85.9%) had centrally confirmed, localized GISTs with mutation analysis for KIT and PDGFRA performed centrally using conventional sequencing. During a median follow-up of 88 months (completed December 31, 2013), 142 patients had GIST recurrence. Data of the evaluable population were analyzed February 4, 2004, through December 31, 2013. MAIN OUTCOMES AND MEASURES: The main outcome was RFS. Mutations were grouped by the gene and exon. KIT exon 11 mutations were further grouped as deletion or insertion-deletion mutations, substitution mutations, insertion or duplication mutations, and mutations that involved codons 557 and/or 558. RESULTS: Of the 341 patients (175 men and 166 women; median age at study entry, 62 years) in the 1-year group and 60 years in the 3-year group), 274 (80.4%) had GISTs with a KIT mutation, 43 (12.6%) had GISTs that harbored a PDGFRA mutation, and 24 (7.0%) had GISTs that were wild type for these genes. PDGFRA mutations and KIT exon 11 insertion or duplication mutations were associated with favorable RFS, whereas KIT exon 9 mutations were associated with unfavorable outcome. Patients with KIT exon 11 deletion or insertion-deletion mutation had better RFS when allocated to the 3-year group compared with the 1-year group (5-year RFS, 71.0% vs 41.3%; P < .001), whereas no significant benefit from the 3-year treatment was found in the other mutational subgroups examined. KIT exon 11 deletion mutations, deletions that involved codons 557 and/or 558, and deletions that led to pTrp557_Lys558del were associated with poor RFS in the 1-year group but not in the 3-year group. Similarly, in the subset with KIT exon 11 deletion mutations, higher-than-the-median mitotic counts were associated with unfavorable RFS in the 1-year group but not in the 3-year group. CONCLUSIONS AND RELEVANCE: Patients with KIT exon 11 deletion mutations benefit most from the longer duration of adjuvant imatinib. The duration of adjuvant imatinib modifies the risk of GIST recurrence associated with some KIT mutations, including deletions that affect exon 11 codons 557 and/or 558. TRIAL REGISTRATION: clinicaltrials.gov Identifier: NCT00116935.
IMPORTANCE: Little is known about whether the duration of adjuvant imatinib influences the prognostic significance of KIT proto-oncogene receptor tyrosine kinase (KIT) and platelet-derived growth factor receptor α (PDGFRA) mutations. OBJECTIVE: To investigate the effect of KIT and PDGFRA mutations on recurrence-free survival (RFS) in patients with gastrointestinal stromal tumors (GISTs) treated with surgery and adjuvant imatinib. DESIGN, SETTING, AND PARTICIPANTS: This exploratory study is based on the Scandinavian Sarcoma Group VIII/Arbeitsgemeinschaft Internistische Onkologie (SSGXVIII/AIO) multicenter clinical trial. Between February 4, 2004, and September 29, 2008, 400 patients who had undergone surgery for GISTs with a high risk of recurrence were randomized to receive adjuvant imatinib for 1 or 3 years. Of the 397 patients who provided consent, 341 (85.9%) had centrally confirmed, localized GISTs with mutation analysis for KIT and PDGFRA performed centrally using conventional sequencing. During a median follow-up of 88 months (completed December 31, 2013), 142 patients had GIST recurrence. Data of the evaluable population were analyzed February 4, 2004, through December 31, 2013. MAIN OUTCOMES AND MEASURES: The main outcome was RFS. Mutations were grouped by the gene and exon. KIT exon 11 mutations were further grouped as deletion or insertion-deletion mutations, substitution mutations, insertion or duplication mutations, and mutations that involved codons 557 and/or 558. RESULTS: Of the 341 patients (175 men and 166 women; median age at study entry, 62 years) in the 1-year group and 60 years in the 3-year group), 274 (80.4%) had GISTs with a KIT mutation, 43 (12.6%) had GISTs that harbored a PDGFRA mutation, and 24 (7.0%) had GISTs that were wild type for these genes. PDGFRA mutations and KIT exon 11 insertion or duplication mutations were associated with favorable RFS, whereas KIT exon 9 mutations were associated with unfavorable outcome. Patients with KIT exon 11 deletion or insertion-deletion mutation had better RFS when allocated to the 3-year group compared with the 1-year group (5-year RFS, 71.0% vs 41.3%; P < .001), whereas no significant benefit from the 3-year treatment was found in the other mutational subgroups examined. KIT exon 11 deletion mutations, deletions that involved codons 557 and/or 558, and deletions that led to pTrp557_Lys558del were associated with poor RFS in the 1-year group but not in the 3-year group. Similarly, in the subset with KIT exon 11 deletion mutations, higher-than-the-median mitotic counts were associated with unfavorable RFS in the 1-year group but not in the 3-year group. CONCLUSIONS AND RELEVANCE: Patients with KIT exon 11 deletion mutations benefit most from the longer duration of adjuvant imatinib. The duration of adjuvant imatinib modifies the risk of GIST recurrence associated with some KIT mutations, including deletions that affect exon 11 codons 557 and/or 558. TRIAL REGISTRATION: clinicaltrials.gov Identifier: NCT00116935.
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