Acute myeloid leukemia exhibiting clonal instability during treatment: Implications for measurable residual disease assessments

Anita T. Simonsen, Manja Meggendorfer, Marcus H. Hansen, Line Nederby, Sarah Koch, Maria Hansen, Carina A. Rosenberg, Wolfgang Kern, Charlotte G. Nyvold, Anni Aggerholm, Torsten Haferlach, Hans B. Ommen*

*Kontaktforfatter

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningpeer review

Abstract

Next-generation sequencing (NGS) is an excellent methodology for measuring residual disease in acute myeloid leukemia and surveying several subclones simultaneously. There is little experience with interpretation of differential clonal responses to therapy. We hypothesized that differential clonal response could best be studied in patients with residual disease at the time of response evaluation. We performed targeted panel sequencing of paired diagnostic and first treatment evaluation samples in 69 patients with residual disease by morphology or measurable residual disease (MRD) level >0.02. Five patients had a rising clone at the time of evaluation. In a representative case, the rising clone was present only in the putative healthy stem cells (CD45lowCD34+CD38CD123CD7) and not in the putative leukemic stem cells (CD34+CD38CD123+CD7+) cells, thus indicating nonmalignant clonal hematopoiesis. In contrast, 17 of 43 evaluable patients exhibited a differential response in genes related to the leukemic clone. Twenty-six of 43 patients exhibited a clonal response that followed the overall treatment response. Patients with a differential response had better event-free survival (EFS) and overall survival (OS) than those in whom the clonal response followed the overall response (log-rank test, EFS: p = 0.045, OS: p = 0.050). This indicates that when following multiple leukemia-related clones, the less chemotherapy-responsive clone could, in some cases, have lower relapse potential, contrary to what is known when using standard mutation or fusion transcript-based disease surveillance. In conclusion, our results confirm the potential of refining MRD assessments by following multiple clones and warrants further studies on the precise interpretations of multiclone NGS–MRD assays.

OriginalsprogEngelsk
TidsskriftExperimental Hematology
Vol/bind107
Sider (fra-til)51-59
ISSN0301-472X
DOI
StatusUdgivet - mar. 2022

Bibliografisk note

Funding Information:
HBO received research funding from Jazz Pharmaceuticals and provided consultancy services to Pfizer, Jazz Pharmaceuticals, and Abbvie. MM and SK are employees at Munich Leukemia Laboratory. WK and TH are owners of Munich Leukemia Laboratory. The remaining authors declare no conflicts of interest. This study was sponsored by The Danish Society of Cancer through a grant to Professor Peter Hokland and by the Agriculturalist of ??lufg?rd??Peder Nielsen Kristensens Memorial Foundation. We gratefully acknowledge the continued support from Peter Hokland and the technical assistance from Karina D. Johansen. Moreover, we thank the FACS Core Facility at Aarhus University for assistance in cell sorting, and the technical staffs in both Aarhus and Munich for performing the laboratory analyses.

Funding Information:
This study was sponsored by The Danish Society of Cancer through a grant to Professor Peter Hokland and by the Agriculturalist of “Ølufgård”–Peder Nielsen Kristensens Memorial Foundation. We gratefully acknowledge the continued support from Peter Hokland and the technical assistance from Karina D. Johansen. Moreover, we thank the FACS Core Facility at Aarhus University for assistance in cell sorting, and the technical staffs in both Aarhus and Munich for performing the laboratory analyses.

Funding Information:
HBO received research funding from Jazz Pharmaceuticals and provided consultancy services to Pfizer, Jazz Pharmaceuticals, and Abbvie. MM and SK are employees at Munich Leukemia Laboratory. WK and TH are owners of Munich Leukemia Laboratory. The remaining authors declare no conflicts of interest.

Publisher Copyright:
© 2022

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