Therapy-Related Myeloid Neoplasms: Predisposition and Clonal Evolution

The role of clonal progression leading to the development of therapy-related myeloid neoplasms

Therapy-related myeloid neoplasms (t-MN) are characterized by aggressive features and a dismal prognosis. Recent evidence suggests a higher incidence of t-MN in individuals harboring clonal hematopoiesis of indeterminate potential (CHIP). In order to gain insight into CHIP-driven malignant progression, we gathered data from ten published reports with available detailed patient characteristics at the time of primary malignancy and t-MN development. Detailed clinical and molecular information on primary malignancy and t-MN were available for 109 patients: 43% harbored at least one somatic mutation at the time of the primary malignancy. TET2 and TP53 mutations showed an increasing variant allele frequency from CHIP to t-MN. ASXL1-associated CHIP significantly correlated with the emergence of TET2 and CEBPA mutations at t-MN, as well as U2AF1-driven CHIP with EZH2 mutation and both IDH2 and SRSF2-driven CHIP with FLT3 mutation. DNMT3A-driven CHIP correlated with a lower incidence of TP53 mutation at t-MN. In contrast, TP53-driven CHIP correlated with a complex karyotype and a lower tendency to acquire new mutations at t-MN. Patients with multiple myeloma as their first malignancy presented a significantly higher rate of TP53 mutations at t-MN. The progression from CHIP to t-MN shows different scenarios depending on the genes involved. A deeper knowledge of CHIP progression mechanisms will allow a more reliable definition of t-MN risk.

Myeloid neoplasms in individuals with breast and ovarian cancer and the association with deleterious germline variants

Historically, the increased incidence of myeloid neoplasms observed in individuals with breast and ovarian cancer has been attributed exclusively to prior exposure to cancer-directed therapies. However, as the association between deleterious germline variants and the development of hematopoietic malignancies (HMs) becomes better established, we propose the increased incidence of myeloid neoplasms in those with breast and ovarian cancer may be at least partially related to underlying germline cancer predisposition alleles. Deleterious germline variants in BRCA1/2, ATM, CHEK2, PALB2, and other related genes prevent normal homologous recombination DNA repair of double-strand breaks, leading to reliance on less effective repair mechanisms. This results in a high lifetime risk of breast and ovarian cancer, and likely also increases the risk of subsequent therapy-related myeloid neoplasms (t-MNs). These deleterious germline variants likely increase the risk for de novo HMs as well, as evidenced by the increased incidence of HMs observed in those with deleterious germline BRCA1/2 variants even in the absence of prior cancer-directed therapy. Thus, the association between poly(ADP-ribose) polymerase (PARP) inhibitors and other solid tumor directed therapies and the development of t-MNs may be confounded by the presence of deleterious germline variants which inherently increase the risk of both de novo and t-MNs, and additional data regarding the direct toxic effects of these drugs on bone marrow function are needed.

FLT3 Mutated Acute Myeloid Leukemia after CD19 CAR-t Cells

Chimeric Antigen Receptor T-cells have improved the life expectancy of severely pretreated patients with aggressive hematological cancers; for this reason, therapy-related myeloid leukemias are becoming of great concern in this field, despite their clonal phylogenesis and mutational landscape have not been fully explored yet. This case discusses a 33-year-old man with refractory large B-cell lymphoma, treated with Chimeric Antigen Receptor T-cell (CAR-T) therapy as the 7th line of treatment. Despite a persistent partial response, the patient developed therapy-related acute myeloid leukemia (t-AML) six months post-CAR-T, revealing pre-existing clonal hematopoiesis. The myeloid malignancy exhibited an unusual hypocellular/dysplastic pattern, progressing to an established blast phase with cytopenia. Treatment with demethylating agents and BCL2 inhibitors proved ineffective, leading to t-AML with hyperleukocytosis and FLT3-ITD gain, resulting in the patient's death. This case underscores the impact of severe pretreatment and bone marrow impairment in CAR-T-associated t-AML, emphasizing their role over insertional mutagenesis. Furthermore, it highlights the retention of classic therapy-related leukemia characteristics, including the potential for acquiring FLT3 mutations and displaying dysplastic morphology in these secondary leukemias.