ChemBioChem
ChemBioChem
5 years ago

Structure-Based Design of a New Scaffold for Cell-Penetrating Peptidic Inhibitors of the Histone Demethylase PHF8

Structure-Based Design of a New Scaffold for Cell-Penetrating Peptidic Inhibitors of the Histone Demethylase PHF8
Signe Teuber Seger, Jerzy Dorosz, Cornelia Steinhauer, Michael Gajhede, Giorgos Bouras, Lars Olsen, Anders Wiuf, Charlotte Helgstrand
The histone demethylase PHF8 catalyzes demethylation of mono- and di-methylated Lys9 on histone H3 (H3K9me1/2), and is a transcriptional activator involved in the development and cancer. Affinity and specificity of PHF8 towards H3K9me2 is affected by interaction with both the catalytic domain and a PHD reader domain. The latter specifically recognizes tri-methylated Ly4 on histone H3. A fragment of the histone H3 tail with tri-methylated Lys4 was used as a template for the structure-based design of a cyclic, cell-penetrating peptide that exhibits micromolar binding affinity to PHF8 in biochemical assays. The inhibitor has significantly lower affinity towards KDM2 enzymes (the phylogenetically closest subfamily), and to KDM3 and KDM6 subfamilies. Selectivity is only marginal towards an enzyme from the KDM4 family, which shares histone tail specificity with PHF8. It is a substrate of KDM5B, thus implying that the free N terminus is not part of the KDM5 enzyme substrate recognition machinery. The cyclic peptide's ability to penetrate cells is achieved by incorporation of a sequence derived from HIV Tat. The derived cyclic peptide can be used as a starting compound in the search for potent and selective PHF8 inhibitors. A fragment of the histone H3 tail with tri-methylated Lys4 was used as a template for the structure-based design of a cyclic, cell-penetrating peptide that exhibits micromolar binding affinity to the histone demethylase PHF8 in biochemical assays. The cyclic peptide can serve as a starting compound in the search for new more potent and selective PHF8 inhibitors.

Publisher URL: http://onlinelibrary.wiley.com/resolve/doi

DOI: 10.1002/cbic.201700109

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