Christopher E. Neipp
GlaxoSmithKline
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Publication
Featured researches published by Christopher E. Neipp.
Journal of Medicinal Chemistry | 2009
Dramane I. Laine; Brent W. Mccleland; Sonia M Thomas; Christopher E. Neipp; Brian Underwood; Jeremy Dufour; Katherine L. Widdowson; Michael R. Palovich; Frank E. Blaney; James J. Foley; Edward F. Webb; Mark A. Luttmann; Miriam Burman; Kristen E. Belmonte; Michael Salmon
A novel 4-hydroxyl(diphenyl)methyl substituted quinuclidine series was discovered as a very promising class of muscarinic antagonists. The structure-activity relationships of the connectivity of the diphenyl moiety to the quinuclidine core and around the ring nitrogen side chain are described. Computational docking studies using an homology model of the M(3) receptor readily explained the observed structure-activity relationship of the various compounds. Compound 14o was identified as a very potent, slowly reversible M(3) antagonist with a very long in vivo duration of bronchoprotection.
Journal of Medicinal Chemistry | 2009
Dramane I. Laine; Zehong Wan; Hongxing Yan; Chongjie Zhu; Haibo Xie; Wei Fu; Jakob Busch-Petersen; Christopher E. Neipp; Roderick S. Davis; Katherine L. Widdowson; Frank E. Blaney; James E. Foley; Alicia M. Bacon; Edward F. Webb; Mark A. Luttmann; Miriam Burman; Henry M. Sarau; Michael Salmon; Michael R. Palovich; Kristen E. Belmonte
Novel tropane derivatives were characterized as muscarinic acetylcholine receptor antagonists (mAChRs). Through optimization of the structure-activity relationship around the tropane scaffold, the quaternary ammonium salt 34 was identified as a very potent M(3) mAChR antagonist. The compound was functionally active and displayed greater than 24 h duration of action in a mouse model of bronchoconstriction.
Journal of Medicinal Chemistry | 2016
Alison Jo-Anne Woolford; Joseph E. Pero; Sridhar Aravapalli; Valerio Berdini; Joseph E. Coyle; Philip J. Day; Andrew M. Dodson; Pascal Grondin; Finn P. Holding; Lydia Y. W. Lee; Peng Li; Eric S. Manas; Joseph P. Marino; Agnes C. L. Martin; Brent W. Mccleland; Rachel McMenamin; Christopher W. Murray; Christopher E. Neipp; Lee W. Page; Vipulkumar Kantibhai Patel; Florent Potvain; Sharna J. Rich; Ralph A. Rivero; Kirsten S. Smith; Donald O. Somers; Lionel Trottet; Ranganadh Velagaleti; Glyn Williams; Ren Xie
Elevated levels of human lipoprotein-associated phospholipase A2 (Lp-PLA2) are associated with cardiovascular disease and dementia. A fragment screen was conducted against Lp-PLA2 in order to identify novel inhibitors. Multiple fragment hits were observed in different regions of the active site, including some hits that bound in a pocket created by movement of a protein side chain (approximately 13 Å from the catalytic residue Ser273). Using structure guided design, we optimized a fragment that bound in this pocket to generate a novel low nanomolar chemotype, which did not interact with the catalytic residues.
Archive | 2005
Dramane I. Laine; Michael R. Palovich; Brent W. Mccleland; Christopher E. Neipp; Sonia M Thomas
Archive | 2012
Christopher E. Neipp; Michael R. Palovich
Archive | 2008
Jeffrey Charles Boehm; Jakob Busch-Petersen; Wei Fu; Qi Jin; Jeffrey K. Kerns; Huijie Li; Guoliang Lin; Xichen Lin; Christopher E. Neipp
TRP Channels as Therapeutic Targets#R##N#From Basic Science to Clinical Use | 2015
Jessica Tan; Gerald E. Hunsberger; Christopher E. Neipp; M. Allen McAlexander
Archive | 2008
Jeffrey Charles Boehm; Jakob Busch-Petersen; Wei Fu; Qi Jin; Jeffrey K. Kerns; Huijie Li; Guoliang Lin; Xichen Lin; Christopher E. Neipp
Archive | 2005
Dramane I. Laine; Brent W. Mccleland; Christopher E. Neipp; Michael R. Palovich
Archive | 2005
Dramane I. Laine; Michael R. Palovich; Brent W. Mccleland; Christopher E. Neipp; Sonia M Thomas
