Pharmacologic characterization of TACH101, a first-in-class KDM4 inhibitor for development as a cancer therapeutic.

Abstract

e15067 Background: The histone Lysine (K) Demethylase 4 family, KDM4 family, is involved in nuclear functions such as programming development, activation or repression of transcription, timing and control of the cell cycle, and initiating DNA replication and repair through chromatin remodeling. Overexpression of KDM4 leading to mistakes in post-translational histone modification has been associated with many cancer types and is being investigated as a potential therapeutic drug target. TACH101 is a novel potent and small molecule inhibitor of the KDM4 family. It demonstrated strong efficacy in multiple cancer types in vitro and in vivo and favorable pharmacokinetics (PK) and safety profiles in preclinical models. Methods: The target interaction properties of TACH101 were evaluated using purified enzymes for biochemical, biophysical, and inhibition mechanism studies. For PK parameter measurements, Sprague-Dawley rats and Beagle dogs were used for intravenous or oral administration of TACH101. Hepatocytes or liver microsomes were used to measure cytochrome P450 (CYP) inhibition and induction studies. Cell lines expressing cardiac channels were used for radioligand displacement assays and patch clamping. Results: Biochemical, biophysical, and inhibition mechanism studies using purified enzymes showed TACH101 is a reversible, alpha-KG (co-factor) competitive, and slow-binding inhibitor with IC50 values less than 100 nM. Pharmacologic studies showed plasma protein binding of TACH101 to be ≥99% bound in mouse, rat, dog, and human. TACH101 appeared to be selective in off-target panel assays of receptors, ion channels and transporters. TACH101 did not show any significant binding displacement activity against cardiac ion channels or any effect on hERG in CHO cells using manual patch clamp techniques. In rats and dogs, TACH101 exhibited low systemic clearance, a moderate volume of distribution in rats and dogs, linear exposure profiles with a terminal half-life (̃ 6-hour) and high bioavailability (46-100%). In repeated dose studies in rats and dogs, mean Cmax and AUC values increased in a dose-related manner over the dose range evaluated. There was no significant impact of food on systemic exposure in dogs. TACH101 did not show inhibition or induction of CYP enzymes tested. Conclusions: TACH101 is a potent KDM4 specific inhibitor without significant off-target activity in in vitro and in vivo studies. It did not show inhibition or induction of CYP enzymes suggesting low probability of CYP mediated drug-drug interaction. The exposure from oral administration in rats and dogs was dose proportional and was not significantly affected by food intake in dogs. Given the favorable target activity, PK properties and safety profile, a Phase 1 study is being planned to advance TACH101 for patients with advanced cancer.