David H. Kaufman | Researchain

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Featured researches published by David H. Kaufman.

Bioorganic & Medicinal Chemistry Letters | 2010

4-(3-Aryloxyaryl)quinoline sulfones are potent liver X receptor agonists.

Ronald C. Bernotas; Robert R. Singhaus; David H. Kaufman; Jeremy M. Travins; John W. Ullrich; Rayomand J. Unwalla; Elaine Quinet; Mark J. Evans; Ponnal Nambi; Andrea Olland; Björn Kauppi; Anna Wilhelmsson; Annika Goos-Nilsson; Jay E. Wrobel

A series of 4-(3-aryloxyaryl)quinolines with sulfone substituents on the terminal aryl ring (7) was prepared as LXR agonists. High affinity LXR ligands with excellent agonist potency and efficacy in functional assays of LXR activity were identified. In general, these sulfone agonists were equal to or superior to previously described alcohol and amide analogs in terms of affinity, functional potency, and microsomal stability. Many of the sulfones had LXRbeta binding IC(50) values <10nM while the most potent compounds in an ABCA1 mRNA induction assay in J774 mouse cells had EC(50) values <10nM and were as efficacious as T0901317.

Bioorganic & Medicinal Chemistry | 2009

Biarylether amide quinolines as liver X receptor agonists.

Ronald C. Bernotas; Robert R. Singhaus; David H. Kaufman; John W. Ullrich; Horace Fletcher; Elaine Quinet; Ponnal Nambi; Rayomand J. Unwalla; Anna Wilhelmsson; Annika Goos-Nilsson; Mathias Färnegårdh; Jay E. Wrobel

A series of 4-(amido-biarylether)-quinolines was prepared as potential LXR agonists. Appropriate substitution with amide groups provided high affinity LXR ligands, some with excellent potency and efficacy in functional assays of LXR activity. Novel amide 4g had a binding IC(50)=1.9 nM for LXRbeta and EC(50)=34 nM (96% efficacy relative to T0901317) in an ABCA1 gene expression assay in mouse J774 cells, demonstrating that 4-(biarylether)-quinolines with appropriate amide substitution are potent LXR agonists.

Bioorganic & Medicinal Chemistry Letters | 2010

1-(3-Aryloxyaryl)benzimidazole sulfones are liver X receptor agonists.

Jeremy M. Travins; Ronald C. Bernotas; David H. Kaufman; Elaine Quinet; Ponnal Nambi; Irene Feingold; Christine Huselton; Anna Wilhelmsson; Annika Goos-Nilsson; Jay E. Wrobel

A series of 1-(3-aryloxyaryl)benzimidazoles incorporating a sulfone substituent (6) was prepared. High affinity LXR ligands were identified (LXRbeta binding IC(50) values <10nM), some with excellent agonist potency and efficacy in a functional assay of LXR activity measuring ABCA1 mRNA increases in human macrophage THP1 cells. The compounds were typically stable in liver microsome preparations and had good oral exposure in mice.

Bioorganic & Medicinal Chemistry | 2009

4-(3-Aryloxyaryl)quinoline alcohols are liver X receptor agonists

Ronald C. Bernotas; David H. Kaufman; Robert R. Singhaus; John W. Ullrich; Rayomand J. Unwalla; Elaine Quinet; Ponnal Nambi; Anna Wilhelmsson; Annika Goos-Nilsson; Jay E. Wrobel

A series of 4-(3-aryloxyaryl)quinolines with alcohol substituents on the terminal aryl ring was prepared as potential LXR agonists, in which an alcohol group replaced an amide in previously reported amide analogs. High affinity LXR ligands with excellent agonist potency and efficacy in a functional model of LXR activity were identified, demonstrating that alcohols can substitute for amides while retaining LXR activity. The most potent compound was 5b which had an IC(50)=3.3 nM for LXRbeta binding and EC(50)=12 nM (122% efficacy relative to T0901317) in an ABCA1 mRNA induction assay in J774 mouse cells.

Archive | 2004

Quinolines useful in treating cardiovascular disease

Michael D. Collini; Robert R. Singhaus; Baihua Hu; James W. Jetter; Robert L. Morris; David H. Kaufman; Chris P. Miller; John W. Ullrich; Rayomand J. Unwalla; Jay E. Wrobel; Elaine Quinet; Ponnal Nambi; Ronald C. Bernotas; Merle Elloso

Bioorganic & Medicinal Chemistry Letters | 2004

7-Substituted 2-phenyl-benzofurans as ERβ selective ligands

Michael D. Collini; David H. Kaufman; Eric S. Manas; Heather A. Harris; Ruth A. Henderson; Zhang B. Xu; Rayomand J. Unwalla; Christopher Miller

Bioorganic & Medicinal Chemistry | 2007

Further modification on phenyl acetic acid based quinolines as liver X receptor modulators

Baihua Hu; James W. Jetter; David H. Kaufman; Robert R. Singhaus; Ronald C. Bernotas; Rayomand J. Unwalla; Elaine Quinet; Dawn Savio; Anita R Halpern; Michael D Basso; James C. Keith; Valerie Clerin; Liang Chen; Qiang-Yuan Liu; Irene Feingold; Christine Huselton; Farooq Azam; Annika Goos-Nilsson; Anna Wilhelmsson; Ponnal Nambi; Jay E. Wrobel

Archive | 2002

Substituted 2-phenyl benzofurans as estrogenic agents

Chris P. Miller; Michael D. Collini; David H. Kaufman; Robert L. Morris; Robert Ray Singhaus; John W. Ullrich; Heather A. Harris; James C. Keith; Leo M. Albert; Rayomand J. Unwalla

Synlett | 2000