New Insights into the Epigenetic Activities of Natural Compounds

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Vidakovic, Melita | Marinello, Jessica | Lahtela-Kakkonen, Maija | Matulis, Daumantas | Linkuvienė, Vaida | Y. Michel, Benoît | Navakauskienė, Ruta | S. Christodoulou, Michael | Passarella, Danielle | Klimasauskas, Saulius | Blanquart, Christophe | Cuendet, Muriel | Ovadi, Judit | Poulain, Stéphane | Fontaine-Vive, Fabien | Burger, Alain | Martinet, Nadine

Edité par CCSD ; LIDSEN Publishing Inc. -

International audience. Histone deacetylases (HDACs) are a family of enzymes found in bacteria, fungi, plants, and animals that profoundly affect cellular function by catalyzing the removal of acetyl groups from -N-acetylated lysine residues of various protein substrates including histones, transcription factors, alpha-tubulin, and nuclear importers. Although the precise roles of HDAC isoforms in cellular function are not yet completely understood, inhibition of HDAC activity has emerged as a promising approach for reversing the aberrant epigenetic states associated with cancer and other chronic diseases. Potent new isoform-selective HDAC inhibitors would therefore help expand our understanding of the HDAC enzymes and represent attractive lead compounds for drug design, especially if combined with high-resolution structural analyses of such inhibitors to shed light on the three-dimensional pharmacophoric features necessary for the future design of more potent and selective compounds. Here we present structural and functional analyses of a series of beta-amino-acid-containing HDAC inhibitors inspired by cyclic tetrapeptide natural products. To survey a diverse ensemble of pharmacophoric configurations, we systematically varied the position of the beta-amino acid, amino acid chirality, functionalization of the Zn(2+)-coordinating amino acid side chain, and alkylation of the backbone amide nitrogen atoms around the macrocycle. In many cases, the compounds were a single conformation in solution and exhibited potent activities against a number of HDAC isoforms as well as effective antiproliferative and cytotoxic activities against human tumor cells. High-resolution NMR solution structures were determined for a selection of the inhibitors, providing a useful means of correlating detailed structural information with potency. The structure-based approach described here is expected to furnish valuable insights toward the future design of more selective HDAC inhibitors.

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