Komzifti (ziftomenib)

We critically evaluate the preclinical and clinical development of menin inhibitors, including revumenib, ziftomenib, bleximinib, and icovamenib, summarizing efficacy signals in relapsed/refractory disease, safety profiles, and emerging resistance mechanisms. Special attention is given to combination strategies with venetoclax, FLT3 inhibitors, chemotherapy, and epigenetic agents, which aim to enhance response durability and mitigate resistance. Finally, we discuss ongoing clinical trials, unresolved challenges in patient selection and sequencing, and future directions for integrating menin inhibition into precision-based treatment paradigms for acute leukemia.

Here, we detail the current targeted therapies available for AML: specifically, those targeting the BCL2 family (venetoclax), FLT3 (midostaurin, gilteritinib, quizartinib), IDH1/2 (enasidenib, ivosidenib), and MENIN (revumenib, ziftomenib). In addition, we outline potential mechanisms of resistance against these therapies, as well as efforts being taken to prevent or bypass them.

We next assessed ziftomenib against four MEN1 (gene encoding menin) mutants (T349M, M327I, G331R, G331D) associated with clinical resistance to another menin inhibitor revumenib. The crystal structures of ziftomenib in complex with menin wild-type, T349M or G331R mutants revealed a similar binding mode of ziftomenib to these menin variants, rationalizing potent inhibitory activity towards these mutants. Ziftomenib has recently received FDA approval for adult patients with NPM1-mutated acute myeloid leukemia and continues to be evaluated clinically in leukemias with NPM1 or KMT2A alterations, both as monotherapy and in combinations.

P3, N=1300, Recruiting, Kura Oncology, Inc. | N=719 --> 1300

P2, N=70, Not yet recruiting, Uma Borate | Initiation date: Jan 2026 --> Apr 2026

This manuscript reviews the molecular rationale of menin inhibition for aberrant homeobox/myeloid ectopic insertion site 1 (HOX/MEIS1)-driven gene expression and leukemogenesis, clinical trial outcomes, and safety data for menin inhibitors, with a focus on recently FDA-approved revumenib and several other agents in development, ziftomenib (KO-539), bleximenib (JNJ-75276617), and icovamenib (BMF-219). We also focused our discussion on future directions to include resistance mechanisms, biomarker identification and monitoring strategies, and combination therapies. Menin inhibition is now being clinically integrated into relapsed/refractory and frontline treatment settings.

We tested menin inhibitors (ziftomenib, revumenib, VTP-50469) in 14 primary T-ALL samples and 8 cell lines, representing HOXA-high and HOXA-low genotypes. In conclusion, a subset of T-ALL, defined by high p-MEF2C S222, is sensitive to menin inhibition. Combining ziftomenib with CDK or ERK inhibition offers synergistic efficacy, supporting biomarker-driven clinical trials of this strategy in relapsed/refractory T-ALL.

Currently, most leukemias are effectively treated with immunotherapies (highly effective monoclonal antibodies targeting CD19 [blinatumomab], or CD22 [inotuzumab ozogamicin]), BCR::ABL1 tyrosine kinase inhibitors (TKIs; e.g., dasatinib, ponatinib), Bruton TKIs (e.g., ibrutinib, acalabrutinib), BCL-2 inhibitors (venetoclax), IDH1/2 inhibitors (ivosidenib, olutasidenib, and enasidenib), FLT3 inhibitors (e.g., midostaurin, quizartinib, and gilteritinib), menin inhibitors (revumenib, ziftomenib), and chimeric antigen receptor T-cell therapies. Herein, we provide a high-level overview of prominent clinical developments across all leukemias. In contemporary times, harnessing the benefits of novel targeted therapies and the evolving treatment landscape bolster the optimistic view that most, if not all, leukemias are curable.

While differentiation therapy revolutionized acute promyelocytic leukemia (APL) with all-trans retinoic acid (ATRA) and arsenic trioxide (ATO), its extension into non-APL AML has been limited until recent targeted agents...IDH1/2 inhibitors (ivosidenib, enasidenib, olutasidenib) yield overall response rates (ORRs) of 30-94% in AML with DS in 10-19%. Menin inhibitors (revumenib, ziftomenib, enzomenib, bleximenib) achieve ORRs of 33-88% in KMT2A-rearranged or NPM1-mutated AML, with DS in 10-25% and QT prolongation as key toxicities. FLT3 inhibitors (gilteritinib, quizartinib) improve survival in FLT3-mutated AML with DS in 1-5%...Improved recognition of DS and rational combination approaches will be essential to maximize the therapeutic benefit. Future research should address mechanisms of resistance and biomarkers to achieve cures beyond APL.

Targeted therapies have improved outcomes in molecularly defined subsets of AML, with menin, IDH and FLT3 inhibitors representing major advances. However, TP53-mutated AML continues to carry a dismal prognosis, underscoring the need for more effective therapeutic strategies. Continued biomarker-driven research, novel drug combinations, and mechanistic insights will be essential to further refine AML treatment and improve long-term survival across disease subsets.

Revumenib received approval in 2024-2025 for relapsed or refractory KMT2A-rearranged acute leukemia and NPM1-mutated AML...Several menin inhibitors, including ziftomenib, bleximenib, and enzomenib, are in clinical development...Combination therapies with azacitidine and venetoclax or intensive chemotherapy have achieved high response rates in newly diagnosed patients, supporting their potential use in frontline treatment...Approximately 30-40% of responders in relapsed or refractory trials proceeded to allogeneic transplantation, which remains a key pathway to potential cure. This review examines the molecular mechanisms of the menin-KMT2A interaction, and summarizes clinical trial data on the efficacy and safety of menin inhibitors as monotherapy and in combination.

P2/3, N=411, Not yet recruiting, Kura Oncology Inc.