John E. Baldus | Researchain

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Featured researches published by John E. Baldus.

Bioorganic & Medicinal Chemistry Letters | 2010

Continued exploration of the triazolopyridine scaffold as a platform for p38 MAP kinase inhibition

Kevin D. Jerome; Paul V. Rucker; Li Xing; Huey Shieh; John E. Baldus; Shaun R. Selness; Michael A. Letavic; John Frederick Braganza; Kim F. McClure

The structure based drug design, synthesis and structure-activity relationship of a series of C6 sulfur linked triazolopyridine based p38 inhibitors are described. The metabolic deficiencies of this series were overcome through changes in the C6 linker from sulfur to methylene, which was predicted by molecular modeling to be bioisosteric. X-ray of the ethylene linked compound 61 confirmed the predicted binding orientation of the scaffold in the p38 enzyme.

Journal of Medicinal Chemistry | 2016

Discovery of N-(4-Fluoro-3-methoxybenzyl)-6-(2-(((2S,5R)-5-(hydroxymethyl)-1,4-dioxan-2-yl)methyl)-2H-tetrazol-5-yl)-2-methylpyrimidine-4-carboxamide. A Highly Selective and Orally Bioavailable Matrix Metalloproteinase-13 Inhibitor for the Potential Treatment of Osteoarthritis

Peter G. Ruminski; Mark A. Massa; Joseph Walter Strohbach; Cathleen E. Hanau; Michelle A. Schmidt; Jeffrey A. Scholten; Theresa R. Fletcher; Bruce C. Hamper; Jeffery N. Carroll; Huey S. Shieh; Nicole Caspers; Brandon Collins; Margaret L. Grapperhaus; Katherine E. Palmquist; Joe T. Collins; John E. Baldus; Jeffrey Hitchcock; H. Peter Kleine; Michael David Rogers; Joseph J. Mcdonald; Grace E. Munie; Dean Messing; Silvia Portolan; Laurence O. Whiteley; Teresa Sunyer; Mark E. Schnute

Matrix metalloproteinase-13 (MMP-13) is a zinc-dependent protease responsible for the cleavage of type II collagen, the major structural protein of articular cartilage. Degradation of this cartilage matrix leads to the development of osteoarthritis. We previously have described highly potent and selective carboxylic acid containing MMP-13 inhibitors; however, nephrotoxicity in preclinical toxicology species precluded development. The accumulation of compound in the kidneys mediated by human organic anion transporter 3 (hOAT3) was hypothesized as a contributing factor for the finding. Herein we report our efforts to optimize the MMP-13 potency and pharmacokinetic properties of non-carboxylic acid leads resulting in the identification of compound 43a lacking the previously observed preclinical toxicology at comparable exposures.

Bioorganic & Medicinal Chemistry Letters | 2010

Discovery of 5-substituted-N-arylpyridazinones as inhibitors of p38 MAP kinase.

Kevin D. Jerome; Michael Hepperle; John K. Walker; Li Xing; Rajesh V. Devraj; Alan G. Benson; John E. Baldus; Shaun R. Selness

The synthesis, structure-activity relationship and modeling of a series of 5-substituted-N-aryl pyridazinone based p38alpha inhibitors are described. In comparing the series to the similar N-aryl pyridinone series, it was found that the pyridazinones maintained a weaker interaction to the p38 enzyme, and therefore showed generally weaker binding than the pyridinones.

Archive | 2005

Novel Triazolopyridine Compounds for the Treatment of Inflammation

Paul V. Rucker; Kevin D. Jerome; Shaun R. Selness; John E. Baldus; Li Xing

Archive | 2009

Novel Triazolopyridine Compounds

Paul V. Rucker; Kevin D. Jerome; Shaun R. Selness; John E. Baldus; Li Xing

Archive | 2005

Nouveaux composes de triazolopyridine pour le traitement d'inflammation

John E. Baldus; Kevin D. Jerome; Paul V. Rucker; Shaun R. Selness; Li Xing

Archive | 2004

Procede de production de pyrazoles substitues

Kimberley C. Allen; Dennis K. Anderson; John E. Baldus; Todd Boehlow; Jerry D. Clark; Daniel R Dukesherer; Albert D. Edney; Tom Fevig; Sastry A. Kunda; Patrick H. Lau; Jon P. Lawson; Michael K. Mao; Lisa L Mcdermott; Jodi L. Moe; Partha S. Mudipalli; Win Naing; Tobin C. Schilke; Shaun R. Selness; Christine B. Seymour; Shekhar Viswanath; John K. Walker; Gopichand Yalamanchili

Archive | 1999

Substituerede pyrazoler som p38-kinaseinhibitorer

Michael L. Vazquez; John E. Baldus; Kevin D. Jerome; Yi Yu; John K. Walker; Syaulan Yang; Michael Clare; Suzanne Metz; Shaun R. Selness; Xiangdong Xu; Win Naing; Ashok Anantanarayan; Paul W. Collins; Joyce Z. Crich; Rajesh Devraj; Daniel L. Flynn; Lifeng Geng; Matthew J. Graneto; Cathleen E. Hanau; Gunnar J. Hanson; Susan J. Hartmann; Michael Hepperle; He Huang; Ish K. Khanna; Francis J. Koszyk; Shuyuan Liao; Richard A. Partis; Thao D. Perry; Shashidhar N. Rao; Michael S. South

Archive | 1999

Substituted pyrazoles useful as p38 kinase inhibitors.

Ashok Anantanarayan; John E. Baldus; Michael Clare; Paul W. Collins; Joyce Z. Crich; Rajesh Devraj; Daniel L. Flynn; Lifeng Geng; Matthew J. Graneto; Cathleen E. Hanau; Gunnar J. Hanson; Susan J. Hartmann; Michael Hepperle; He Huang; Kevin D. Jerome; Ish K. Khanna; Francis J. Koszyk; Shuyuan Liao; Suzanne Metz; Win Naing; Richard A. Partis; Thao D. Perry; Shashidhar N. Rao; Shaun R. Selness; Michael S. South; Michael A. Stealey; John J. Talley; Michael L. Vazquez; John K. Walker; Richard M. Weier

Archive | 1999

Pyrazoles substitues utilises comme inhibiteurs de la kinase p38

Ashok Anantanarayan; Michael Clare; Paul W. Collins; Joyce Z. Crich; Rajesh Devraj; Daniel L. Flynn; Lifeng Geng; Matthew J. Graneto; Cathleen E. Hanau; Gunnar J. Hanson; Susan J. Hartmann; Michael Hepperle; He Huang; Ish K. Khanna; Francis J. Koszyk; Shuyuan Liao; Suzanne Metz; Richard A. Partis; Thao D. Perry; Shashidhar N. Rao; Shaun R. Selness; Michael S. South; Michael A. Stealey; John J. Talley; Michael L. Vazquez; Richard M. Weier; Xiangdong Xu; Yi Yu; John E. Baldus; Kevin D. Jerome

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