Development of Potent and Selective Pyrazolopyrimidine IRAK4 Inhibitors | Zendy

Marian C. Bryan | Zendy; Joy Drobnick | Zendy; Alberto Gobbi | Zendy; Aleksandr Kolesnikov | Zendy; Yongsheng Chen | Zendy; Naomi S. Rajapaksa | Zendy; Chudi Ndubaku | Zendy; Jianwen Feng | Zendy; Willy Chang | Zendy; Ross Francis | Zendy; Christine Yu | Zendy; Edna F. Choo | Zendy; Kevin DeMent | Zendy; Yingqing Ran | Zendy; Le An | Zendy; Claire Emson | Zendy; Zhiyu Huang | Zendy; Swathi Sujatha-Bhaskar | Zendy; Hans D. Brightbill | Zendy; Antonio G. DiPasquale | Zendy; Jonathan Maher | Zendy; John Wai | Zendy; Brent S. McKenzie | Zendy; Patrick J. Lupardus | Zendy; Ali A. Zarrin | Zendy; James R. Kiefer | Zendy

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Development of Potent and Selective Pyrazolopyrimidine IRAK4 Inhibitors

Author(s) -

Marian C. Bryan,

Joy Drobnick,

Alberto Gobbi,

Aleksandr Kolesnikov,

Yongsheng Chen,

Naomi S. Rajapaksa,

Chudi Ndubaku,

Jianwen Feng,

Willy Chang,

Ross Francis,

Christine Yu,

Edna F. Choo,

Kevin DeMent,

Yingqing Ran,

Le An,

Claire Emson,

Zhiyu Huang,

Swathi Sujatha-Bhaskar,

Hans D. Brightbill,

Antonio G. DiPasquale,

Jonathan Maher,

John Wai,

Brent S. McKenzie,

Patrick J. Lupardus,

Ali A. Zarrin,

James R. Kiefer

Publication year - 2019

Publication title -

journal of medicinal chemistry

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 2.01

H-Index - 261

eISSN - 1520-4804

pISSN - 0022-2623

DOI - 10.1021/acs.jmedchem.9b00439

Subject(s) - chemistry , in vivo , potency , cocrystal , selectivity , structure–activity relationship , lead compound , bicyclic molecule , kinase , small molecule , combinatorial chemistry , stereochemistry , in vitro , pharmacology , molecule , biochemistry , organic chemistry , biology , hydrogen bond , microbiology and biotechnology , catalysis

A series of pyrazolopyrimidine inhibitors of IRAK4 were developed from a high-throughput screen (HTS). Modification of an HTS hit led to a series of bicyclic heterocycles with improved potency and kinase selectivity but lacking sufficient solubility to progress in vivo. Structure-based drug design, informed by cocrystal structures with the protein and small-molecule crystal structures, yielded a series of dihydrobenzofurans. This semisaturated bicycle provided superior druglike properties while maintaining excellent potency and selectivity. Improved physicochemical properties allowed for progression into in vivo experiments, where lead molecules exhibited low clearance and showed target-based inhibition of IRAK4 signaling in an inflammation-mediated PK/PD mouse model.

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