Role of Fluorination in the Histone Deacetylase 6 (HDAC6) Selectivity of Benzohydroxamate-Based Inhibitors

Giovanni Sandrone; Cyprian D Cukier; Karol Zrubek; Mattia Marchini; Barbara Vergani; Gianluca Caprini; Gianluca Fossati; Christian Steinkühler; Andrea Stevenazzi

doi:10.1021/acsmedchemlett.1c00425

Role of Fluorination in the Histone Deacetylase 6 (HDAC6) Selectivity of Benzohydroxamate-Based Inhibitors

ACS Med Chem Lett. 2021 Oct 11;12(11):1810-1817. doi: 10.1021/acsmedchemlett.1c00425. eCollection 2021 Nov 11.

Authors

Giovanni Sandrone¹, Cyprian D Cukier², Karol Zrubek², Mattia Marchini¹, Barbara Vergani¹, Gianluca Caprini¹, Gianluca Fossati¹, Christian Steinkühler¹, Andrea Stevenazzi¹

Affiliations

¹ Research & Development, Italfarmaco Group, Via dei Lavoratori 54, Cinisello Balsamo, Milan I-20092, Italy.
² Department of Biochemistry, Selvita S.A., ul. Bobrzyńskiego 14, Kraków30-348, Poland.

Abstract

Nonselective histone deacetylase (HDAC) inhibitors show dose-limiting side effects due to the inhibition of multiple, essential HDAC subtypes that can be limited or prevented by restricting their selectivity. We herein report the crystal structures of zebrafish HDAC6 catalytic domain 2 (zHDAC6-CD2) in complex with the selective HDAC6 inhibitors ITF3756 and ITF3985 and shed light on the role of fluorination in the selectivity of benzohydroxamate-based structures over class I isoforms. The reason for the enhancement in the selectivity of the benzohydroxamate-based compounds is the presence of specific interactions between the fluorinated linker and the key residues Gly582, Ser531, and His614 of zHDAC6, which are hindered in class I HDAC isoforms by the presence of an Aspartate that replaces Ser531. These results can be used in the design and development of novel, highly selective HDAC6 inhibitors.