Cellular pathway(s) of antigen processing in fish APC: effect of varying in vitro temperatures on antigen catabolism.

Studies were conducted to determine the effects of varying in vitro temperatures during cellular processing of T-dependent antigens by catfish antigen-presenting cells (APC). Strategy involved pulsing of long-term monocyte lines (used as APC) with antigen at different temperatures for various periods of time and then fixing and coculturing with autologous peripheral blood leukocytes (PBL) as responders at a permissive temperature (i.e., 27 degrees C). Results showed that APC incubated with antigen at low, nonpermissive, but physiologically relevant, temperatures (11 and 17 degrees C) elicited secondary proliferative responses by autologous PBL. However, responses elicited with APC pulsed at 11 and 17 degrees C required longer exposure to the antigen prior to fixation (i.e., greater than or equal to 8 h compared to 5 h, the optimal incubation time at 27 degrees C). Further, there was sufficient cell-associated antigen during a short-term pulsing period (1-2 h) at 11 and 17 degrees C to provide efficient presentation after subsequent incubation of the APC at 27 degrees C for an additional 10 h before fixation. In contrast, APC pulsed with antigen at an extremely low, physiologically irrelevant, temperature (4 degrees C) for extended periods of time did not elicit the proliferation of autologous responders unless antigen pulsing was carried out for 1-2 h and the APC subsequently shifted to 27 degrees C for an additional 10 hr. Antigen uptake assays revealed significant and similar levels of internalized antigen at 11, 17, and 27 degrees C, but not at 4 degrees C. However, intracellular degradation and formation of trichloroacetic acid-soluble antigen catabolites at 11 and 17 degrees C appeared to occur at a slower rate compared to APC at 27 degrees C. Significantly, primary anti-hapten plaque-forming cell responses were also observed with PBL cocultured with APC pulsed with hapten-carrier conjugates at 11, 17, and 27 degrees C. Consequently, the previously observed suppression of primary T-cell responses in fish at low, physiologically relevant, temperatures is not due to impaired antigen processing or presentation.