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  2. Synthesis of a novel suppressor of beta-cell apoptosis via diversity-oriented synthesis

Synthesis of a novel suppressor of beta-cell apoptosis via diversity-oriented synthesis

  • ACS Med Chem Lett. 2011 Sep 8;2(9):698-702. doi: 10.1021/ml200120m.
Danny Hung-Chieh Chou 1 Jeremy R Duvall Baudouin Gerard Haibo Liu Bhaumik A Pandya Byung-Chul Suh Erin M Forbeck Patrick Faloon Bridget K Wagner Lisa A Marcaurelle
Affiliations

Affiliation

  • 1 Chemical Biology Program and Chemical Biology Platform, The Broad Institute of Harvard and MIT, 7 Cambridge Center, Cambridge, Massachusetts 02142, United States.
Abstract

The synthesis of a stereochemically diverse library of medium-sized rings accessible via a 'build/couple/pair' strategy is described. Key aspects of the synthesis include S(N)Ar cycloetherification of a linear amine template to afford eight stereoisomeric 8-membered lactams and subsequent solid-phase diversification of these scaffolds to yield a 6488-membered library. Screening of this compound collection in a cell-based assay for the suppression of cytokine-induced beta-cell Apoptosis resulted in the identification of a small-molecule suppressor capable of restoring glucose-stimulated Insulin secretion in a rat beta-cell line. The presence of all stereoisomers in the screening collection enabled preliminary determination of the structural and stereochemical requirements for cellular activity, while efficient follow-up chemistry afforded BRD-0476 (probe ML187), which had an approximately three-fold increase in activity. These results demonstrate the utility of diversity-oriented synthesis to probe discovery using cell-based screening, and the importance of including stereochemical diversity in screening collections for the development of stereo/structure-activity relationships.

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