Abstract
Both monomeric and dimeric SMAC (Second Mitochondria-derived Activator of Caspaces) mimetics acting as IAP (Inhibitor of apoptosis proteins) anatgonists have been reported in the clinic as well as extensively in the literature (1). The first four amino acids in the N-terminal of SMAC (AVPI) are critical for binding to IAP proteins. Reported medicinal chemistry exploration of the AVPI template has primarily consisted of variation to the VPI position in the amino-terminal of the SMAC peptide. Structural illucidation of XIAP bound to IAP inhibitors has revealed a critical role for the alanine with dense hydrogen bonding, electrostatic and hydrophibic complementarity with the protein. To our knowledge, exploration of alanine modifications has been limited and generally led to significant reduction in potency. Using the molecular modeling software SuperStar(2), we investigated the publically available co-crystal structures of Smac-mimetics with cIAP1 and hypothesized that homologating the basic amine might be tolerated. Applying this strategy, we report on the successful transfer of a beta-alanine warhead to a number of monomeric scaffolds. The resulting novel monomers maintained cIAP1/2 potency albeit with a reduction in xIAP potency. We report here the first co-crystal structure of xIAP baculoviral IAP repeat 3 domain (BIR3) with a beta-alanine derived monomer. Examination of the binding site contacts in the co-crystal structure provided further insight into the optimization of the warhead. Herein we describe the synthesis, SAR and SPR of this novel warhead and the discovery of beta-alanine derived pan-IAP inhibitors. We show that the SAR can be transferred to dimers and is invariant to the position of dimerization. We report our efforts to optimize the series and mitigate Cyp3A4 inhibition. This work led to the discovery of AZ7732, a novel dimeric SMAC-mimetic; a pan inhibitor of IAPs (cIAP BIR3 IC50 = 12 nM, XIAP BIR3 IC50 = 13 nM, and XIAP BIR2 IC50 = 30 nM); potent in cells as a single agent (MDA-MB231 cIAP degradation IC50 = 0.2 nM, GI50 = 0.4 nM) and is synergistic in vitro in combination with gemcitabine. AZ7732 has favorable in vivo PK with physical properties suitable for IV dosing. AZ7732 is active in vivo as a single agent. Once weekly dosing in MDA-MB231 led to dose-dependent tumor growth inhibition with stasis achieved at 2.5 mpk, ¼ MTD.
In conclusion, Structure-based design and medicinal chemistry efforts have successfully identified novel monomeric and dimeric SMAC mimetics leading to the discovery of a novel in vivo active dimeric pan-IAP inhibitor.
(1) Fulda et al, Nat. Rev. Drug Disc., 11, 109-123, 2012.
(2) M. L. Verdonk, et al, J. Mol. Biol., 289, 1093-1108, 1999
Citation Information: Mol Cancer Ther 2013;12(11 Suppl):B100.
Citation Format: Jamal C. Saeh, Brian Aquila, Daniel Russell, Edward Hennessy, Alex Hird, Melissa Vasbinder, Andrew Ferguson, Bin Yang, Maureen Hattersley, Naomi Laing, Terry MacIntyre, Troy Patterson, Galina Repik, Michael Rooney, Haiyun Wang, Dave Witson, Li Sha, Donald Cook, Paula Lewis, John Lee, Danyang Li, Victor Kamhi, Vibha Oza, Charles Omer. Structure-based design of AZ7732 a novel in vivo active beta-alanine-derived pan-IAP inhibitor. [abstract]. In: Proceedings of the AACR-NCI-EORTC International Conference: Molecular Targets and Cancer Therapeutics; 2013 Oct 19-23; Boston, MA. Philadelphia (PA): AACR; Mol Cancer Ther 2013;12(11 Suppl):Abstract nr B100.