Abstact

Histone deacetylase 6 (HDAC6) is a cytoplasmic enzyme that deacetylates non-histone substrates such as alpha-tubulin and cortactin. HDAC6 contains two catalytic domains, each containing a catalytic zinc ion, and a zinc-finger ubiquitin-binding domain. We have discovered BAS-2, a selective HDAC6 inhibitor with an isothiouronium core and no obvious zinc-binding group. To define its mechanism, we combine X-ray crystallography, structure-activity-relationships, molecular modeling and mutagenesis. BAS-2 potently inhibits human HDAC6 but it does not inhibit zebrafish HDAC6. Computational modeling highlighted Asp567 in human HDAC6 as critical for BAS-2 recognition and mutational analyses confirmed this. The corresponding zebrafish residue is Asn530 and the crystal structure of the N530D variant zHDAC6 revealed binding of a BAS-2-derived mercaptoacetamide that engages the catalytic zinc via strong thiolate-zinc coordination. Leveraging the orientation of BAS-2 binding, we designed a BAS-2-based proteolysis targeting chimera that induced proteasome-dependent HDAC6 degradation in cells, verified by global proteomics. Collectively, these insights clarify species selectivity and demonstrate that BAS-2 acts as a selective, mechanism-based inhibitor of human HDAC6. These discoveries will aid the development of the next generation of selective HDAC6 inhibitors and degraders.