Structure of the capsule and lipopolysaccharide O-antigen from the channel catfish pathogen, Aeromonas hydrophila.

A hypervirulent A. hydrophila (vAh) pathotype has been identified as the etiologic agent responsible for disease outbreaks in farmed carp species and channel catfish (Ictalurus punctatus) in China and the Southeastern United States, respectively. The possible route of infection has previously been unknown; however, virulence is believed to be multifactorial, involving the production/secretion of several virulence factors, including a high molecular weight group 4 capsular polysaccharide. Here we present chemical structural evidence of a novel capsule- and LPS-associated O-antigen found present in vAh isolated during these disease outbreaks. In this study, the chemical structure of the vAh O-antigen was determined by chemical analysis, Smith degradation, mass spectrometry, and 2D proton and carbon nuclear magnetic resonance (NMR) spectroscopy and found to be unique among described bacterial O-antigens. The O-antigen consists of hexasaccharide repeating units featuring a 4)-α- l -Fuc p -(1–3)-β- d -Glc p NAc-(1–4)-α- l -Fuc p -(1–4)-β- d -Glc p -(1- backbone, substituted with single residue side chains of α- d -Glc p and α- d -Qui p 3NAc linked to O-3 of the two fucose residues. The polysaccharide is partially O-acetylated on O-6 of the 4-substituted β-Glc p residue. Image 1 • The fish pathogen, A. hydrophila ST251, produces a high-molecular weight LPS. • This bacterium features a group 4 capsule comparable to the LPS O-antigen. • The repeat unit consists of a hexasaccharide of unique structure. [ABSTRACT FROM AUTHOR]