Cristina I. De Matteis scite author profile

A role for the flavoprotein NRH:quinone oxidoreductase 2 (NQO2, QR2) in human diseases such as malaria, leukemia and neurodegeneration has been proposed. In order to explore the potential of NQO2 as a therapeutic target, we have developed potent and selective mechanism-based inhibitors centered on the indolequinone pharmacophore. The compounds show remarkable selectivity for NQO2 over the closely related flavoprotein NQO1 with small structural changes defining selectivity. Biochemical studies confirmed mechanism-based inhibition while X-ray crystallography and mass spectrometry revealed the nature of the inhibitor interaction with the protein. These indolequinones represent the first mechanism-based inhibitors of NQO2, and their novel mode of action involving alkylation of the flavin cofactor, provides significant advantages over existing competitive inhibitors in terms of potency and irreversibility, and will open new opportunities to define the role of NQO2 in disease.

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Effect of glycosylation of a synthetic MUC1 mucin-core-related peptide on recognition by anti-mucin antibodies

Spencer¹,

Price²,

Tendler³

et al. 1996

Cancer Letters

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New InhA Inhibitors Based on Expanded Triclosan and Di-Triclosan Analogues to Develop a New Treatment for Tuberculosis

et al. 2021

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The emergence of multidrug-resistant (MDR) and extensively drug-resistant (XDR) tuberculosis (TB) has reinforced the need for the development of new anti-TB drugs. The first line drug isoniazid inhibits InhA. This is a prodrug requiring activation by the enzyme KatG. Mutations in KatG have largely contributed to clinical isoniazid resistance. We aimed to design new ‘direct’ InhA inhibitors that obviate the need for activation by KatG, circumventing pre-existing resistance. In silico molecular modelling was used as part of a rational structure-based drug-design approach involving inspection of protein crystal structures of InhA:inhibitor complexes, including the broad spectrum antibiotic triclosan (TCS). One crystal structure exhibited the unusual presence of two triclosan molecules within the Mycobacterium tuberculosis InhA binding site. This became the basis of a strategy for the synthesis of novel inhibitors. A series of new, flexible ligands were designed and synthesised, expanding on the triclosan structure. Low Minimum Inhibitory Concentrations (MICs) were obtained for benzylphenyl compounds (12, 43 and 44) and di-triclosan derivative (39), against Mycobacterium bovis BCG although these may also be inhibiting other enzymes. The ether linked di-triclosan derivative (38) displayed excellent in vitro isolated enzyme inhibition results comparable with triclosan, but at a higher MIC (125 µg mL−1). These compounds offer good opportunities as leads for further optimisation.

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Chromatographic retention behaviour of monosubstituted benzene derivatives on porous graphitic carbon and octadecyl-bonded silica studied using molecular modelling and quantitative structure–retention relationships

Matteis

Simpson

Euerby

et al. 2012

Journal of Chromatography A

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Using Chiral Ligand Substituents To Promote the Formation of Dinuclear, Double‐Stranded Iron, Manganese, and Zinc Mesocates

et al. 2007

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The synthesis and structures of dinuclear manganese, iron, and zinc complexes of chiral di-iminodipyrromethane ligands (L) are reported. Schiff base condensation reactions between 5,5Ј-diformyl-2,2Ј-dipyrromethane and the chiral amines (-)-(R)-CH(Me)tBu and (+)-(R)-CH(Me)Ph result in the straightforward synthesis of the new, chiral ligands H 2 L 2 and H 2 L 3 , respectively. Salt elimination reactions between K 2 L and divalent Mn and Fe halides, and protonolysis reactions be-

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