Fragment-Based Stabilizers of Protein–Protein Interactions through Imine-Based Tethering

Madita Wolter; Dario Valenti; Peter J. Cossar; Laura M. Levy; Stanimira Hristeva; Thorsten Genski; Torsten Hoffmann; Luc Brunsveld; Dimitrios Tzalis; Christian Ottmann

doi:10.1002/anie.202008585

Fragment-Based Stabilizers of Protein–Protein Interactions through Imine-Based Tethering

Madita Wolter, Dario Valenti, Peter J. Cossar, Laura M. Levy, Stanimira Hristeva, Thorsten Genski, Torsten Hoffmann, Luc Brunsveld, Dimitrios Tzalis (Lead / Corresponding author), Christian Ottmann (Lead / Corresponding author)

Centre for Targeted Protein Degradation

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

51 Citations (Scopus)

18 Downloads (Pure)

Abstract

Small-molecule stabilization of protein–protein interactions (PPIs) is a promising concept in drug discovery, however the question how to identify or design chemical starting points in a “bottom-up” approach is largely unanswered. We report a novel concept for identifying initial chemical matter for PPI stabilization based on imine-forming fragments. The imine bond offers a covalent anchor for site-directed fragment targeting, whereas its transient nature enables efficient analysis of structure–activity relationships. This bond enables fragment identification and optimisation using protein crystallography. We report novel fragments that bind specifically to a lysine at the PPI interface of the p65-subunit-derived peptide of NF-κB with the adapter protein 14-3-3. Those fragments that subsequently establish contacts with the p65-derived peptide, rather than with 14-3-3, efficiently stabilize the 14-3-3/p65 complex and offer novel starting points for molecular glues.

Original language	English
Pages (from-to)	21520-21524
Number of pages	5
Journal	Angewandte Chemie - International Edition
Volume	59
Issue number	48
Early online date	20 Aug 2020
DOIs	https://doi.org/10.1002/anie.202008585
Publication status	Published - 23 Nov 2020

Keywords

14-3-3 proteins
cooperative effects
fragment-based drug discovery
imine chemistry
protein–protein interactions

ASJC Scopus subject areas

Catalysis
General Chemistry

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10.1002/anie.202008585Licence: CC BY-NC-ND

Final published versionFinal published version, 1.52 MBLicence: CC BY-NC-ND

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title = "Fragment-Based Stabilizers of Protein–Protein Interactions through Imine-Based Tethering",

abstract = "Small-molecule stabilization of protein–protein interactions (PPIs) is a promising concept in drug discovery, however the question how to identify or design chemical starting points in a “bottom-up” approach is largely unanswered. We report a novel concept for identifying initial chemical matter for PPI stabilization based on imine-forming fragments. The imine bond offers a covalent anchor for site-directed fragment targeting, whereas its transient nature enables efficient analysis of structure–activity relationships. This bond enables fragment identification and optimisation using protein crystallography. We report novel fragments that bind specifically to a lysine at the PPI interface of the p65-subunit-derived peptide of NF-κB with the adapter protein 14-3-3. Those fragments that subsequently establish contacts with the p65-derived peptide, rather than with 14-3-3, efficiently stabilize the 14-3-3/p65 complex and offer novel starting points for molecular glues.",

keywords = "14-3-3 proteins, cooperative effects, fragment-based drug discovery, imine chemistry, protein–protein interactions",

author = "Madita Wolter and Dario Valenti and Cossar, {Peter J.} and Levy, {Laura M.} and Stanimira Hristeva and Thorsten Genski and Torsten Hoffmann and Luc Brunsveld and Dimitrios Tzalis and Christian Ottmann",

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AU - Wolter, Madita

AU - Valenti, Dario

AU - Cossar, Peter J.

AU - Levy, Laura M.

AU - Hristeva, Stanimira

AU - Genski, Thorsten

AU - Hoffmann, Torsten

AU - Brunsveld, Luc

AU - Tzalis, Dimitrios

AU - Ottmann, Christian

PY - 2020/11/23

Y1 - 2020/11/23

N2 - Small-molecule stabilization of protein–protein interactions (PPIs) is a promising concept in drug discovery, however the question how to identify or design chemical starting points in a “bottom-up” approach is largely unanswered. We report a novel concept for identifying initial chemical matter for PPI stabilization based on imine-forming fragments. The imine bond offers a covalent anchor for site-directed fragment targeting, whereas its transient nature enables efficient analysis of structure–activity relationships. This bond enables fragment identification and optimisation using protein crystallography. We report novel fragments that bind specifically to a lysine at the PPI interface of the p65-subunit-derived peptide of NF-κB with the adapter protein 14-3-3. Those fragments that subsequently establish contacts with the p65-derived peptide, rather than with 14-3-3, efficiently stabilize the 14-3-3/p65 complex and offer novel starting points for molecular glues.

AB - Small-molecule stabilization of protein–protein interactions (PPIs) is a promising concept in drug discovery, however the question how to identify or design chemical starting points in a “bottom-up” approach is largely unanswered. We report a novel concept for identifying initial chemical matter for PPI stabilization based on imine-forming fragments. The imine bond offers a covalent anchor for site-directed fragment targeting, whereas its transient nature enables efficient analysis of structure–activity relationships. This bond enables fragment identification and optimisation using protein crystallography. We report novel fragments that bind specifically to a lysine at the PPI interface of the p65-subunit-derived peptide of NF-κB with the adapter protein 14-3-3. Those fragments that subsequently establish contacts with the p65-derived peptide, rather than with 14-3-3, efficiently stabilize the 14-3-3/p65 complex and offer novel starting points for molecular glues.

KW - 14-3-3 proteins

KW - cooperative effects

KW - fragment-based drug discovery

KW - imine chemistry

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Fragment-Based Stabilizers of Protein–Protein Interactions through Imine-Based Tethering

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Keywords

ASJC Scopus subject areas

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