Abstract

Bordetella pertussis and Bordetella bronchiseptica are the causative agents of whooping cough in humans and a variety of respiratory diseases in animals, respectively. Bordetella species produce an exopolysaccharide, known as the Bordetella polysaccharide (Bps), which is encoded by the bpsABCD operon. Bps is required for Bordetella biofilm formation, colonization of the respiratory tract, and confers protection from complement-mediated killing. In this report, we have investigated the role of BpsB in the biosynthesis of Bps and biofilm formation by B. bronchiseptica. BpsB is a two-domain protein that localizes to the periplasm and outer membrane. BpsB displays metal- and length-dependent deacetylation on poly-β-1,6-N-acetyl-d-glucosamine (PNAG) oligomers, supporting previous immunogenic data that suggests Bps is a PNAG polymer. BpsB can use a variety of divalent metal cations for deacetylase activity and showed highest activity in the presence of Ni(2+) and Co(2+). The structure of the BpsB deacetylase domain is similar to the PNAG deacetylases PgaB and IcaB and contains the same circularly permuted family four carbohydrate esterase motifs. Unlike PgaB from Escherichia coli, BpsB is not required for polymer export and has unique structural differences that allow the N-terminal deacetylase domain to be active when purified in isolation from the C-terminal domain. Our enzymatic characterizations highlight the importance of conserved active site residues in PNAG deacetylation and demonstrate that the C-terminal domain is required for maximal deacetylation of longer PNAG oligomers. Furthermore, we show that BpsB is critical for the formation and complex architecture of B. bronchiseptica biofilms.

Highlights

  • The Bordetella polysaccharide (Bps) is involved in Bordetella biofilm formation

  • Domain Analysis and Subcellular Localization of BpsB— Full-length BpsB from B. bronchiseptica is homologous to E. coli PgaB, and its N-terminal domain is homologous to S. epidermidis IcaB with sequence identities determined using ClustalW [51] for their mature sequences of 37 and 17%, respectively

  • Compared with IcaB, BpsB does not contain the hydrophobic residue loop L1 that is proposed to retain the enzyme to the outer leaflet of the membrane [35], and the sequence homology is predominantly based on the five canonical CE4 motifs

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Summary

Introduction

The Bordetella polysaccharide (Bps) is involved in Bordetella biofilm formation. Results: BpsB is a periplasmic metal-dependent poly-␤-1,6-N-acetyl-D-glucosamine (PNAG) deacetylase that has unique structural and functional features from known PNAG deacetylases. Conclusion: BpsB-dependent deacetylation of Bps is required for Bordetella bronchiseptica biofilm formation. Significance: Deacetylated Bps is a key component for the structural complexity of Bordetella biofilms. Bps is required for Bordetella biofilm formation, colonization of the respiratory tract, and confers protection from complement-mediated killing. We have investigated the role of BpsB in the biosynthesis of Bps and biofilm formation by B. bronchiseptica. BpsB displays metal- and length-dependent deacetylation on poly-␤-1,6-N-acetyl-D-glucosamine (PNAG) oligomers, supporting previous immunogenic data that suggests Bps is a PNAG polymer. Unlike PgaB from Escherichia coli, BpsB is not required for polymer export and has unique structural differences that allow the SEPTEMBER 11, 2015 VOLUME 290 NUMBER 37

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