Mutations of KIT (KIT +) occur in children and adults with core binding factor (CBF) acute myeloid leukemia (AML) and cluster within exons 8 and 17. We previously reported a 19% prevalence of KIT mutations in pediatric CBF AML and lack of prognostic significance in serial pediatric cooperative trials. We also determined that gemtuzumab ozogamicin (GO) improves outcomes for a subset of CBF AML patients with higher CD33 expression enrolled on AAML0531, a randomized trial of conventional chemotherapy with or without GO. Thus, in this study, we determined whether the clinical outcome of patients with KIT + CBF AML is affected by GO treatment.

COG AAML0531 enrolled 1022 eligible pediatric de novo AML patients of which 247 had CBF AML [137 t(8;21) and 110 inv(16)/t(16;16)] based on central cytogenetic review. Of these 247 patients, 218 had evaluable samples for KIT mutational analysis. Analysis included PCR amplification of exons 8 and 17 and fragment length analysis and direct sequencing to identify all missense and size mutations. Mutations were detected in 55 patient samples (25%); 27 (49%) involved exon 8, 26 (47%) involved exon 17 and 2 (4%) involved both exons. Breakdown by exon and CBF translocation type demonstrated exon 8 mutations in 12/121 (10%) t(8;21) samples and 17/97 (18%) inv(16)/t(16;16)patient samples. Exon 17 mutations were found in 18/121 (15%) t(8;21) and 10/97 (10%) inv(16)/t(16;16) patient samples.

Overall outcome analysis among the 218 CBF AML samples analyzed for KIT mutations revealed similar complete remission (CR) rates after induction I for KIT + vs. KIT- patients (83% vs. 82%, p=0.796). Five-year event-free survival (EFS) from study entry for KIT + vs. KIT- was 54% and 70%, respectively (p=0.029) with a corresponding overall survival (OS) of 76% vs. 83% (p=0.380). Notably, KIT + patients who achieved CR had a relapse risk (RR) of 45% vs. 23% for KIT- patients (p=0.010). Disease-free survival (DFS) for KIT + vs. KIT- was 51% and 72%, respectively (p=0.021).

We also compared the clinical impact of exon 8 vs. exon 17 mutations. Outcomes of CBF AML patients with exon 8 mutations were similar to CBF AML patients without these mutations (OS 90% vs. 80%, p=0.277, EFS 55% vs. 68%, p=0.224, DFS 58% vs. 68%, p= 0.419, RR 42% vs. 26%, p= 0.112). In contrast, outcomes of patients with exon 17 mutations were inferior to those CBF AML patients without exon 17 mutations [OS 64% vs. 84%, p=0.035; DFS 43% vs. 70%, p=0.016) and higher RR was observed (48% vs. 26%, p=0.057).

The impact of GO treatment on outcome was subsequently evaluated. KIT + CBF AML patients who did not receive GO had inferior OS and EFS from study entry compared to KIT-patients (OS 64% vs. 86%, p= 0.034, EFS: 46% vs. 69%, p=0.037). Higher RR (55% vs. 31%, p= 0.046) and inferior DFS (45% vs. 66%, p= 0.094) were also observed. In contrast, KIT + and KIT-patients receiving GO treatment had comparable outcomes (OS 88% vs. 80%, p=0.393; EFS 62% vs. 72%, p=0.438) as well as RR (33% vs. 15%, p=0.103) and DFS (57% vs. 77%, p=0.109).

Analysis by mutation subtype revealed that outcomes of patients with exon 8 mutations were similar to exon 8 wild-type (WT) patients when treatment did not include GO (OS 81% vs. 80%, p=0.910; EFS 50% vs. 65%, p= 0.185). DFS and RR were also similar (DFS 57% vs. 62%, p= 0.752, RR 43% vs. 36%, p= 0.632). Treatment of exon 8 mutations with GO resulted in significant improvement in OS at 5 years from study entry compared to those without exon 8 mutations (100% vs. 80%, landmark p value <0.001) but other outcome parameters were not significantly improved (EFS 62% vs. 71%, p= 0.707; DFS 58% vs. 75%, p=0.382; RR 42% vs. 16%, p=0.056).

For patients with exon 17 mutations, treatment without GO resulted in inferior outcomes when compared to CBF AML patients without exon 17 mutations (OS 56% vs. 85%, p= 0.019; EFS 44% vs. 66%, p=0.154; DFS 33% vs. 65%, p=0.049; RR 67% vs. 32%, p=0.031). Adding GO abrogated this negative impact. Specifically, OS, EFS, DFS and RR for patients with exon 17 mutations were comparable to that of CBF AML patients with WT exon 17 when treated with GO (OS 77% vs. 83%, p= 0.542; EFS 62% vs. 71%, p=0.516; DFS: 56% vs. 74%, p=0.195; RR 22% vs.19%, p=0.898).

This analysis suggests that pediatric KIT + CBF AML has negative prognostic impact within the context of AAML0531. This effect was abrogated, particularly for patients with exon 17 mutations, with GO treatment. CD33-targeted agents may be beneficial, at least for a subset of these patients, in future clinical trials.

Disclosures

Aplenc:Sigma Tau: Honoraria.

Author notes

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Asterisk with author names denotes non-ASH members.

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