Repertoire of complement in immunological defense mechanisms of fish

Fish have a serum protein system comprising a large number of complement components whose characterization is incomplete. Fish complement reveals extensive biological activities and unique properties different from mammalian complement. The first section of this review includes a concise explanation of the human complement system as a background to the understanding of the general principles of complement. The classical pathway, alternative pathway, and opsonization of the complement system are also explained. Successively, properties of fish complement are described in relation to heat lability, divalent cation requirements, species specificity, and factors affecting complement activity. Methods for the determination of complement activities involved in antibody specific and nonspecific hemolysis are also explained in detail. The titration of hemolytic antibody and its kinetics in the antibody production of salmonid fish, as an example for complement fixation, are reviewed as practical uses for fish complement. Antimicrobial activities, including bactericidal action, detoxification, viral inactivation, and opsonization in phagocytosis are also reviewed to relate complement to the defense mechanisms of fish. With respect to the bactericidal action, the modulation of complement activity in response to physiological and pathological changes, due to infections with pathogenic bacteria, was stressed as a parameter of health assessment in fish. In the last section, the ontogenetic development of salmonid complement, and interrelations between phylogenetic taxonomy and fish complement based on hemolytic activities are discussed. Such miscellaneous properties of complement activity in fish are categorized into two actions: (a) a lytic action representing hemolysis, bacteria killing, viral inactivation, etc. by the activation of the complement; and (b) and opsonic action by a fragment liberated from activated complement components.