Clinical significance of genetic aberrations in secondary acute myeloid leukemia.

Purpose. The study aimed to identify genetic lesions associated with secondary acute myeloid leukemia (sAML) in comparison to AML arising de de novo (dnAML) and assess their impact on patients' overall survival (OS). Methods. High-resolution genotyping and loss of heterozygosity mapping was performed on DNA samples from 86 sAML and 117 dnAML patients, using Affymetrix Genome-Wide Human SNP 6.0 arrays. Genes TP53, RUNX1, CBL, IDH1/21/2, NRAS, NPM1 and FLT3 were analyzed for mutations in all patients. Results. We identified 36 recurrent cytogenetic aberrations (>5 events). Mutations in TP53, 9pUPD and del7q (targeting CUX1 locus) were significantly associated with sAML, while NPM1 and FLT3 mutations associated with dnAML. Patients with sAML carrying TP53 mutations demonstrated lower 1-year OS rate than those with wild-type TP53 (14.3%±9.4% vs. 35.4%±7.2%; P&=0.002), while complex karyotype, del7q (CUX1) and del7p (IKZF1) showed no significant effect on OS. Multivariate analysis confirmed that mutant TP53 was the only independent adverse prognostic factor for OS in sAML (hazard ratio 2.67; 95%CI, 1.33-5.37; P&=0.006). Patients with dnAML and complex karyotype carried sAML-associated defects (TP53 defects in 54.5%, deletions targeting FOXP1 and ETV6 loci in 45.4% of the cases). We identified several co-occurring lesions associated with either sAML or dnAML diagnosis. Conclusion. Our data suggest that distinct genetic lesions drive leukemogenesis in sAML. High karyotype complexity of sAML patients does not influence OS. Somatic mutations in TP53 are the only independent adverse prognostic factor in sAML. Patients with dnAML and complex karyotype show genetic features associated with sAML and myeloproliferative neoplasms.