Abstract
Pim kinases have been identified as promising therapeutic targets for hematologic-oncology indications, including multiple myeloma and certain leukemia. Here, we describe our continued efforts in optimizing a lead series by improving bioavailability while maintaining high inhibitory potency against all three Pim kinase isoforms. The discovery of extensive intestinal metabolism and major metabolites helped refine our design strategy, and we observed that optimizing the pharmacokinetic properties first and potency second was a more successful approach than the reverse. In the resulting work, novel analogs such as 20 (GNE-955) were discovered bearing 5-azaindazole core with noncanonical hydrogen bonding to the hinge.
Publication types
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Research Support, Non-U.S. Gov't
MeSH terms
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Animals
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Biological Availability
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Crystallography, X-Ray
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Humans
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Indazoles / chemistry*
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Indazoles / metabolism
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Indazoles / pharmacokinetics
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Indazoles / pharmacology*
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Intestinal Mucosa / metabolism
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Molecular Docking Simulation
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Protein Isoforms / antagonists & inhibitors
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Protein Isoforms / metabolism
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Protein Kinase Inhibitors / chemistry*
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Protein Kinase Inhibitors / metabolism
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Protein Kinase Inhibitors / pharmacokinetics
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Protein Kinase Inhibitors / pharmacology*
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Proto-Oncogene Proteins c-pim-1 / antagonists & inhibitors*
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Proto-Oncogene Proteins c-pim-1 / metabolism
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Rats
Substances
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Indazoles
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Protein Isoforms
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Protein Kinase Inhibitors
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Proto-Oncogene Proteins c-pim-1
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proto-oncogene proteins pim