Circulating tumor DNA sequencing for biologic classification and individualized risk stratification in patients with Hodgkin Lymphoma
Autor/innen
- J.M. Heger
- L. Mammadova
- J. Mattlener
- S. Sobesky
- M. Cirillo
- J. Altmüller
- E. Kirst
- S. Reinke
- W. Klapper
- P.J. Bröckelmann
- J. Ferdinandus
- H. Kaul
- G. Schneider
- J. Schneider
- J.K. Schleifenbaum
- R.T. Ullrich
- M. Freihammer
- S. Awerkiew
- M. Lohmann
- F. Klein
- P. Nürnberg
- M. Hallek
- D. Rossi
- C. Mauz-Körholz
- S. Gattenlöhner
- A. Bräuninger
- P. Borchmann
- B. von Tresckow
- S. Borchmann
Journal
- Journal of Clinical Oncology
Quellenangabe
- J Clin Oncol JCO2301867
Zusammenfassung
PURPOSE: Current clinical challenges in Hodgkin lymphoma (HL) include difficult-to-treat relapsed/refractory disease and considerable long-term toxicities of treatment. Since clinical risk factors lack discriminatory power, intensity of therapy is mainly based on tumor burden. Exploring HL genetics and tumor microenvironment (TME) might provide valuable insights for improved risk stratification. MATERIALS AND METHODS: In this study, we applied circulating tumor DNA sequencing to 243 patients obtained from pivotal German Hodgkin Study Group trials to identify subtypes of HL. Independent validation of the subtypes was performed in 96 patients treated in the EuroNet-PHL-C2 study. Outcome differences of subtypes were assessed in an event-enriched clinical validation cohort comprising 72 patients from the HD21 trial, using a refined, validated, and clinically feasible assay. RESULTS: We propose a biologic classification of HL consisting of three distinct subtypes: inflammatory immune escape HL is characterized by frequent copy-number variations including immune escape variants such as high-level amplifications of the PD-L1 locus and an inflammatory TME. Virally-driven HL is associated with Epstein-Barr virus and/or human herpesvirus 6 and an inflammatory TME with neutrophils and macrophages, while the tumor mutational burden (TMB) is low. Oncogene-driven HL is defined by a high TMB, recurrent mutations in oncogenic drivers such as TNFAIP3, ITPKB, and SOCS1, and a cold TME. A refined and validated assay version aiming at clinically feasible risk stratification showed significant progression-free survival differences between subtypes. In addition, assessment of minimal residual disease (MRD) allowed for the detection of patients at very high risk of relapse within the subtypes. CONCLUSION: We propose a clinically feasible, noninvasive method for individualized risk stratification and MRD monitoring in patients with HL on the basis of circulating tumor DNA sequencing.