BET Bromodomain Inhibitors with One-Step Synthesis Discovered from Virtual Screen

Alex M. Ayoub; Laura M.L. Hawk; Ryan J. Herzig; Jiewei Jiang; Andrea J. Wisniewski; Clifford T. Gee; Peiliang Zhao; Jin Yi Zhu; Norbert Berndt; Nana K. Offei-Addo; Thomas G. Scott; Jun Qi; James E. Bradner; Timothy R. Ward; Ernst Schönbrunn; Gunda I. Georg; William C.K. Pomerantz

doi:10.1021/acs.jmedchem.6b01336

BET Bromodomain Inhibitors with One-Step Synthesis Discovered from Virtual Screen

Alex M. Ayoub, Laura M.L. Hawk, Ryan J. Herzig, Jiewei Jiang, Andrea J. Wisniewski, Clifford T. Gee, Peiliang Zhao, Jin Yi Zhu, Norbert Berndt, Nana K. Offei-Addo, Thomas G. Scott, Jun Qi, James E. Bradner, Timothy R. Ward, Ernst Schönbrunn, Gunda I. Georg, William C.K. Pomerantz

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Abstract

Chemical inhibition of epigenetic regulatory proteins BrdT and Brd4 is emerging as a promising therapeutic strategy in contraception, cancer, and heart disease. We report an easily synthesized dihydropyridopyrimidine pan-BET inhibitor scaffold, which was uncovered via a virtual screen followed by testing in a fluorescence anisotropy assay. Dihydropyridopyimidine 3 was subjected to further characterization and is highly selective for the BET family of bromodomains. Structure-Activity relationship data and ligand deconstruction highlight the importance of the substitution of the uracil moiety for potency and selectivity. Compound 3 was also cocrystallized with Brd4 for determining the ligand binding pose and rationalizing subsequent structure-Activity data. An additional series of dihydropyridopyrimidines was synthesized to exploit the proximity of a channel near the ZA loop of Brd4, leading to compounds with submicromolar affinity and cellular target engagement. Given these findings, novel and easily synthesized inhibitors are being introduced to the growing field of bromodomain inhibitor development.

Original language	English (US)
Pages (from-to)	4805-4817
Number of pages	13
Journal	Journal of medicinal chemistry
Volume	60
Issue number	12
DOIs	https://doi.org/10.1021/acs.jmedchem.6b01336
State	Published - Jun 22 2017

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Publisher Copyright:
© 2017 American Chemical Society.

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Ayoub, A. M., Hawk, L. M. L., Herzig, R. J., Jiang, J., Wisniewski, A. J., Gee, C. T., Zhao, P., Zhu, J. Y., Berndt, N., Offei-Addo, N. K., Scott, T. G., Qi, J., Bradner, J. E., Ward, T. R., Schönbrunn, E., Georg, G. I., & Pomerantz, W. C. K. (2017). BET Bromodomain Inhibitors with One-Step Synthesis Discovered from Virtual Screen. Journal of medicinal chemistry, 60(12), 4805-4817. https://doi.org/10.1021/acs.jmedchem.6b01336

Ayoub, AM, Hawk, LML, Herzig, RJ, Jiang, J, Wisniewski, AJ, Gee, CT, Zhao, P, Zhu, JY, Berndt, N, Offei-Addo, NK, Scott, TG, Qi, J, Bradner, JE, Ward, TR, Schönbrunn, E, Georg, GI & Pomerantz, WCK 2017, 'BET Bromodomain Inhibitors with One-Step Synthesis Discovered from Virtual Screen', Journal of medicinal chemistry, vol. 60, no. 12, pp. 4805-4817. https://doi.org/10.1021/acs.jmedchem.6b01336

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abstract = "Chemical inhibition of epigenetic regulatory proteins BrdT and Brd4 is emerging as a promising therapeutic strategy in contraception, cancer, and heart disease. We report an easily synthesized dihydropyridopyrimidine pan-BET inhibitor scaffold, which was uncovered via a virtual screen followed by testing in a fluorescence anisotropy assay. Dihydropyridopyimidine 3 was subjected to further characterization and is highly selective for the BET family of bromodomains. Structure-Activity relationship data and ligand deconstruction highlight the importance of the substitution of the uracil moiety for potency and selectivity. Compound 3 was also cocrystallized with Brd4 for determining the ligand binding pose and rationalizing subsequent structure-Activity data. An additional series of dihydropyridopyrimidines was synthesized to exploit the proximity of a channel near the ZA loop of Brd4, leading to compounds with submicromolar affinity and cellular target engagement. Given these findings, novel and easily synthesized inhibitors are being introduced to the growing field of bromodomain inhibitor development.",

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AU - Qi, Jun

AU - Bradner, James E.

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AU - Georg, Gunda I.

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BET Bromodomain Inhibitors with One-Step Synthesis Discovered from Virtual Screen

Abstract

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