Daniel S. Gardner | Researchain

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Featured researches published by Daniel S. Gardner.

Bioorganic & Medicinal Chemistry Letters | 2002

CCR3 antagonists: a potential new therapy for the treatment of asthma. Discovery and structure–activity relationships

Dean A. Wacker; Joseph B. Santella; Daniel S. Gardner; Jeffrey G. Varnes; Melissa Estrella; George V. Delucca; Soo S. Ko; Keiichi Tanabe; Paul S. Watson; Patricia K. Welch; Maryanne B. Covington; Nicole Stowell; Eric A. Wadman; Paul Davies; Kimberly A. Solomon; Robert C. Newton; George L. Trainor; Steven M. Friedman; Carl P. Decicco; John V. Duncia

CCR3 antagonist leads with IC(50) values in the microM range were converted into low nM binding compounds that displayed in vitro inhibition of human eosinophil chemotaxis induced by human eotaxin. In particular, 4-benzylpiperidin-1-yl-n-propylureas and erythro-3-(4-benzyl-2-(alpha-hydroxyalkyl)piperidin-1-yl)-n-propylureas (obtained via Beak reaction of N-BOC-4-benzylpiperidine) exhibited single digit nanomolar IC(50) values for CCR3.

Journal of Medicinal Chemistry | 2014

Discovery of the CCR1 antagonist, BMS-817399, for the treatment of rheumatoid arthritis.

Joseph B. Santella; Daniel S. Gardner; John V. Duncia; Hong Wu; Murali T. G. Dhar; Cullen L. Cavallaro; Andrew J. Tebben; Percy H. Carter; Joel C. Barrish; Melissa Yarde; Stephanie W. Briceno; Mary Ellen Cvijic; R. Robert Grafstrom; Richard Liu; Sima R. Patel; Andrew Watson; Guchen Yang; Anne Rose; Rodney Vickery; Janet Caceres-Cortes; Christian Caporuscio; Daniel M. Camac; Javed Khan; Yongmi An; William R. Foster; Paul Davies; John Hynes

High-affinity, functionally potent, urea-based antagonists of CCR1 have been discovered. Modulation of PXR transactivation has revealed the selective and orally bioavailable CCR1 antagonist BMS-817399 (29), which entered clinical trials for the treatment of rheumatoid arthritis.

Bioorganic & Medicinal Chemistry Letters | 2013

The discovery of BMS-457, a potent and selective CCR1 antagonist

Daniel S. Gardner; Joseph B. Santella; John V. Duncia; Percy H. Carter; T. G. Murali Dhar; Hong Wu; Weiwei Guo; Cullen L. Cavallaro; Katy Van Kirk; Melissa Yarde; Stephanie W. Briceno; R. Robert Grafstrom; Richard Liu; Sima R. Patel; Andrew J. Tebben; Dan Camac; Javed Khan; Andrew Watson; Guchen Yang; Anne Rose; William R. Foster; Mary Ellen Cvijic; Paul Davies; John Hynes

A series of compounds which exhibited good human CCR1 binding and functional potency was modified resulting in the discovery of a novel series of high affinity, functionally potent antagonists of the CCR1 receptor. Issues of PXR activity, ion-channel potency, and poor metabolic stability were addressed by the addition of a hydroxyl group to an otherwise lipophilic area in the molecule resulting in the discovery of preclinical candidate BMS-457 for the treatment of rheumatoid arthritis.

Archive | 1999

N-ureidoalkyl-piperidines as modulators of chemokine receptor activity

Soo S. Ko; George V. Delucca; John V. Duncia; Joseph B. Santella; Daniel S. Gardner

Journal of Medicinal Chemistry | 2005

Discovery of CC Chemokine Receptor-3 (CCR3) Antagonists with Picomolar Potency

George V. De Lucca; Ui Tae Kim; Brian J. Vargo; John V. Duncia; Joseph B. Santella; Daniel S. Gardner; Changsheng Zheng; Ann Y. Liauw; Zhang Wang; George Emmett; Dean A. Wacker; Maryanne B. Covington; Nicole Stowell; Eric A. Wadman; Anuk Das; Paul B. Davies; Swamy Yeleswaram; Danielle M. Graden; Kimberly A. Solomon; Robert Newton; George L. Trainor; Carl P. Decicco; Soo S. Ko

Bioorganic & Medicinal Chemistry Letters | 2004

Discovery of N-propylurea 3-benzylpiperidines as selective CC chemokine receptor-3 (CCR3) antagonists

Jeffrey G. Varnes; Daniel S. Gardner; Joseph B. Santella; John V. Duncia; Melissa Estrella; Paul S. Watson; Cheryl M. Clark; Soo S. Ko; Patricia K. Welch; Maryanne B. Covington; Nicole Stowell; Eric A. Wadman; Paul Davies; Kimberley Solomon; Robert C. Newton; George L. Trainor; Carl P. Decicco; Dean A. Wacker

Archive | 2007

Piperidinyl derivatives as modulators of chemokine receptor activity

Percy H. Carter; Cullen L. Cavallaro; John V. Duncia; Daniel S. Gardner; John Hynes; Rui-Qin Liu; Joseph B. Santella; Dharmpal S. Dodd

Bioorganic & Medicinal Chemistry Letters | 2004

Beyond U0126. Dianion chemistry leading to the rapid synthesis of a series of potent MEK inhibitors

John Wityak; Frank W. Hobbs; Daniel S. Gardner; Joseph B. Santella; Joseph J. Petraitis; Jung-Hui Sun; Margaret F. Favata; Andrea J. Daulerio; Kurumi Y. Horiuchi; Robert A. Copeland; Peggy A. Scherle; Bruce D. Jaffe; James M. Trzaskos; Ronald L. Magolda; George L. Trainor; John V. Duncia

Archive | 2004

Substituted cycloalkylamine derivatives as modulators of chemokine receptor activity

Percy H. Carter; Robert J. Cherney; Douglas G. Batt; Gregory D. Brown; John V. Duncia; Daniel S. Gardner; Michael G. Yang

Bioorganic & Medicinal Chemistry Letters | 2008

From rigid cyclic templates to conformationally stabilized acyclic scaffolds. Part I: the discovery of CCR3 antagonist development candidate BMS-639623 with picomolar inhibition potency against eosinophil chemotaxis.

Joseph B. Santella; Daniel S. Gardner; Wenqing Yao; Chongsheng Shi; Prabhakar Reddy; Andrew J. Tebben; George V. Delucca; Dean A. Wacker; Paul S. Watson; Patricia K. Welch; Eric A. Wadman; Paul Davies; Kimberly A. Solomon; Dani M. Graden; Swamy Yeleswaram; Sandhya Mandlekar; Ilona Kariv; Carl P. Decicco; Soo S. Ko; Percy H. Carter; John V. Duncia

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