Histone Deacetylase 8: Characterization of Physiological Divalent Metal Catalysis

Abstract: Histone deacetylases (HDACs) are responsible for the removal of acetyl groups from histones, resulting in gene silencing. Overexpression of HDACs is associated with cancer, and their inhibitors are of particular interest as chemotherapeutics. However, HDACs remain a target of mechanistic debate. HDAC class 8 is the most studied HDAC, and of particular importance due to its human oncological relevance. HDAC8 has traditionally been considered to be a Zn-dependent enzyme. However, recent experimental assays have … Show more

“…S1 in ESI † ). 16 Details on QM/DMD can be found elsewhere. 17 The largest active site models were determined by including any residue with at least one atom within 7 Å of the Zn 2+ ion.…”

“…1 to be the most viable. 16 Through this mechanism, H143 acts first as a base, abstracting a proton from the water molecule, and second as an acid, transferring the proton to the substrate.…”

“…Furthermore, the amount of charge density at the bond critical point (CP), a saddle point in ρ , between the zinc ion and a nitrogen atom in H180 (NHis) was found to be linearly correlated to metal binding affinity for HDAC8. 16 In this study, we thus focus on the charge density around these five atoms, which are highlighted in Fig. 2 .…”

Quantified electrostatic preorganization in enzymes using the geometry of the electron charge density

“…S1 in ESI † ). 16 Details on QM/DMD can be found elsewhere. 17 The largest active site models were determined by including any residue with at least one atom within 7 Å of the Zn 2+ ion.…”

“…1 to be the most viable. 16 Through this mechanism, H143 acts first as a base, abstracting a proton from the water molecule, and second as an acid, transferring the proton to the substrate.…”

“…Furthermore, the amount of charge density at the bond critical point (CP), a saddle point in ρ , between the zinc ion and a nitrogen atom in H180 (NHis) was found to be linearly correlated to metal binding affinity for HDAC8. 16 In this study, we thus focus on the charge density around these five atoms, which are highlighted in Fig. 2 .…”

Quantified electrostatic preorganization in enzymes using the geometry of the electron charge density

“…Dr(r) in the reactant states of related enzymes, for example designed computationally to catalyze the same reaction, serves as a probe of relative catalytic activity prior to the mechanistic study, as is shown here, and also was shown in a recent study of the metal-specificity in histone deacetylase. 96 This method is motivated by the Hammond postulate, which states that reaction barriers will be lower when the reactant state is ''similar'' to the transition state. The extensions to QTAIM used here provide a method for quantifying the similarity of reactant and transition states, through the amount of charge density at critical points that play an important role in the reaction coordinate. )…”

Predictive methods for computational metalloenzyme redesign – a test case with carboxypeptidase A

“…Molecular modeling in combination with electron-density analysis is already used for organic reaction studies. Equilibrium geometry congurations and corresponding calculated electron densities of reagents, intermediates, transition states and products of chemical reactions are analyzed by various approaches as QTAIM (Quantum Theory of Atoms in Molecules) [29][30][31][32][33][34][35][36][37][38][39][40][41] or conceptual DFT (Density Functional Theory) 23,36,[42][43][44] as well as diverse bonding descriptors. [33][34][35][36][37]45,46 Current studies of enzymatic reactions [47][48][49] also demonstrate an enhanced interest in the application of such combined methods in biochemistry.…”

Revealing electronic features governing hydrolysis of cephalosporins in the active site of the L1 metallo-β-lactamase