Kenneth M. Wells
Johnson & Johnson Pharmaceutical Research and Development
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Publication
Featured researches published by Kenneth M. Wells.
Journal of Medicinal Chemistry | 2010
Brian C. Shook; Stefanie Rassnick; Melville C. Osborne; Scott Davis; Lori Westover; Jamie Boulet; Daniel Hall; Kenneth C. Rupert; Geoffrey R. Heintzelman; Kristin Hansen; Devraj Chakravarty; James L. Bullington; Ronald K. Russell; Shawn Branum; Kenneth M. Wells; Sandra Damon; Scott Youells; Xun Li; Derek A. Beauchamp; David Palmer; Mayra B Reyes; Keith T. Demarest; Yuting Tang; Kenneth J. Rhodes; Paul F. Jackson
The in vivo characterization of a dual adenosine A(2A)/A(1) receptor antagonist in several animal models of Parkinsons disease is described. Discovery and scale-up syntheses of compound 1 are described in detail, highlighting optimization steps that increased the overall yield of 1 from 10.0% to 30.5%. Compound 1 is a potent A(2A)/A(1) receptor antagonist in vitro (A(2A) K(i) = 4.1 nM; A(1) K(i) = 17.0 nM) that has excellent activity, after oral administration, across a number of animal models of Parkinsons disease including mouse and rat models of haloperidol-induced catalepsy, mouse model of reserpine-induced akinesia, rat 6-hydroxydopamine (6-OHDA) lesion model of drug-induced rotation, and MPTP-treated non-human primate model.
Journal of Medicinal Chemistry | 2012
Brian C. Shook; Stefanie Rassnick; Nathaniel H. Wallace; Jeffrey Crooke; Mark Ault; Devraj Chakravarty; J. Kent Barbay; Aihua Wang; Mark T. Powell; Kristi Leonard; Vernon Alford; Robert H. Scannevin; Karen I. Carroll; Lisa Lampron; Lori Westover; Heng-Keang Lim; Ronald K. Russell; Shawn Branum; Kenneth M. Wells; Sandra Damon; Scott Youells; Xun Li; Derek A. Beauchamp; Kenneth J. Rhodes; Paul F. Jackson
The design and characterization of two, dual adenosine A(2A)/A(1) receptor antagonists in several animal models of Parkinsons disease is described. Compound 1 was previously reported as a potential treatment for Parkinsons disease. Further characterization of 1 revealed that it was metabolized to reactive intermediates that caused the genotoxicity of 1 in the Ames and mouse lymphoma L51784 assays. The identification of the metabolites enabled the preparation of two optimized compounds 13 and 14 that were devoid of the metabolic liabilities associated with 1. Compounds 13 and 14 are potent dual A(2A)/A(1) receptor antagonists that have excellent activity, after oral administration, across a number of animal models of Parkinsons disease including mouse and rat models of haloperidol-induced catalepsy, mouse and rat models of reserpine-induced akinesia, and the rat 6-hydroxydopamine (6-OHDA) lesion model of drug-induced rotation.
Bioorganic & Medicinal Chemistry Letters | 2010
Brian C. Shook; Stefanie Rassnick; Daniel Hall; Kenneth C. Rupert; Geoffrey R. Heintzelman; Kristen Hansen; Devraj Chakravarty; James L. Bullington; Robert H. Scannevin; Brian Magliaro; Lori Westover; Karen Carroll; Lisa Lampron; Ronald K. Russell; Shawn Branum; Kenneth M. Wells; Sandra Damon; Scott Youells; Xun Li; Mel Osbourne; Keith T. Demarest; Yuting Tang; Kenneth J. Rhodes; Paul F. Jackson
A novel series of arylindenopyrimidines were identified as A(2A) and A(1) receptor antagonists. The series was optimized for in vitro activity by substituting the 8- and 9-positions with methylene amine substituents. The compounds show excellent activity in mouse models of Parkinsons disease when dosed orally.
Bioorganic & Medicinal Chemistry Letters | 2010
Brian C. Shook; Stefanie Rassnick; Devraj Chakravarty; Nathaniel H. Wallace; Mark Ault; Jeffrey Crooke; J. Kent Barbay; Aihua Wang; Kristi Leonard; Mark T. Powell; Vernon C. Alford; Daniel Hall; Kenneth C. Rupert; Geoffrey R. Heintzelman; Kristen Hansen; James L. Bullington; Robert H. Scannevin; Karen Carroll; Lisa Lampron; Lori Westover; Ronald K. Russell; Shawn Branum; Kenneth M. Wells; Sandra Damon; Scott Youells; Derek A. Beauchamp; Xun Li; Kenneth J. Rhodes; Paul F. Jackson
Two reactive metabolites were identified in vivo for the dual A(2A)/A(1) receptor antagonist 1. Two strategies were implemented to successfully mitigate the metabolic liabilities associated with 1. Optimization of the arylindenopyrimidines led to a number of amide, ether, and amino analogs having comparable in vitro and in vivo activity.
Archive | 2008
Shawn Branum; Raymond W. Colburn; Scott L. Dax; Christopher Flores; Michele C. Jetter; Yi Liu; Donald William Ludovici; Mark J. Macielag; Jay M. Matthews; James J. McNally; Laura M. Reaney; Ronald K. Russell; Ning Qin; Christopher A. Teleha; Kenneth M. Wells; Scott Youells; Mark A. Youngman
Bioorganic & Medicinal Chemistry Letters | 2007
James C. Lanter; James J. Fiordeliso; Vernon C. Alford; Xuqing Zhang; Kenneth M. Wells; Ronald K. Russell; George F. Allan; Muh-Tsann Lai; Olivia Linton; Scott Lundeen; Zhihua Sui
Organic Process Research & Development | 2014
Xun Li; Ronald K. Russell; Jan Spink; Scott Ballentine; Christopher A. Teleha; Shawn Branum; Kenneth M. Wells; Derek A. Beauchamp; Raymond J. Patch; Hui Huang; Mark R. Player; William V. Murray
Organic Process Research & Development | 2012
Xun Li; Kenneth M. Wells; Shawn Branum; Sandra Damon; Scott Youells; Derek A. Beauchamp; David R. J. Palmer; Stephen Stefanick; Ronald K. Russell; William V. Murray
Crystal Growth & Design | 2013
Kenneth M. Wells; Derek A. Beauchamp; Adam M. Fermier; Wenju Wu; Steven Mehrman; Scott Youells; Zhiyong Hu; Xun Li; Mark J. Macielag; Gilles Bignan; Guozhang Xu; Bao-Ping Zhao; Lian Huang; James V. Weber; Micheal D. Gaul; Ronald K. Russell
Organic Process Research & Development | 2017
Christopher Nunn; Andrew DiPietro; Neil Hodnett; Pu Sun; Kenneth M. Wells
