Abstract 1647: Discovery of AZD0364, a potent and selective oral inhibitor of ERK1/2 that is efficacious in both monotherapy and combination therapy in models of NSCLC

The RAS/MAPK pathway is a major driver in oncogenesis and is dysregulated in approximately 30% of human cancers, primarily by mutations in BRAF or RAS genes. The extracellular-signal-regulated kinases (ERK1 and ERK2) serve as key central nodes within this pathway. The feasibility of targeting the RAS/MAPK pathway has been demonstrated by the initial clinical responses observed to BRAF and MEK inhibitors in BRAF V600E/K metastatic melanoma, however resistance frequently develops by reactivation of the pathway. Direct targeting of ERK1/2, may provide another therapeutic option in tumours with mutations in BRAF or RAS genes. Importantly, ERK1/2 inhibition may have clinical utility in overcoming acquired resistance to RAF and MEK inhibitors where RAS/MAPK pathway reactivation has occurred, such as relapsed BRAF V600E/K melanoma. Starting from our published work, 1 we will describe for the first time, a scaffold hopping approach leading to the identification of AZD0364, a pre-clinical ERK1/2 inhibitor candidate drug. Driven by conformational modelling and structure-based design, and by utilising novel sulfamidate ring opening chemistry, a high lipophilicity efficiency core was identified. Structure based, multi-parameter based optimisation of this improved core ultimately led to AZD0364. AZD0364 exhibits high cellular potency against a direct downstream substrate on the MAPK pathway (e.g. inhibition of phospho-p90RSK1 in BRAFV600E mutant A375 cells, IC 50 = 6 nM). The molecule is a highly selective kinase inhibitor (10/329 kinases tested are inhibited at u003e50% at a 1 µM) and has long residence time on the protein (as determined by SPR on human unphosphorylated-ERK2: pK d = 10; t 1/2 = 277 mins). The good in vitro potency and selectivity is complemented by excellent physico-chemical properties (maximum absorbable dose estimated to be u003e4 g) and good oral pharmacokinetics across species, leading to a low predicted dose to man. In xenograft models, AZD0364 inhibits phospho-p90RSK1 in tumors in a dose-dependent manner. AZD0364 induces regressions in the KRAS mutant NSCLC Calu 6 xenograft model. AZD0364 can also be combined safely and effectively with the MEK1/2 inhibitor selumetinib in KRAS mutant NSCLC xenograft models. 1 Richard A. Ward et. al. Structure-Guided Discovery of Potent and Selective Inhibitors of ERK1/2 from a Modestly Active and Promiscuous Chemical Start Point, J. Med. Chem. 2017, 60, 3438−3450. Citation Format: Iain Simpson, Mark J. Anderton, David M. Andrews, Jason Breed, Emma Davies, Judit E. Debreczeni, Vikki Flemington, Francis D. Gibbons, Mark A. Graham, Philip Hopcroft, Tina Howard, Julian Hudson, Clifford D. Jones, Christopher Jones, Nicola Lindsay, J Elizabeth Pease, Philip Rawlins, Karen Roberts, Steve Swallow, Steve St-Gallay, Michael E. Tonge, Richard A. Ward. Discovery of AZD0364, a potent and selective oral inhibitor of ERK1/2 that is efficacious in both monotherapy and combination therapy in models of NSCLC [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2018; 2018 Apr 14-18; Chicago, IL. Philadelphia (PA): AACR; Cancer Res 2018;78(13 Suppl):Abstract nr 1647.