Issue 12, 2022

Revisiting a challenging p53 binding site: a diversity-optimized HEFLib reveals diverse binding modes in T-p53C-Y220C

Abstract

The cellular tumor antigen p53 is a key component in cell cycle control. The mutation Y220C heavily destabilizes the protein thermally but yields a druggable crevice. We have screened the diversity-optimized halogen-enriched fragment library against T-p53C-Y220C with STD-NMR and DSF to identify hits, which we validated by 1H,15N-HSQC NMR. We could identify four hits binding in the Y220C cleft, one hit binding covalently and four hits binding to an uncharacterized binding site. Compound 1151 could be crystallized showing a flip of C220 and thus opening subsite 3. Additionally, 4482 was identified to alkylate cysteines. Data shows that the diversity-optimized HEFLib leads to multiple diverse hits. The identified scaffolds can be used to further optimize interactions with T-p53C-Y220C and increase thermal stability.

Graphical abstract: Revisiting a challenging p53 binding site: a diversity-optimized HEFLib reveals diverse binding modes in T-p53C-Y220C

Article information

Article type
Research Article
Submitted
24 Jul 2022
Accepted
05 Sep 2022
First published
20 Oct 2022

RSC Med. Chem., 2022,13, 1575-1586

Revisiting a challenging p53 binding site: a diversity-optimized HEFLib reveals diverse binding modes in T-p53C-Y220C

J. Stahlecker, T. Klett, M. Schwer, S. Jaag, M. Dammann, L. N. Ernst, M. B. Braun, M. O. Zimmermann, M. Kramer, M. Lämmerhofer, T. Stehle, M. Coles and F. M. Boeckler, RSC Med. Chem., 2022, 13, 1575 DOI: 10.1039/D2MD00246A

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