Impact of Mutations in Blood Cancer-Related Genes on Clinical Outcomes in Chronic Myeloid Leukemia in Chronic Phase (CML-CP) after ≥2 Tyrosine Kinase Inhibitors (TKIs) in the Ascembl Trial

Abstract

CONCLUSIONS Somatic mutations in blood cancer-related genes are commonly detected in CML-AP. The most frequently mutated genes are RUNX1, ASXL1IKZF1 (submicroscopic deletions), and BCR:: ABL1 (kinase domain mutations). ASXL1 is the most frequently detected mutation at CML diagnosis (≈9%). However, the incidence and impact of mutations in blood cancer-related genes in patients (pts) with CML-CP previously treated with ≥2 TKIs have not been described since genomic studies have focused on pts at diagnosis or at progression. With >2 years of follow-up in the phase 3 ASCEMBL study, asciminib (ASC) has continued to demonstrate superior efficacy vs bosutinib (BOS) in pts with CML-CP after ≥2 prior TKIs, and analysis of cancer gene somatic mutations in this population has the potential to reveal additional insights into pts' response to study treatments or characteristics of the disease in later lines of therapy. Here we present a descriptive analysis of variants in the ASCEMBL pt population, including frequencies, co-occurrences, and association of mutations with clinical outcomes, specifically major molecular response (MMR) and treatment failure (TF; defined as discontinuation due to lack of efficacy or intolerance). Adults with CML-CP previously treated with ≥2 TKIs with intolerance of their last TKI or lack of efficacy per 2013 European LeukemiaNet recommendations and without BCR:: ABL1 T315I or V299L mutations were randomized 2:1 to ASC 40 mg twice daily or BOS 500 mg once daily. DNA was isolated from blood collected at baseline (BL) and end of treatment (EOT; defined as treatment discontinuation for any reason or completion of the study). A next-generation sequencing panel of 89 commonly mutated genes in blood cancers, including ABL1 and IKZF1 deletion, was used to detect somatic mutations that met criteria for pathogenicity. Only samples with BCR::ABL1IS ≥2%, which was the level demonstrated to detect mutations in leukemic cells, were tested. A multivariable Cox proportional hazards regression model adjusted for age, sex, treatment, and reason for prior TKI discontinuation (intolerance vs lack of efficacy) was used to determine the prognostic value of BL mutations. A total of 233 pts were randomized to ASC (n=157) or BOS (n=76). Of 162 pts (ASC, n=110; BOS, n=52) with available sequencing data at BL, 102 had ≥1 mutation: 69 (63%) on ASC and 33 (63%) on BOS. Overall, 159 mutations were detected in 23 genes at BL, ranging from 0 to 5 per pt. The median variant allele frequency (VAF) was 19.6% (range, 0.9%-58%). ASXL1 (in 31% of pts) and ABL1 kinase domain (in 17% of pts) mutations were the most frequently detected. Of 27 pts with ≥1 ABL1 mutation at BL, 85% had ≥1 other mutated cancer gene. Co-occurrence of ASXL1 and ABL1 mutations at BL was reported in 12 of 162 pts (7.4%), which was higher than the expected 2.9% based on these genes' individual frequencies in this data set. RUNX1 and IKZF1 mutations were rare in CML-CP at BL. Of 162 pts tested at BL, 73 had TF and available samples for analysis at EOT with only 3 pts discontinuing due to disease progression. The presence of any mutation at BL was significantly prognostic of TF in the total cohort of 162 pts (Figure 1). In an unadjusted analysis, the presence of an ASXL1 mutation with VAF >5% at BL was a prognostic factor of TF. In 73 pts with TF, most BL mutations were also detected at EOT (110/116 mutations in 48/54 carriers) (Figure 2). Of 15 pts who acquired ≥1 mutation at EOT, 9 acquired ABL1 mutations. No single mutations at an individual or gene level were prognostic of MMR. Mutations were not predictive of MMR or TF when pts were examined by their assigned treatment of ASC or BOS. ASXL1 mutations are most frequently detected at CML diagnosis and were enriched at BL in this study of pts with CML-CP previously treated with ≥2 TKIs, which is consistent with a role in TKI resistance. RUNX1 and IKZF1 mutations, which are associated with progression to accelerated or blast phase in CML, were very rare in this pt population, supporting their role in CML disease progression. The high frequency of co-occurrence of BCR:: ABL1 mutations and blood cancer gene mutations in CML-CP is an important finding since cancer gene mutations could modify response to TKIs in individual pts. The presence of any somatic blood cancer mutation at BL was prognostic of TF. These mutations may serve as potential biomarkers that can identify pts who may be at higher risk of TF in later lines of therapy.