Next Generation Sequencing-Based BCR-ABL1 Kinase Domain Mutation Screening in De Novo and Tyrosine Kinase Inhibitor-Resistant Philadelphia Chromosome-Positive Acute Lymphoblastic Leukemia: Results of a Prospective Study

In Philadelphia-positive (Ph+) Acute Lymphoblastic Leukemia (ALL) patients (pts), resistance to tyrosine kinase inhibitors (TKIs) is frequently associated with the selection of one or more mutations in the BCR-ABL1 kinase domain (KD). The swift emergence of mutant clones as early as during induction therapy supports the hypothesis that, at least in some cases, mutations may already be present at diagnosis. Next Generaton Sequencing (NGS) has been proposed as an alternative to Sanger sequencing (seq) for BCR-ABL1 KD mutation screening because of its greater sensitivity and accuracy, but no studies have so far evaluated its prospective use in Ph+ ALL. Between 2015 and 2018, we have used NGS in parallel to Sanger seq to analyze a consecutive series of 126 Ph+ ALL pts who were newly diagnosed (n=39) or who had relapsed/refractory disease (n=87) on TKI therapy. In 22 cases, both bone marrow and peripheral blood were analyzed and compared. NGS of ≈400bp amplicons generated by nested RT-PCR was performed on a Roche GS Junior (until April 2017) or on an Illumina MiSeq (from May 2017 on). Read alignment and variant calling (with a lower limit set to 3%) were done with the AmpSuite software (SmartSeq srl). When multiple mutations mapped within the same sequence reads, assessment of cis vs trans configuration was done correcting for the probability of PCR recombination. Three out of 39 (7.7%) de novo Ph+ ALL pts had low burden point mutations detectable by NGS: one had a V289A (variant frequency, 3.4%); one had a D276G (4.0%) and a F359V (3.5%); one had an E255K mutation (3.3%). The first pt was enrolled in the GIMEMA LAL1811 study of frontline ponatinib; the second and the third pts were enrolled in the GIMEMA D-ALBA study of frontline sequential treatment with dasatinib and blinatumomab. All pts achieved molecular remission, consistently with the mutations being sensitive to the TKIs received. The 35INS insertion/truncation mutant was detected in 27 (69%) pts, who all have so far achieved molecular remission. This is in line with the report by O'Hare et al (Blood 2011) suggesting that the 35INS variant is kinase-inactive and does not contribute to TKI resistance. For this reason, the 35INS was excluded from subsequent analyses. Relapsed/refractory pts positive for mutations by Sanger seq were 57 (65%); those positive for mutations by NGS were 69 (79%). Fifty-six out of 87 (49%) pts had >1 mutation (up to 13) detected by NGS. NGS identified low burden mutations (i.e