| Literature DB >> 27217002 |
Margarita Wucherer-Plietker1, Eugen Merkul2, Thomas J J Müller2, Christina Esdar1, Thorsten Knöchel1, Timo Heinrich1, Hans-Peter Buchstaller1, Hartmut Greiner1, Dieter Dorsch1, Dirk Finsinger1, Michel Calderini1, David Bruge1, Ulrich Grädler3.
Abstract
A combined screening strategy using HTS together with focused kinase library and virtual screening led to the identification of diverse chemical series as PDK1 inhibitors. We focused our medicinal chemistry efforts on 7-azaindoles with low micromolar IC50s (e.g., 16: IC50=1.1μM) in the biochemical PDK1 assay. Our structure-guided optimization efforts considered also PDK1 X-ray structures with weaker binding fragments and resulted in 7-azaindoles with significantly improved biochemical PDK1 potency in the two-digit nanomolar range. However, the most potent analogues only showed moderate activities in a cellular mechanistic assay (42: IC50=2.3μM) together with either low microsomal stability or low permeability. The described structure-activity relationship together with PDK1 X-ray structures and early ADME data provided the basis for our subsequent hit-to-lead program.Entities:
Keywords: Fragment-screening; Kinase inhibitor; PDK1; Protein crystallography; Structure-based design; Virtual screening
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Year: 2016 PMID: 27217002 DOI: 10.1016/j.bmcl.2016.05.005
Source DB: PubMed Journal: Bioorg Med Chem Lett ISSN: 0960-894X Impact factor: 2.823