Whole-exome sequencing and cluster analysis demonstrated the presence of three distinct major clones during the clinical course: (1) an AMoL clone with ASXL1, CBL, and NPM1 somatic mutations, likely associated with the pathogenesis, and GATA2, SRSF2, and TET2 mutations, (2) an AMoL remission clone, with mutated GATA2, SRSF2, and TET2 only (possibly the founding clone (pre-leukemic HSC) that survived chemotherapy), (3) a small subclone which had JAK2 mutation during the AMoL remission, appearing at MPN-U manifestation with additional mutations.
AML with high levels of BCAT1 (BCAT1<sup>high</sup>) displayed a DNA hypermethylation phenotype similar to cases carrying a mutant isocitrate dehydrogenase (IDH<sup>mut</sup>), in which TET2 is inhibited by the oncometabolite 2-hydroxyglutarate.
AML with LM-CH was found in 40 patients (23%) and was associated with clonal hematopoiesis of indeterminate potential years before AML, older age, secondary AML and more frequent MDS-type co-mutations (TET2, RUNX1 and EZH2).
In uni- but not multi-variate analyses, mutated TET2 was associated with longer survival (P=0.044) whereas EZH2 mutations were associated with an increased risk of transformation to acute myeloid leukemia (AML; P=0.039).