Antigen processing and presentation in teleost immune responses

Abstract

Recent in vitro studies clearly demonstrate the importance of antigen processing and presentation in the generation of immune responses to T-dependent antigens (i.e. proteins and hapten-carrier conjugates) in phylogenetically lower vertebrates such as teleosts. Similar to the situation in mammals, antigens are processed and presented by accessory or antigen-presenting cells (APC), such as monocytes or macrophages, to specific lymphocytes in a seemingly alloantigen- (presumably major histocompatibility complex [MHC] or MHC-like) restricted fashion. Results show that processing involves proteolysis, which presumably occurs within acidic subcellular compartments. The requirement for processing can be circumvented by the presentation of peptide fragments of the native antigen on paraformaldehyde-fixed APC. Moreover, usage of structurally defined proteins, such as cytochrome C, as model antigens reveals that their species variants are cross-stimulatory to immune fish lymphocytes. Molecular analyses of such antigens reveal the existence of overlapping epitopes that seem to define the specificity of the immune response to such “families” of antigens but not to other unrelated (yet structurally defined) antigens. Consequently, these studies corroborate the hypothesis that immune functions in the divergent classes of vertebrates are highly conserved. Further, results from such studies also show that these immunologic processes appear to occur under low temperature regimes previously reported to suppress primary immune responses. Hence, these studies provide direct evidence that low temperature-induced immunosuppression in fish does not involve impaired APC functions. In light of the above observations indicating similarities between fish and mammalian systems, implications for fish vaccine design are also discussed.