Biomea Fusion to Present Preclinical Data for BMF-500, an Investigational Oral Covalent FLT3 Inhibitor, at the 64th American Society of Hematology (ASH) Annual Meeting
Biomea Fusion reported promising preclinical findings for BMF-500, its investigational covalent FLT3 inhibitor, highlighting its potential as the most potent and selective FLT3 inhibitor to date. Key results indicate that BMF-500 achieves greater cytotoxicity in acute myeloid leukemia (AML) cell lines compared to gilteritinib, and demonstrates sustained FLT3 inhibition, leading to complete tumor regression in mouse models. With around one-third of AML patients affected by FLT3 mutations, the company aims to file an IND for BMF-500 in early 2023, potentially enhancing treatment options in this critical area.
- Demonstrated greater cytotoxicity in AML cell lines compared to gilteritinib.
- Achieved complete tumor regression in mouse models of FLT3-ITD.
- High selectivity identified through kinase panel assays.
- Promising efficacy profile compared to existing FLT3 inhibitors.
- On track to file an IND for BMF-500 in early 2023.
- None.
- BMF-500, an investigational third generation covalent FLT3 inhibitor, has demonstrated preclinically that it may be the most potent and selective inhibitor of FLT3 evaluated to date:
- Greater Cytotoxicity: In acute myeloid leukemia (AML) cell lines, three-hour treatment with BMF-500 followed by washout produced higher cell killing at 96 hours than continuous exposure to the non-covalent FLT3 inhibitor gilteritinib
- Sustained FLT3 Inhibition: BMF-500 elicited complete tumor regression of FLT3-ITD in mouse tumor models and maintained its effect without continued exposure
- Highly Selective: Kinase panel assay displayed potential best in class selectivity towards FLT3
- FLT3 mutant efficacy profile displayed significant benefit over existing FLT3 inhibitors
- Approximately one third of patients diagnosed with AML have a FLT3 mutation, which is associated with poor outcomes
- Biomea Fusion remains on track to file an IND for BMF-500 in the first half of 2023
REDWOOD CITY, Calif., Nov. 03, 2022 (GLOBE NEWSWIRE) -- Biomea Fusion, Inc. (Nasdaq: BMEA), a clinical-stage biopharmaceutical company dedicated to discovering and developing novel covalent small molecules to treat and improve the lives of patients with genetically defined cancers and metabolic diseases, today announced it will present preclinical data of investigational covalent FLT3 inhibitor, BMF-500, at the 64th ASH Annual Meeting, which will be held from December 10-13, 2022, at the Ernest N. Morial Convention Center in New Orleans, Louisiana.
BMF-500 was discovered and developed in-house at Biomea using the company’s proprietary FUSION™ System and designed to have a therapeutic profile to allow for combinations with standard of care and/or novel targeted agents like BMF-219, Biomea’s investigational covalent menin inhibitor. The company is on track to submit an investigational new drug (IND) application for BMF-500 in the first half of 2023 and, subject to the successful clearance of an investigational new drug (IND) application, plans to initiate clinical trials evaluating BMF-500 as a single agent and in novel combinations.
“We believe the preclinical data we will present at ASH has the potential to establish BMF-500 as the most potent and selective FLT3 inhibitor reported to date. BMF-500’s unique profile and robust preclinical data demonstrate our growing expertise in developing next-generation covalently binding small molecules through our FUSIONTM System,” said Dr. Steve Morris, Biomea’s CMO. “Given the picomolar activity against key isoforms of FLT3, high specificity to FLT3, and the potential to combine with other agents, including our own novel menin inhibitor, BMF-219, we believe BMF-500 has the potential to produce deep and durable remissions in patients with FLT3 mutant AML.”
Presentation Details
Session Name: 616. Acute Myeloid Leukemias: Investigational Therapies, Excluding Transplantation and Cellular Immunotherapies: Poster II
Session Date: Sunday, December 11, 2022
Presentation Time: 6:00 PM - 8:00 PM (CST)
Publication Number: 2756
Title: BMF-500: An Orally Bioavailable Covalent Inhibitor of FLT3 with High Selectivity and Potent Antileukemic Activity in FLT3-Mutated AML
Full Text of Abstract:
Activating mutations of the FMS-like tyrosine kinase 3 (FLT3) are the most frequent genetic alteration in AML and are associated with poor prognosis. Though several FLT3 inhibitors have entered clinical trials and reached commercialization, adverse events and dose-limiting toxicities often restrict the therapeutic window and limit their long-term use. Such limitations impact the ability to achieve long-lasting response in patients and ultimately result in therapy-induced resistance. Exquisite potency combined with high selectivity and improved safety profile is expected to help improve tolerance and overall treatment outcomes of FLT3-targeted therapy.
BMF-500 was designed as a highly potent and selective, covalent, small molecule inhibitor of FLT3, that binds irreversibly to a reactive cysteine in the kinase active site. BMF-500 is a picomolar inhibitor with markedly improved potency over gilteritinib, a reversible inhibitor of FLT3. BMF-500 selectively killed AML cells harboring FLT3 activating mutations, including MV4-11 and MOLM-13, and engineered cells expressing FLT3 internal tandem duplications (FLT3-ITD) and/or FLT3 tyrosine kinase domain (TKD) mutations. In ex vivo cultures, BMF-500 as a single agent induced potent growth inhibition of patient-derived AML cells harboring either FLT3-ITD or FLT3 non-ITD mutations.
The potent covalent inhibition of FLT3 by BMF-500 manifested in effective and durable cellular response that was improved over gilteritinib. For example, a 3-hour exposure followed by wash-out of BMF-500 outperformed 4 days of continuous exposure to gilteritinib, at all concentrations tested. In cells harboring FLT3 activating mutations, BMF-500 induced dose-dependent inhibition of FLT3 phosphorylation and downstream signaling, including phospho-STAT5 and phospho-ERK. A 1-hour pulse treatment with BMF-500 was sufficient to achieve deep and durable target inhibition for greater than 24 hours, an effect not observed with gilteritinib under similar conditions. Profiling BMF-500 across a broad panel of kinases and key cell-surface receptors revealed high selectivity for FLT3 mutants and selectivity against cKit.
Potent FLT3 inhibition and high selectivity of BMF-500 translated to sustained tumor regression and improved survival in both subcutaneous and disseminated xenograft models of mutant FLT3-driven AML. Orally administered BMF-500 was well tolerated over 4 weeks of dosing. Study results including efficacy and PD response will be presented.
Collectively these data demonstrate BMF-500 to be a novel FLT3 inhibitor with best-in-class potential, given its efficacy, durability, and selectivity in comparison to existing FLT3 inhibitors.
About FLT3 (fms-like tyrosine kinase 3)
FLT3 is a tyrosine kinase receptor that plays a central role in the survival, proliferation, and differentiation of immature blood cells. Notably, FLT3 gene mutations are common in patients with AML and are associated with a poor prognosis. Nearly
About Biomea Fusion
Biomea Fusion is a clinical stage biopharmaceutical company focused on the discovery and development of covalent small molecules to treat patients with genetically defined cancers and metabolic diseases. A covalent small molecule is a synthetic compound that forms a permanent bond to its target protein and offers a number of potential advantages over conventional non-covalent drugs, including greater target selectivity, lower drug exposure, and the ability to drive a deeper, more durable response. The company is utilizing its proprietary FUSION™ System to advance a pipeline of covalent-binding therapeutic agents against key oncogenic drivers of cancer and metabolic diseases. Biomea Fusion’s goal is to utilize its capabilities and platform to become a leader in developing covalent small molecules in order to maximize the clinical benefit when treating various cancers and metabolic diseases.
Forward-Looking Statements
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FAQ
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