Anne V. Broadhurst scite author profile

A series of peptide derivatives based on the transition-state mimetic concept has been designed that inhibit the proteinase from the human immunodeficiency virus (HIV). The more active compounds inhibit both HIV-1 and HIV-2 proteinases in the nanomolar range with little effect at 10 micromolar against the structurally related human aspartic proteinases. Proteolytic cleavage of the HIV-1 gag polyprotein (p55) to the viral structural protein p24 was inhibited in chronically infected CEM cells. Antiviral activity was observed in the nanomolar range (with one compound active below 10 nanomolar) in three different cell systems, as assessed by p24 antigen and syncytium formation. Cytotoxicity was not detected at 10 and 5 micromolar in C8166 and JM cells, respectively, indicating a high therapeutic index for this new class of HIV proteinase inhibitors.

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Hydrolysis of synthetic chromogenic substrates by HIV-1 and HIV-2 proteinases

Phylip

Richards

Kay

et al. 1990

Biochemical and Biophysical Research Communications

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Assay of HIV-1 proteinase: A colorimetric method using small peptide substrates

Broadhurst

Roberts

Ritchie

et al. 1991

Analytical Biochemistry

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Design and Synthesis of a Quenched Fluorogenic Peptide Substrate for Human Cytomegalovirus Proteinase

Handa

Keech

Conway

et al. 1995

Antivir Chem Chemother

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A fluorogenic peptide substrate for HCMV proteinase was synthesized by solid-phase peptide synthesis. The amino acid sequence of this substrate is derived from the maturation cleavage site (M site) of the natural substrate, the assembly protein precursor. The minimum sequence for efficient cleavage requires at least seven residues (P4-P3′). A systematic modification of the peptide substrate was carried out to identify positions suitable for the introduction of the fluorescent donor and the quencher acceptor groups.

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Cyclohexane triones, novel membrane-active antibacterial agents

Lloyd

Broadhurst

Hall

et al. 1988

Antimicrob Agents Chemother

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The cyclohexane triones are a novel group of synthetic antibacterial agents that are active against gram-positive bacteria, Haemophilus influenzae, and Mycobacterium smegmatis. In general, these compounds behaved in a manner similar to that of hexachlorophene, inhibiting the transport of low-molecular-weight hydrophilic substances into bacteria. Unlike cationic detergents, such as chlorhexidine, they did not cause disruption of the bacterial cytoplasmic membrane over a short time period. The most potent antibacterial cyclohexane trione studied had a reduced ability to inhibit solute transport in comparison with certain less active analogs. Cyclohexane triones may express more than a single type of antibacterial effect.

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