Chris De Savi

AZD9496: An Oral Estrogen Receptor Inhibitor That Blocks the Growth of ER-Positive and ESR1-Mutant Breast Tumors in Preclinical Models.

Fulvestrant is an estrogen receptor (ER) antagonist administered to breast cancer patients by monthly intramuscular injection. Given its present limitations of dosing and route of administration, a more flexible orally available compound has been sought to pursue the potential benefits of this drug in patients with advanced metastatic disease. Here we report the identification and characterization of AZD9496, a nonsteroidal small-molecule inhibitor of ERα, which is a potent and selective antagonist and downregulator of ERα in vitro and in vivo in ER-positive models of breast cancer. Significant tumor growth inhibition was observed as low as 0.5 mg/kg dose in the estrogen-dependent MCF-7 xenograft model, where this effect was accompanied by a dose-dependent decrease in PR protein levels, demonstrating potent antagonist activity. Combining AZD9496 with PI3K pathway and CDK4/6 inhibitors led to further growth-inhibitory effects compared with monotherapy alone. Tumor regressions were also seen in a long-term estrogen-deprived breast model, where significant downregulation of ERα protein was observed. AZD9496 bound and downregulated clinically relevant ESR1 mutants in vitro and inhibited tumor growth in an ESR1-mutant patient-derived xenograft model that included a D538G mutation. Collectively, the pharmacologic evidence showed that AZD9496 is an oral, nonsteroidal, selective estrogen receptor antagonist and downregulator in ER(+) breast cells that could provide meaningful benefit to ER(+) breast cancer patients. AZD9496 is currently being evaluated in a phase I clinical trial. Cancer Res; 76(11); 3307-18. ©2016 AACR.

Optimization of a Novel Binding Motif to (E)-3-(3,5-Difluoro-4-((1R,3R)-2-(2-Fluoro-2-Methylpropyl)-3-Methyl-2, 3,4,9-Tetrahydro-1H-Pyrido[3,4-B]Indol-1-Yl)Phenyl)Acrylic Acid (Azd9496), a Potent and Orally Bioavailable Selective Estrogen Receptor Downregulator and Antagonist.

The discovery of an orally bioavailable selective estrogen receptor downregulator (SERD) with equivalent potency and preclinical pharmacology to the intramuscular SERD fulvestrant is described. A directed screen identified the 1-aryl-2,3,4,9-tetrahydro-1H-pyrido[3,4-b]indole motif as a novel, druglike ER ligand. Aided by crystal structures of novel ligands bound to an ER construct, medicinal chemistry iterations led to (E)-3-(3,5-difluoro-4-((1R,3R)-2-(2-fluoro-2-methylpropyl)-3-methyl-2,3,4,9-tetrahydro-1H-pyrido[3,4-b]indol-1-yl)phenyl)acrylic acid (30b, AZD9496), a clinical candidate with high oral bioavailability across preclinical species that is currently being evaluated in phase I clinical trials for the treatment of advanced estrogen receptor (ER) positive breast cancer.

Investigation of (E)-3-[4-(2-Oxo-3-aryl-chromen-4-yl)oxyphenyl]acrylic Acids as Oral Selective Estrogen Receptor Down-Regulators

A novel estrogen receptor down-regulator, 7-hydroxycoumarin (5, SS5020), has been reported with antitumor effects against chemically induced mammary tumors. Here, we report on our own investigation of 7-hydroxycoumarins as potential selective estrogen receptor down-regulators, which led us to the discovery of potent down-regulating antagonists, such as 33. Subsequent optimization and removal of the 7-hydroxy group led to coumarin 59, which had increased potency and improved rat bioavailability relative to SS5020.

Selective non zinc binding inhibitors of MMP13

Directed screening has identified a novel series of MMP13 inhibitors that possess good levels of activity whilst possessing excellent selectivity over related MMPs. The binding mode of the series has been solved by co-crystallisation and demonstrates an interesting mode of inhibition without interaction with the catalytic zinc atom.

The design and synthesis of novel N-hydroxyformamide inhibitors of ADAM-TS4 for the treatment of osteoarthritis

Two series of N-hydroxyformamide inhibitors of ADAM-TS4 were identified from screening compounds previously synthesised as inhibitors of matrix metalloproteinase-13 (collagenase-3). Understanding of the binding mode of this class of compound using ADAM-TS1 as a structural surrogate has led to the discovery of potent and very selective inhibitors with favourable DMPK properties. Synthesis, structure-activity relationships, and strategies to improve selectivity and lower in vivo metabolic clearance are described.

Orally active achiral N-hydroxyformamide inhibitors of ADAM-TS4 (aggrecanase-1) and ADAM-TS5 (aggrecanase-2) for the treatment of osteoarthritis

A new achiral class of N-hydroxyformamide inhibitor of both ADAM-TS4 and ADAM-TS5, 2 has been discovered through modification of the complex P1 group present in historical inhibitors 1. This structural change improved the DMPK properties and greatly simplified the synthesis whilst maintaining excellent cross-MMP selectivity profiles. Investigation of structure-activity and structure-property relationships in the P1 group resulted in both ADAM-TS4 selective and mixed ADAM-TS4/5 inhibitors. This led to the identification of a pre-clinical candidate with excellent bioavailability across three species and predicting once daily dosing kinetics.

Hydantoin based inhibitors of MMP13--discovery of AZD6605.

Piperidine ether and aryl piperazine hydantoins are reported as potent inhibitors of MMP13. A medicinal chemistry campaign focused on replacing the reverse hydroxamate zinc binding group associated with historical inhibitors with a hydantoin zinc binding group then optimising MMP13 potency, solubility and DMPK properties whilst maintaining good selectivity over MMP14. A number of high quality candidates were progressed and following rat and dog safety evaluation, AZD6605 (3m) was identified as a candidate drug.

Lead Optimisation of Selective Non-Zinc Binding Inhibitors of Mmp13. Part 2.

Directed screening has identified a novel series of non-zinc binding MMP13 inhibitors that possess good levels of activity whilst demonstrating excellent selectivity over related MMPs. A lead optimisation campaign has delivered compounds with enhanced MMP13 potency, good selectivity and acceptable bioavailability profiles leading to a predicted twice-a-day dosing regimen in man.

Abstract DDT01-03: Discovery and pre-clinical pharmacology of AZD9496: An oral, selective estrogen receptor down-regulator (SERD)

With over 70% of breast cancers expressing estrogen receptor alpha protein (ERα), treatment with either anti-hormonal therapies that directly block ERα function (e.g. tamoxifen) or therapies that block the production of estrogen itself (e.g. anastrozole) have proven to be effective treatments for the disease. Following the discovery of the ERα antagonist tamoxifen in the 1960s, identification of the selective estrogen receptor down-regulator (SERD) fulvestrant represented a further step forward in the treatment of advanced ER+ breast cancer, especially in the endocrine resistance setting where ERα appears to be activated by a ligand independent route through other growth factor signaling pathways. In addition, fulvestrant has also shown significant overall survival (OS) results in the FIRST trial comparing 500 mg fulvestrant with anastrozole in first line advanced ER+ve patients where the majority of patients had not received prior endocrine therapy. Given fulvestrant9s low bioavailability following intramuscular injection and the levels of ERα protein in clinical samples after treatment, the question remains as to whether an agent that could achieve higher steady state levels of drug more rapidly and drive further decreases in ERα levels would give enhanced clinical benefit. We have identified a novel, potent, non-steroidal SERD that can be administered orally and could yield improved exposure and clinical benefit. This presentation will describe the discovery and pre-clinical pharmacology of AZD9496, a small molecule that can antagonise ERα and induce receptor degradation in breast cancer cell lines at picomolar concentrations. The good oral pharmacokinetic properties of the compound in pre-clinical species led to significant tumor growth inhibition in an endocrine sensitive MCF-7 xenograft model at a dose of 5 mg/kg and >90% reduction in ER-regulated, progesterone receptor (PR) levels. Tumor regressions were seen in a long term estrogen deprived (LTED) in vivo model, representing the aromatase resistant setting, and corresponded with significant reductions in ERα protein levels, >90% at 5 mg/kg dose. AZD9496 also showed antagonist and down-regulation activity against ERα mutant protein both in vitro and in vivo. These findings strongly supported selection of AZD9496 as a clinical candidate for the treatment of ER+ve breast cancer and the drug is now under evaluation in a Phase 1 clinical trial. Citation Format: Hazel Weir, Mandy Lawson, Rowena Callis, Michael Hulse, Michael Tonge, Gareth Davies, Graeme Walker, Rachel Rowlinson, Jon Curwen, Zena Wilson, Steve Powell, Robert Bradbury, Alfred Rabow, Craig Donald, David Buttar, Richard Norman, Camila de Almeida, Peter Ballard, Gordon Currie, David Andrews, Graham Richmond, Anne Marie Mazzola, Ermira Pazolli, Brendon Ladd, Celina D9Cruz, Chris De Savi. Discovery and pre-clinical pharmacology of AZD9496: An oral, selective estrogen receptor down-regulator (SERD). [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr DDT01-03. doi:10.1158/1538-7445.AM2015-DDT01-03