Eleanor Leung scite author profile

Background: Purple acid phosphatases belong to the family of binuclear metallohydrolases and are involved in a multitude of biological functions, ranging from bacterial killing and bone metabolism in animals to phosphate uptake in plants. Due to its role in bone resorption purple acid phosphatase has evolved into a promising target for the development of anti-osteoporotic chemotherapeutics. The design of specific and potent inhibitors for this enzyme is aided by detailed knowledge of its reaction mechanism. However, despite considerable effort in the last 10 years various aspects of the basic molecular mechanism of action are still not fully understood.

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Human tartrate-resistant acid phosphatase becomes an effective ATPase upon proteolytic activation

Mitić

Valizadeh

Leung

et al. 2005

Archives of Biochemistry and Biophysics

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Promiscuous 2-Aminothiazoles (PrATs): A Frequent Hitting Scaffold

et al. 2015

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We have identified a class of molecules, known as 2-aminothiazoles (2-ATs), as frequent-hitting fragments in biophysical binding assays. This was exemplified by 4-phenylthiazol-2-amine being identified as a hit in 14/14 screens against a diverse range of protein targets, suggesting that this scaffold is a poor starting point for fragment-based drug discovery. This prompted us to analyze this scaffold in the context of an academic fragment library used for fragment-based drug discovery (FBDD) and two larger compound libraries used for high-throughput screening (HTS). This analysis revealed that such "promiscuous 2-aminothiazoles" (PrATs) behaved as frequent hitters under both FBDD and HTS settings, although the problem was more pronounced in the fragment-based studies. As 2-ATs are present in known drugs, they cannot necessarily be deemed undesirable, but the combination of their promiscuity and difficulties associated with optimizing them into a lead compound makes them, in our opinion, poor scaffolds for fragment libraries.

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Applications of 19F-NMR in Fragment-Based Drug Discovery

et al. 2016

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19 F-NMR has proved to be a valuable tool in fragment-based drug discovery. Its applications include screening libraries of fluorinated fragments, assessing competition among elaborated fragments and identifying the binding poses of promising hits. By observing fluorine in both the ligand and the target protein, useful information can be obtained on not only the binding pose but also the dynamics of ligand-protein interactions. These applications of 19 F-NMR will be illustrated in this review with studies from our fragment-based drug discovery campaigns against protein targets in parasitic and infectious diseases.

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Conformational Changes in a Plant Ketol-Acid Reductoisomerase upon Mg2+ and NADPH Binding as Revealed by Two Crystal Structures

Leung

Guddat

2009

Journal of Molecular Biology

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The identification of new metallo-β-lactamase inhibitor leads from fragment-based screening

Vella

Hussein

Leung

et al. 2011

Bioorganic & Medicinal Chemistry Letters

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Identification and characterization of an unusual metallo-β-lactamase from Serratia proteamaculans

et al. 2013

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Metallo-β-lactamases (MBLs) are a family of metalloenzymes that are capable of hydrolyzing β-lactam antibiotics and are an important means by which bacterial pathogens use to inactivate antibiotics. A database search of the available amino acid sequences from Serratia proteamaculans indicates the presence of an unusual MBL. A full length amino acid sequence alignment indicates overall homology to B3-type MBLs, but also suggests considerable variations in the active site, notably among residues that are relevant to metal ion binding. Steady-state kinetic measurements further indicate functional differences and identify two relevant pK a values for catalysis (3.8 for the enzyme-substrate complex and 7.8 for the free enzyme) and a preference for penams with modest reactivity towards some cephalosporins. An analysis of the metal ion content indicates the presence of only one zinc ion per active site in the resting enzyme. In contrast, kinetic data suggest that the enzyme may operate as a binuclear enzyme, and it is thus proposed that a catalytically active di-Zn(2+) center is formed only once the substrate is present.

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A Potent Cyclic Peptide Targeting SPSB2 Protein as a Potential Anti-infective Agent

et al. 2014

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The protein SPSB2 mediates proteosomal degradation of inducible nitric oxide synthase (iNOS). Inhibitors of SPSB2-iNOS interaction may prolong the lifetime of iNOS and thereby enhance the killing of persistent pathogens. We have designed a cyclic peptide, Ac-c[CVDINNNC]-NH2, containing the key sequence motif mediating the SPSB2-iNOS interaction, which binds to the iNOS binding site on SPSB2 with a Kd of 4.4 nM, as shown by SPR, [(1)H,(15)N]-HSQC, and (19)F NMR. An in vitro assay on macrophage cell lysates showed complete inhibition of SPSB2-iNOS interactions by the cyclic peptide. Furthermore, its solution structure closely matched (backbone rmsd 1.21 Å) that of the SPSB2-bound linear DINNN peptide. The designed peptide was resistant to degradation by the proteases pepsin, trypsin, and chymotrypsin and stable in human plasma. This cyclic peptide exemplifies potentially a new class of anti-infective agents that acts on the host innate response, thereby avoiding the development of pathogen resistance.

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Eleanor Leung

Crystal structures of a purple acid phosphatase, representing different steps of this enzyme's catalytic cycle

Human tartrate-resistant acid phosphatase becomes an effective ATPase upon proteolytic activation

Promiscuous 2-Aminothiazoles (PrATs): A Frequent Hitting Scaffold

Applications of 19F-NMR in Fragment-Based Drug Discovery

Conformational Changes in a Plant Ketol-Acid Reductoisomerase upon Mg2+ and NADPH Binding as Revealed by Two Crystal Structures

The identification of new metallo-β-lactamase inhibitor leads from fragment-based screening

Identification and characterization of an unusual metallo-β-lactamase from Serratia proteamaculans

A Potent Cyclic Peptide Targeting SPSB2 Protein as a Potential Anti-infective Agent

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