Novel Carboxamide-Based Allosteric MEK Inhibitors: Discovery and Optimization Efforts toward XL518 (GDC-0973)

Kenneth D. Rice; Naing Aay; Neel K. Anand; Charles M. Blazey; O.J. Bowles; Joerg Bussenius; Simona Costanzo; Jeffry K. Curtis; Steven C. DeFina; L. G. DUBENKO; Stefan Engst; Anagha A. Joshi; A.R. Kennedy; Angie I. Kim; Elena S. Koltun; Julie C. Lougheed; Jean-Claire L. Manalo; Jean‐François Martini; John M. Nuss; Csaba J. Peto; Tsze H. Tsang; Peiwen Yu; Stuart H. Johnston

doi:10.1021/ml300049d

Novel Carboxamide-Based Allosteric MEK Inhibitors: Discovery and Optimization Efforts toward XL518 (GDC-0973)

Kenneth D. Rice(Exelixis (United States)), Naing Aay(Exelixis (United States)), Neel K. Anand(Exelixis (United States)), Charles M. Blazey(Exelixis (United States)), O.J. Bowles(Exelixis (United States)), Joerg Bussenius(Exelixis (United States)), Simona Costanzo(Exelixis (United States)), Jeffry K. Curtis(Exelixis (United States)), Steven C. DeFina(Exelixis (United States)), L. G. DUBENKO(Exelixis (United States)), Stefan Engst(Exelixis (United States)), Anagha A. Joshi(Exelixis (United States)), A.R. Kennedy(Exelixis (United States)), Angie I. Kim(Exelixis (United States)), Elena S. Koltun(Exelixis (United States)), Julie C. Lougheed(Exelixis (United States)), Jean-Claire L. Manalo(Exelixis (United States)), Jean‐François Martini(Exelixis (United States)), John M. Nuss(Exelixis (United States)), Csaba J. Peto(Exelixis (United States)), Tsze H. Tsang(Exelixis (United States)), Peiwen Yu(Exelixis (United States)), Stuart H. Johnston(Exelixis (United States))

ACS Medicinal Chemistry Letters

April 9, 2012

10.1021/ml300049d

Cited by 166Open Access

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Abstract

The ERK/MAP kinase cascade is a key mechanism subject to dysregulation in cancer and is constitutively activated or highly upregulated in many tumor types. Mutations associated with upstream pathway components RAS and Raf occur frequently and contribute to the oncogenic phenotype through activation of MEK and then ERK. Inhibitors of MEK have been shown to effectively block upregulated ERK/MAPK signaling in a range of cancer cell lines and have further demonstrated early evidence of efficacy in the clinic for the treatment of cancer. Guided by structural insight, a strategy aimed at the identification of an optimal diphenylamine-based MEK inhibitor with an improved metabolism and safety profile versus PD-0325901 led to the discovery of development candidate 1-({3,4-difluoro-2-[(2-fluoro-4-iodophenyl)amino]phenyl}carbonyl)-3-[(2S)-piperidin-2-yl]azetidin-3-ol (XL518, GDC-0973) (1). XL518 exhibits robust in vitro and in vivo potency and efficacy in preclinical models with sustained duration of action and is currently in early stage clinical trials.

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