Comparison of the surface properties of seven strains of a fish pathogen, Aeromonas salmonicida

Several physical properties related to the surface characteristics of autoaggregating and non‐autoaggregating strains of Aeromonas salmonicida have been investigated. Properties examined included resistance to the bactericidal action of trout serum, adhesion to fish leucocytes and fish cell monolayers in vitro , resistance to phagocytosis by fish leucocytes and the in vivo localization following intraperitoneal injection. For each strain the presence or absence of an extracellular protein A‐layer was investigated and the pathogenicity for brook trout determined. Presumptive A‐layer protein, in the form of a 49 kdal subunit, could be detected only in one of the strains examined. This strain autoaggregated and was the most resistant to serum bactericidal activity. Complement activation by the alternative pathway was thought to be responsible for this heat‐labile bactericidal activity. Three strains that autoaggregated and three that did not had no detectable A‐layer. Autoaggregating strains appeared more adhesive to both fish cell types but all strains were phagocytosed by fish leucocytes to a similar degree. An autoaggregating strain was localized in the spleen. The seven strains were only moderately pathogenic for brook trout, possibly as a result of the challenge system. In view of this, no property investigated could be correlated with greatly increased virulence.