Ultra-accurate Duplex Sequencing for the assessment of pretreatment ABL1 kinase domain mutations in Ph+ ALL

Nicholas J Short,Elias Jabbour,Jorge Cortes,Lindsey N Williams,Jesse J Salk,Hagop M Kantarjian ,John Higgins ,Guillermo Garcia‐Manero ,S Kornblau ,Gabriel A Pratt ,Marina Konopleva,Farhad Ravandi,Justin R Pritchard ,Charles C Valentine,Ghayas C Issa,Victor M Rivera,Jerald P Radich ,Rebecca Garris,Rashmi Kanagal‐Shamanna ,Koji Sasaki

doi:10.1038/s41408-020-0329-y

Abstract

Mutations of ABL1 are the dominant mechanism of relapse in Philadelphia chromosome-positive acute lymphoblastic leukemia (Ph + ALL). We performed highly accurate Duplex Sequencing of exons 4–10 of ABL1 on bone marrow or peripheral blood samples from 63 adult patients with previously untreated Ph + ALL who received induction with intensive chemotherapy plus a BCR-ABL1 TKI. We identified ABL1 mutations prior to BCR-ABL1 TKI exposure in 78% of patients. However, these mutations were generally present at extremely low levels (median variant allelic frequency 0.008% [range, 0.004%–3.71%] and did not clonally expand and lead to relapse in any patient, even when the pretreatment mutation was known to confer resistance to the TKI received. In relapse samples harboring a TKI-resistant ABL1 mutation, the corresponding mutation could not be detected pretreatment, despite validated sequencing sensitivity of Duplex Sequencing down to 0.005%. In samples under the selective pressure of ongoing TKI therapy, we detected low-level, emerging resistance mutations up to 5 months prior to relapse. These findings suggest that pretreatment ABL1 mutation assessment should not guide upfront TKI selection in Ph + ALL, although serial testing while on TKI therapy may allow for early detection of clinically actionable resistant clones.

Highlights

Philadelphia chromosome-positive acute lymphoblastic leukemia (Ph + ALL) is an aggressive form of leukemia that is associated with a relatively short duration of response with chemotherapy alone[1]
Outcomes are significantly improved with the integration of a BCR-ABL1-targeted tyrosine kinase inhibitor (TKI) into treatment regimens, with 5-year overall survival (OS) rates of 40–50% observed in patients treated with first- or second-generation TKIs combined with cytotoxic chemotherapy[2,3]
Exceptionally lowlevel mutations were detectable prior to TKI therapy, 88% of these mutations have not been previously reported to confer TKI resistance, suggesting that most of these are random mutation events occurring as part of the normal aging process

Summary

Introduction

Philadelphia chromosome-positive acute lymphoblastic leukemia (Ph + ALL) is an aggressive form of leukemia that is associated with a relatively short duration of response with chemotherapy alone[1]. Outcomes are significantly improved with the integration of a BCR-ABL1-targeted tyrosine kinase inhibitor (TKI) into treatment regimens, with 5-year overall survival (OS) rates of 40–50% observed in patients treated with first- or second-generation TKIs combined with cytotoxic chemotherapy[2,3]. T315I mutations lead to resistance of all first- and second-generation TKIs and are identified at the time of relapse in up to 75% of patients with Ph + ALL2,5,6. The presence of pretreatment, clinically relevant subclonal mutations could have important implications for personalized therapy decisions in Ph + ALL, Short et al Blood Cancer Journal (2020)10:61 including the early incorporation of broad-spectrum BCRABL1 TKIs that target T315I or other ABL1 resistance mutations for select patients where these are identified

Methods

Results

Conclusion