Design of Selective, ATP-Competitive Inhibitors of Akt

Kevin D. Freeman‐Cook; Christopher Autry; Gary Borzillo; Deborah Gordon; Elsa Barbacci-Tobin; Vincent Bernardo; David M. Briere; Tracey Clark; Matthew S. Corbett; John Jakubczak; Shefali Kakar; Elizabeth Knauth; Blaise Lippa; Michael J. Luzzio; Mahmoud N. Mansour; Gary J. Martinelli; Matthew A. Marx; K. LeRoi Nelson; Jayvardhan Pandit; Francis Rajamohan; Shaughnessy Robinson; Chakrapani Subramanyam; Liuqing Wei; Martin Wythes; Joel Morris

doi:10.1021/jm1003842

Design of Selective, ATP-Competitive Inhibitors of Akt

Kevin D. Freeman‐Cook(Pfizer (United States)), Christopher Autry(Pfizer (United States)), Gary Borzillo(Pfizer (United States)), Deborah Gordon(Pfizer (United States)), Elsa Barbacci-Tobin(Pfizer (United States)), Vincent Bernardo(Pfizer (United States)), David M. Briere(Pfizer (United States)), Tracey Clark(Pfizer (United States)), Matthew S. Corbett(Pfizer (United States)), John Jakubczak(Pfizer (United States)), Shefali Kakar(Pfizer (United States)), Elizabeth Knauth(Pfizer (United States)), Blaise Lippa(Pfizer (United States)), Michael J. Luzzio(Pfizer (United States)), Mahmoud N. Mansour(Pfizer (United States)), Gary J. Martinelli(Pfizer (United States)), Matthew A. Marx(Pfizer (United States)), K. LeRoi Nelson(Pfizer (United States)), Jayvardhan Pandit(Pfizer (United States)), Francis Rajamohan(Pfizer (United States)), Shaughnessy Robinson(Pfizer (United States)), Chakrapani Subramanyam(Pfizer (United States)), Liuqing Wei(Pfizer (United States)), Martin Wythes(Pfizer (United States)), Joel Morris(Pfizer (United States))

Journal of Medicinal Chemistry

May 19, 2010

10.1021/jm1003842

Cited by 76Open Access

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Abstract

This paper describes the design and synthesis of novel, ATP-competitive Akt inhibitors from an elaborated 3-aminopyrrolidine scaffold. Key findings include the discovery of an initial lead that was modestly selective and medicinal chemistry optimization of that lead to provide more selective analogues. Analysis of the data suggested that highly lipophilic analogues would likely suffer from poor overall properties. Central to the discussion is the concept of optimization of lipophilic efficiency and the ability to balance overall druglike propeties with the careful control of lipophilicity in the lead series. Discovery of the nonracemic amide series and subsequent modification produced an advanced analogue that performed well in advanced preclinical assays, including xenograft tumor growth inhibition studies, and this analogue was nominated for clinical development.

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