B.A. Katz scite author profile

Modulation of the acetylation state of histones plays a pivotal role in the regulation of gene expression. Histone deacetylases (HDACs) catalyze the removal of acetyl groups from lysines near the N termini of histones. This reaction promotes the condensation of chromatin, leading to repression of transcription. HDAC deregulation has been linked to several types of cancer, suggesting a potential use for HDAC inhibitors in oncology. Here we describe the first crystal structures of a human HDAC: the structures of human HDAC8 complexed with four structurally diverse hydroxamate inhibitors. This work sheds light on the catalytic mechanism of the HDACs, and on differences in substrate specificity across the HDAC family. The structure also suggests how phosphorylation of Ser39 affects HDAC8 activity.

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Efficiency of signalling through cytokine receptors depends critically on receptor orientation

Syed

Reid

et al. 1998

Nature

535

421

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Human erythropoietin is a haematopoietic cytokine required for the differentiation and proliferation of precursor cells into red blood cells. It activates cells by binding and orientating two cell-surface erythropoietin receptors (EPORs) which trigger an intracellular phosphorylation cascade. The half-maximal response in a cellular proliferation assay is evoked at an erythropoietin concentration of 10 pM, 10(-2) of its Kd value for erythropoietin-EPOR binding site 1 (Kd approximately equal to nM), and 10(-5) of the Kd for erythropoietin-EPOR binding site 2 (Kd approximately equal to 1 microM). Overall half-maximal binding (IC50) of cell-surface receptors is produced with approximately 0.18 nM erythropoietin, indicating that only approximately 6% of the receptors would be bound in the presence of 10 pM erythropoietin. Other effective erythropoietin-mimetic ligands that dimerize receptors can evoke the same cellular responses but much less efficiently, requiring concentrations close to their Kd values (approximately 0.1 microM). The crystal structure of erythropoietin complexed to the extracellular ligand-binding domains of the erythropoietin receptor, determined at 1.9 A from two crystal forms, shows that erythropoietin imposes a unique 120 degrees angular relationship and orientation that is responsible for optimal signalling through intracellular kinase pathways.

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Design of potent selective zinc-mediated serine protease inhibitors

Katz

Clark

Finer-Moore

et al. 1998

Nature

164

158

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Many serine proteases are targets for therapeutic intervention because they often play key roles in disease. Small molecule inhibitors of serine proteases with high affinity are especially interesting as they could be used as scaffolds from which to develop drugs selective for protease targets. One such inhibitor is bis(5-amidino-2-benzimidazolyl)methane (BABIM), standing out as the best inhibitor of trypsin (by a factor of over 100) in a series of over 60 relatively closely related analogues. By probing the structural basis of inhibition, we discovered, using crystallographic methods, a new mode of high-affinity binding in which a Zn2+ ion is tetrahedrally coordinated between two chelating nitrogens of BABIM and two active site residues, His57 and Ser 195. Zn2+, at subphysiological levels, enhances inhibition by over 10(3)-fold. The distinct Zn2+ coordination geometry implies a strong dependence of affinity on substituents. This unique structural paradigm has enabled development of potent, highly selective, Zn2+-dependent inhibitors of several therapeutically important serine proteases, using a physiologically ubiquitous metal ion.

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Binding to Protein Targets of Peptidic Leads Discovered by Phage Display: Crystal Structures of Streptavidin-Bound Linear and Cyclic Peptide Ligands Containing the HPQ Sequence

Katz¹

1995

Biochemistry

112

138

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The streptavidin-bound crystal structures of two disulfide-bridge cyclic peptides (cyclo-Ac-[CHPQGPPC]-NH2 and cyclo-Ac-[CHPQFC]-NH2) and of a linear peptide (FSHPQNT) were determined, as well as the structure of apostreptavidin (streptavidin-sulfate). Both the linear and disulfide-bridged cyclic peptides studied share a common HPQ conformation and make common interactions with streptavidin, although significant differences in structures and interactions occur for flanking residues among the complexes. The conformation of the linear peptide in the crystal structure of streptavidin-FSHPQNT was found to differ from that in the same complex published [Weber, P. C., Pantoliano, M. W., & Thompson, L. D. (1992) Biochemistry 31, 9350-9354]. In the present investigation, the HPQNT portion of the ligand is well-defined with some density defining the Phe, whereas in the investigation of Weber et al. only the HPQ segment of the bound peptide could be interpreted. Both bound cyclic peptides adopt a beta-turn involving an H-bond between the His main chain carbonyl and the main chain amide NH of the i+3 residue. In the streptavidin-bound cyclo-Ac-[CHPQFC]-NH2 structure, there is an additional H-bond, indicative of alpha-helix, between the main chain His carbonyl and the main chain C-terminal Cys amide NH group. Binding interactions for both cyclic and linear peptides include direct H-bonds, H-bonds mediated by tightly bound water molecules, and hydrophobic interactions. The above structures and that of streptavidin-biotin in the literature are compared and discussed in the context of structure-based ligand design.

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B.A. Katz

Structural Snapshots of Human HDAC8 Provide Insights into the Class I Histone Deacetylases

Efficiency of signalling through cytokine receptors depends critically on receptor orientation

Design of potent selective zinc-mediated serine protease inhibitors

Binding to Protein Targets of Peptidic Leads Discovered by Phage Display: Crystal Structures of Streptavidin-Bound Linear and Cyclic Peptide Ligands Containing the HPQ Sequence

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