J.C. Telford scite author profile

J.C. Telford

5Publications

71Citation Statements Received

183Citation Statements Given

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University of St Andrews

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The Aspergillus fumigatus Sialidase Is a 3-Deoxy-d-glycero-d-galacto-2-nonulosonic Acid Hydrolase (KDNase)

Telford

Yeung²,

et al. 2011

Journal of Biological Chemistry

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Aspergillus fumigatus is a filamentous fungus that can cause severe respiratory disease in immunocompromised individuals. A putative sialidase from A. fumigatus was recently cloned and shown to be relatively poor in cleaving N-acetylneuraminic acid (Neu5Ac) in comparison with bacterial sialidases. Here we present the first crystal structure of a fungal sialidase. When the apo structure was compared with bacterial sialidase structures, the active site of the Aspergillus enzyme suggested that Neu5Ac would be a poor substrate because of a smaller pocket that normally accommodates the acetamido group of Neu5Ac in sialidases. A sialic acid with a hydroxyl in place of an acetamido group is 2-keto-3-deoxynononic acid (KDN). We show that KDN is the preferred substrate for the A. fumigatus sialidase and that A. fumigatus can utilize KDN as a sole carbon source. A 1.45-Å resolution crystal structure of the enzyme in complex with KDN reveals KDN in the active site in a boat conformation and nearby a second binding site occupied by KDN in a chair conformation, suggesting that polyKDN may be a natural substrate. The enzyme is not inhibited by the sialidase transition state analog 2-deoxy-2,3-dehydro-N-acetylneuraminic acid (Neu5Ac2en) but is inhibited by the related 2,3-didehydro-2,3-dideoxy-D-glycero-D-galacto-nonulosonic acid that we show bound to the enzyme in a 1.84-Å resolution crystal structure. Using a fluorinated KDN substrate, we present a 1.5-Å resolution structure of a covalently bound catalytic intermediate. The A. fumigatus sialidase is therefore a KDNase with a similar catalytic mechanism to Neu5Ac exosialidases, and this study represents the first structure of a KDNase.

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Synthesis and Structural Characterisation of Selective Non‐Carbohydrate‐Based Inhibitors of Bacterial Sialidases

et al. 2012

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The major human pathogen Streptococcus pneumoniae plays a key role in several disease states including septicaemia, meningitis and community-acquired pneumonia. Although vaccines against S. pneumoniae are available as prophylactics, there remains a need to identify and characterise novel chemical entities that can treat the diseases caused by this pathogen. S. pneumoniae expresses three sialidases, enzymes that cleave sialic acid from carbohydrate-based surface molecules. Two of these enzymes, NanA and NanB, have been implicated in the pathogenesis of S. pneumoniae and are considered to be validated drug targets. Here we report our studies on the synthesis and structural characterisation of novel NanB-selective inhibitors that are inspired by the β-amino-sulfonic acid family of buffers.

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Kinetic and Structural Evaluation of Selected Active Site Mutants of the Aspergillus fumigatus KDNase (Sialidase)

Yeung¹,

Telford

Shidmoossavee³

et al. 2013

Biochemistry

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Aspergillus fumigatus is an airborne fungal pathogen. We previously cloned and characterized an exo-sialidase from A. fumigatus and showed that it preferred 2-keto-3-deoxynononic acid (KDN) as a substrate to N-acetylneuraminic acid (Neu5Ac). The purpose of this study was to investigate the structure-function relationships of critical catalytic site residues. Site-directed mutagenesis was used to create three mutant recombinant enzymes: the catalytic nucleophile (Y358H), the general acid/base catalyst (D84A), and an enlargement of the binding pocket to attempt to accommodate the N-acetyl group of Neu5Ac (R171L). Crystal structures for all enzymes were determined. The D84A mutation had an effect in decreasing the activity of AfKDNase that was stronger than that of the same mutation in the structurally similar sialidase from the bacterium Micromonospora viridifaciens. These data suggest that the catalytic acid is more important in the reaction of AfKDNase and that catalysis is less dependent on nucleophilic or electrostatic stabilization of the developing positive charge at the transition state for hydrolysis. Removal of the catalytic nucleophile (Y358H) significantly lowered the activity of the enzyme, but this mutant remained a retaining glycosidase as demonstrated by nuclear magnetic resonance spectroscopic analysis. This is a novel finding that has not been shown with other sialidases. Kinetic activity measured at pH 5.2 revealed that R171L had higher activity on a Neu5Ac-based substrate than wild-type KDNase; hence, leucine in place of arginine in the binding pocket improved catalysis toward Neu5Ac substrates. Hence, whether a sialidase is primarily a KDNase or a neuraminidase is due in part to the presence of an amino acid that creates a steric clash with the N-acetyl group.

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The Aspergillus Fumigatus Sialidase Is a Kdnase: Structural and Mechanistic Insights

Telford¹,

Yeung²,

Kiefel³

et al. 2011

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Structural evaluation the Y358H mutant of the aspergillus fumigatus kdnase (sialidase)

Telford¹,

Taylor²

2014

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J.C. Telford

The Aspergillus fumigatus Sialidase Is a 3-Deoxy-d-glycero-d-galacto-2-nonulosonic Acid Hydrolase (KDNase)

Synthesis and Structural Characterisation of Selective Non‐Carbohydrate‐Based Inhibitors of Bacterial Sialidases

Kinetic and Structural Evaluation of Selected Active Site Mutants of the Aspergillus fumigatus KDNase (Sialidase)

The Aspergillus Fumigatus Sialidase Is a Kdnase: Structural and Mechanistic Insights

Structural evaluation the Y358H mutant of the aspergillus fumigatus kdnase (sialidase)

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