Tethering small molecules to a phage display library: Discovery of a selective bivalent inhibitor of protein kinase A

Scott C. Meyer; Carolyn D. Shomin; Thomas Gaj; Indraneel Ghosh

doi:10.1021/ja076197d

Tethering small molecules to a phage display library: Discovery of a selective bivalent inhibitor of protein kinase A

Scott C. Meyer, Carolyn D. Shomin, Thomas Gaj, Indraneel Ghosh

Research output: Contribution to journal › Article › peer-review

60 Scopus citations

Abstract

We report a noncovalent tethering methodology for the fragment-based selection of bivalent ligands targeting protein kinases. In this approach, a small-molecule warhead, staurosporine, directs a phage display cyclic peptide library to the active site of cAMP-dependent protein kinase (PKA), allowing for targeted library enrichment. A cyclic peptide discovered through this selection, when covalently attached to a staurosporine derivative, displayed a 90-fold increase in affinity for PKA. Moreover, the bivalent inhibitor was shown to be significantly more selective than the starting warhead when tested against a small panel of kinases. Thus our general methodology allows for covalent linkage of known small-molecule ligands to biological libraries for discovering potent bivalent inhibitors of biological targets.

Original language	English (US)
Pages (from-to)	13812-13813
Number of pages	2
Journal	Journal of the American Chemical Society
Volume	129
Issue number	45
DOIs	https://doi.org/10.1021/ja076197d
State	Published - Nov 14 2007

ASJC Scopus subject areas

Catalysis
General Chemistry
Biochemistry
Colloid and Surface Chemistry

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abstract = "We report a noncovalent tethering methodology for the fragment-based selection of bivalent ligands targeting protein kinases. In this approach, a small-molecule warhead, staurosporine, directs a phage display cyclic peptide library to the active site of cAMP-dependent protein kinase (PKA), allowing for targeted library enrichment. A cyclic peptide discovered through this selection, when covalently attached to a staurosporine derivative, displayed a 90-fold increase in affinity for PKA. Moreover, the bivalent inhibitor was shown to be significantly more selective than the starting warhead when tested against a small panel of kinases. Thus our general methodology allows for covalent linkage of known small-molecule ligands to biological libraries for discovering potent bivalent inhibitors of biological targets.",

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AU - Shomin, Carolyn D.

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AU - Ghosh, Indraneel

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AB - We report a noncovalent tethering methodology for the fragment-based selection of bivalent ligands targeting protein kinases. In this approach, a small-molecule warhead, staurosporine, directs a phage display cyclic peptide library to the active site of cAMP-dependent protein kinase (PKA), allowing for targeted library enrichment. A cyclic peptide discovered through this selection, when covalently attached to a staurosporine derivative, displayed a 90-fold increase in affinity for PKA. Moreover, the bivalent inhibitor was shown to be significantly more selective than the starting warhead when tested against a small panel of kinases. Thus our general methodology allows for covalent linkage of known small-molecule ligands to biological libraries for discovering potent bivalent inhibitors of biological targets.

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Tethering small molecules to a phage display library: Discovery of a selective bivalent inhibitor of protein kinase A

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