CDK₂ (cyclin-dependent kinase 2) is an attractive target for therapeutic intervention in cancer. In this work, quantitative structure-activity relationship (QSAR), molecular docking, and molecular dynamics (MD) studies were performed on three sets of 155 CDK₂ inhibitors. The obtained models exhibit good predictive capability in both internal and external validations (q²=0.73, r²(pred)=0.94 for 6, 6-dimethyl pyrrolo [3,4-c]pyrazoles analogs, q²=0.62, r²(pred)=0.63 for imidazole pyrimidine amides analogs and q²=0.56, r²(pred)=0.58 for 4-(pyrazol-4-yl)-pyrimidines analogs). Furthermore, a comparison between 3D-contour map, docking and MD simulation explore in detail the binding modes and the key structural features impacting the interaction of each series of inhibitors with the CDK₂ enzyme, which should be useful to aid the designing of new inhibitors with CDK₂ improved biological response.

01 Dec 2008·Bioorganic & medicinal chemistry lettersQ4 · MEDICINE

The discovery of AZD5597, a potent imidazole pyrimidine amide CDK inhibitor suitable for intravenous dosing

Q4 · MEDICINE

Article

Author: Simon East ; Mark A. Graham ; Kevin Blades ; Alexandra McGregor ; Peter B. Simpson ; Mike Walker ; Kin Y. Tam ; Julie A. Tucker ; Andrew J. Barker ; Sarah A. Loddick ; Paula Daunt ; Clifford D. Jones ; Heather M. McFarland ; Keith M. Johnson ; Michael L. Swain ; Louise Moss ; Catherine Geh ; David M. Andrews ; David A. Rudge

The development of a novel series of imidazole pyrimidine amides as cyclin-dependent kinase (CDK) inhibitors is described. Optimisation of inhibitory potency against multiple CDK's (1, 2 and 9) resulted in imidazole pyrimidine amides with potent in vitro anti-proliferative effects against a range of cancer cell lines. Excellent physiochemical properties and large margins against inhibition of CYP isoforms and the hERG ion channel were achieved by modification of lipophilicity and amine basicity. A candidate with disease model activity in human cancer cell line xenografts and with suitable physiochemical and pharmacokinetic profiles for intravenous (i.v.) dosing was selected for further development as AZD5597.

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Indication	Highest Phase	Country/Location	Organization	Date
Neoplasms	Preclinical	United Kingdom	AstraZeneca PLC	01 Dec 2008

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