Human histone deacetylase 4 (HDAC4) belongs to class IIa of the zinc-dependent histone deacetylases. HDAC4 is an established target for various indication areas, in particular Huntington’s disease, heart failure and cancer. To reduce unwanted side effects, it is advantageous to develop isozyme-selective inhibitors, which poses a major challenge due to the highly conserved active centers of the HDAC family.According to current knowledge it is assumed that H976 in HDAC4wt occurs exclusively in the out-conformation and thus the selective foot pocket is constitutively open. In contrast, the side chain of the corresponding tyrosine in HDAC4H976Y adopts the in-conformation, and is thus able to stabilize the intermediate state of the deacetylation reaction and block access to the foot pocket.In this study, we provide evidence that a dynamic equilibrium exists between the in- and out-conformation in HDAC4wt. The binding of selective HDAC4 inhibitors that address the foot pocket can be enhanced in HDAC4 variants with mainly small, but also medium hydrophobic or polar side chains. We attribute this to the fact that these side chains are preferentially present in the out-conformation.Therefore, we propose HDAC4H976A and other HDAC4 variants as promising tools to find and enrich HDAC4-selective foot pocket binders in screening campaigns that might have been overlooked in conventional screens with HDAC4wt.
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