Abstract
Neisseria meningitidis serogroup C is a major cause of bacterial meningitis and septicaemia. This human pathogen is protected by a capsule composed of alpha2,9-linked polysialic acid that represents an important virulence factor. In the majority of strains, the capsular polysaccharide is modified by O-acetylation at C-7 or C-8 of the sialic acid residues. The gene encoding the capsule modifying O-acetyltransferase is part of the capsule gene complex and shares no sequence similarities with other proteins. Here, we describe the purification and biochemical characterization of recombinant OatC. The enzyme was found as a homodimer, with the first 34 amino acids forming an efficient oligomerization domain that worked even in a different protein context. Using acetyl-CoA as donor substrate, OatC transferred acetyl groups exclusively onto polysialic acid joined by alpha2,9-linkages and did not act on free or CMP-activated sialic acid. Motif scanning revealed a nucleophile elbow motif (GXS286XGG), which is a hallmark of alpha/beta-hydrolase fold enzymes. In a comprehensive site-directed mutagenesis study, we identified a catalytic triad composed of Ser-286, Asp-376, and His-399. Consistent with a double-displacement mechanism common to alpha/beta-hydrolase fold enzymes, a covalent acetylenzyme intermediate was found. Together with secondary structure prediction highlighting an alpha/beta-hydrolase fold topology, our data provide strong evidence that OatC belongs to the alpha/beta-hydrolase fold family. This clearly distinguishes OatC from all other bacterial sialate O-acetyltransferases known so far because these are members of the hexapeptide repeat family, a class of acyltransferases that adopt a left-handed beta-helix fold and assemble into catalytic trimers.
Highlights
Mortality of 10% and high morbidity among survivors [3]
In 2004, we reported the cloning of the genes encoding the capsule-specific O-acetyltransferases of serogroup C and serogroups W-135 and Y, which was at that time the first identification of genes that encode sialic acid-specific O-acetyltransferases [22]
The activity obtained for NmC-capsular polysaccharide (CPS) and acetyl-CoA was set to 100%
Summary
Biochemical Characterization of OatC nicity was found for O-acetylation of NmW-CPS [20, 21]. Whereas no homology to any known protein in the data bases was found for OatC, analysis of the primary sequence of OatWY revealed the presence of imperfect tandem repeats of the consensus sequence (LIV)(GAED)X2(STAV)X, the hallmark of enzymes belonging to the hexapeptide repeat family of acyltransferases Members of this family adopt a unique left-handed -helix fold, and three identical subunits assemble into a catalytic trimer [23, 24]. Since 2004, several genes encoding sialate O-acetyltransferases have been identified in bacteria that contain sialic acid as a component of their CPS or lipo-oligosaccharide, such as Escherichia coli K1, Campylobacter jejuni, and type III group B streptococci [25,26,27,28] All these enzymes belong to the hexapeptide repeat family, suggesting that the specificity for sialic acid evolved exclusively within this protein family. This result demonstrates that OatC evolved apart from all other bacterial sialate O-acetyltransferases known so far
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