AN APPRAISAL OF THE EXTRACELLULAR TOXINS OF AEROMONAS-SALMONICIDA SSP SALMONICIDA

Aeromonas salmonicida produces many extracellular enzymes, some of which are known to play an important role in pathogenesis and virulence, while the role of others is presently speculative. The latter group includes amylase, aryl-sulphatase, glucosidases, esterases and lysophospholipase. There are two enzymes which are known to be of prime importance in pathogenesis: a 70-kDa protease (caseinase) and a 25-kDa phospholipase (glycerophospholipid: cholesterol acyltransferase, GCAT). The protease causes extensive tissue liquefaction, activates the blood clotting system and is lethal for fish at 2.4-mu-g/g fish. It is inhibited by alpha-2-macroglobulin but resistant to all the other serum protease inhibitors. Its role in vivo appears to be as a broad spectrum protease providing amino acids for in vivo growth. The GCAT is mainly present in a high molecular weight complex with LPS. The complex is extremely haemolytic for fish (but not mammalian) erythrocytes. It is the most lethal component of the exotoxins (lethal dose 45 ng/g fish). The complex with LPS confers enhanced toxicity to the GCAT and stability to heat and proteolytic degradation. In vitro, this toxin also has high leucocytolytic and cytolytic (RTG-2) activity. On injection into fish, it causes very little histopathology other than a marked degranulation of eosinophilic granular cells (EGCs) in the gills. Its precise mode of pathogenesis is uncertain and appears complex. The protease and the GCAT/LPS have an additive relationship in respect to lethal doses and mixtures of the two produce extensive liquefactive and haemorrhagic lesions typical of furuncles. The possible relationship of the GCAT/LPS to other less well characterized factors (cytotoxin, leucocytolysin, haemolysin, salmolysin) is discussed.