Abstract
KMT2A partial tandem duplication (PTD) involves intragenic KMT2A duplications and has been associated with poorer prognosis. In this study, we evaluated KMT2A PTD in 1277 patients with hematological malignancies using optical genome mapping (OGM). KMT2A PTD was detected in 35 patients with acute myeloid leukemia (AML) (7%), 5 patients with myelodysplastic syndrome (MDS) (2.2%), and 5 patients with chronic myelomonocytic leukemia (CMML) (7.1%). The PTDs varied in size, region, and copy number. An Archer RNA fusion assay confirmed KMT2A PTD in all 25 patients tested: 15 spanning exons 2 to 8 and 10 spanning exons 2 to 10. Most patients exhibited a normal (n = 21) or non-complex (n = 20) karyotype. The most common chromosomal abnormalities included loss of 20q or 7q and trisomy 11/gain of 11q. All patients had gene mutations, with FLT3 ITD and DNMT3A prevalent in AML and DNMT3A and RUNX1 common in MDS and CMML. Among patients who received treatment and had at least one follow-up bone marrow evaluation, 82% of those with de novo AML achieved complete remission after initial induction chemotherapy, whereas 90% of patients with secondary or refractory/relapsed AML showed refractory or partial responses. All but one patient with MDS and CMML were refractory to therapy. We conclude that OGM is an effective tool for detecting KMT2A PTD. Neoplasms with KMT2A PTD frequently harbor gene mutations and display normal or non-complex karyotypes. Patients with KMT2A PTD are generally refractory to conventional therapy, except for de novo AML.