Abstract KAT6A is a histone acetyltransferase (HAT) which directs chromatin structural rearrangement and subsequent changes in gene transcription through acetylation of histones, primarily specific lysine residues on histone H3. KAT6A is modified in cancer, including genomic amplification, overexpression, mutation, as well as genetic rearrangement resulting in the production of fusion proteins. Dysregulation of this MYST family member and its acetyl transferase activity is known to drive gene expression and tumorigenic progression in cancers. An inhibitor of KAT6A and related MYST family member KAT6B has entered phase 1 clinical trials with durable partial responses seen in a variety of tumor types, including estrogen-receptor positive (ER+) breast cancer previously treated with a CDK4/6 inhibitor (Sommerhalder, ASCO2023). Evidence of dose dependent pharmacodynamics (H3K23Ac inhibition) was observed in peripheral blood mononuclear cells and paired tumor biopsies. Isosterix has developed 2 distinct series of KAT6A selective inhibitors which engage in the active site of KAT6A in the acetyl CoA substrate binding pocket and inhibit histone acetylation activity. The kinetics of target enzyme binding and inhibition will be discussed for both series of inhibitors. These compounds have been characterized for potency and cellular activity in a variety of assays. Both series of compounds inhibit KAT6A-mediated histone acetylation with single digit nM potency in a biochemical assay as well as significant potency in the breast cancer tumor cell line ZR-75-1, inhibiting H3K23 acetylation. Using a thermal shift assay (CETSA) and mass spectrometry-based protein quantitation, direct target engagement of KAT6A within cells has been shown. These compounds reduce cell viability of a number of breast cancer cell lines with 10 days of compound administration confirming the dependence of these tumor cell lines on KAT6A acetyl transferase activity for proliferation and cell cycle progression. Compounds are orally bioavailable with excellent pharmacokinetic (PK) properties in mice including half-lives >5 hours with oral administration. Finally, Isosterix inhibitors demonstrated anti-tumor efficacy with oral administration in a ZR-75-1 mouse xenograft tumor model. Inhibitors against this novel epigenetic target demonstrate the potential for efficacy in ER+ breast cancer as well as other tumor indications through suppression of KAT6A-directed transcriptional induction and chromatin remodeling. Table. Compound Kat6A Biochemical IC50 (µM) ZR-75-1 H3K23 Acetylation EC50 (µM) Mouse PK (p.o.) Mouse PK (i.v.) Inhibitor class %F T½ (h) Cl (mL/min/kg) SL-IST-001 0.007 0.01 100 5.2 0.47 Series 1 SL-IST-002 0.007 0.005 100 6 0.48 Series 2 Citation Format: Leslie Holsinger, Roopa RaI, Rahul R. Nagawade, Benoy Pal, Samir Pawar, Pankaj Singh, Krishna Putta, Mahaboobi Jaleel, Tove Bostrom, Jakob Karen, Qianyang Huang, Alison Hannah. Discovery of novel inhibitors of the epigenetic regulatory KAT6A histone acetyl transferase and their anti-tumor activity in breast cancer cells [abstract]. In: Proceedings of the 2023 San Antonio Breast Cancer Symposium; 2023 Dec 5-9; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2024;84(9 Suppl):Abstract nr PO3-26-04.
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