Structure-Guided Evolution of Potent and Selective CHK1 Inhibitors through Scaffold Morphing | Zendy

John Reader | Zendy; Thomas P. Matthews | Zendy; Suki Klair | Zendy; Kwai-Ming J. Cheung | Zendy; Jane Scanlon | Zendy; Nicolas Proisy | Zendy; Glynn Addison | Zendy; John Ellard | Zendy; Nelly Piton | Zendy; Suzanne Taylor | Zendy; Michael Cherry | Zendy; Martin Fisher | Zendy; Kathy Boxall | Zendy; Samantha Burns | Zendy; Michael I. Walton | Zendy; Isaac M. Westwood | Zendy; Angela Hayes | Zendy; Paul D. Eve | Zendy; Melanie Valenti | Zendy; Alexis de Haven Brandon | Zendy; Gary Box | Zendy; Rob L. M. van Montfort | Zendy; D. H. Williams | Zendy; G. Wynne Aherne | Zendy; Florence I. Raynaud | Zendy; Suzanne A. Eccles | Zendy; Michelle D. Garrett | Zendy; Ian Collins | Zendy

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Structure-Guided Evolution of Potent and Selective CHK1 Inhibitors through Scaffold Morphing

Author(s) -

John Reader,

Thomas P. Matthews,

Suki Klair,

Kwai-Ming J. Cheung,

Jane Scanlon,

Nicolas Proisy,

Glynn Addison,

John Ellard,

Nelly Piton,

Suzanne Taylor,

Michael Cherry,

Martin Fisher,

Kathy Boxall,

Samantha Burns,

Michael I. Walton,

Isaac M. Westwood,

Angela Hayes,

Paul D. Eve,

Melanie Valenti,

Alexis de Haven Brandon,

Gary Box,

Rob L. M. van Montfort,

D. H. Williams,

G. Wynne Aherne,

Florence I. Raynaud,

Suzanne A. Eccles,

Michelle D. Garrett,

Ian Collins

Publication year - 2011

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/jm2007326

Subject(s) - chemistry , selectivity , scaffold , potency , combinatorial chemistry , in vivo , drug discovery , structure–activity relationship , chemical space , pharmacology , stereochemistry , biochemistry , in vitro , medicine , microbiology and biotechnology , biomedical engineering , biology , catalysis

Pyrazolopyridine inhibitors with low micromolar potency for CHK1 and good selectivity against CHK2 were previously identified by fragment-based screening. The optimization of the pyrazolopyridines to a series of potent and CHK1-selective isoquinolines demonstrates how fragment-growing and scaffold morphing strategies arising from a structure-based understanding of CHK1 inhibitor binding can be combined to successfully progress fragment-derived hit matter to compounds with activity in vivo. The challenges of improving CHK1 potency and selectivity, addressing synthetic tractability, and achieving novelty in the crowded kinase inhibitor chemical space were tackled by multiple scaffold morphing steps, which progressed through tricyclic pyrimido[2,3-b]azaindoles to N-(pyrazin-2-yl)pyrimidin-4-amines and ultimately to imidazo[4,5-c]pyridines and isoquinolines. A potent and highly selective isoquinoline CHK1 inhibitor (SAR-020106) was identified, which potentiated the efficacies of irinotecan and gemcitabine in SW620 human colon carcinoma xenografts in nude mice.

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