The investigations presented in this thesis include studies on a) the immune responses
of carp following direct immersion immunization and subsequent intraperitoneal (i.p.)
challenge, b) the uptake and accumulation in carp of a direct immersion vaccine and c)
phagocytic uptake by carp peritoneal exudate cells (PECs).
To assess the cell-mediated immune response of carp, a micro chemotaxis technique
was developed, measuring the production of chemotactic factor-like activity in
supernatants from incubations of pronephric cells with antigen.
In no case were serum antibody titres or a cell-mediated immune response detectable
after immersions alone in antigen. It was found that an i.p. challenge of antigen in
adjuvant, subsequent to the immersions, was needed to stimulate a measurable response,
with effective priming immersions stimulating a secondary response to the i.p. challenge.
It was found that the opsonization of both soluble and particulate immersion vaccines
with immune carp serum significantly increased the immunological memory for both the
humoral and the cell-mediated immune responses following immersion. Opsonization of
the vaccines with normal serum, however, had no detectable effect. The cell-mediated
immune responses following immersion were only measured in immunologically mature
carp, but the humoral immune responses were measured in both immunologically mature
and immature carp, which were 4 weeks old at the beginning of the experiments. Using
the bacterial Aeromonas salmonicida antigen, all the responses measured post-immersion
were found to be positive in both immunologically mature and immature carp. However,
with the T-dependent antigen, human gamma globulin (HGG), the immune responses
post-immersion were found to be positive only in the immunologically mature fish, with
immersion of the immature carp in HGG-coated latex particles opsonized with immune
serum producing a tolerizing effect on the humoral immune response.
There was no detectable uptake of a non-opsonized A.salmonicida vaccine in normal
carp when immersed in a bath of the vaccine. However, if the vaccine was opsonized
with immune carp serum, uptake and accumulation of the vaccine was detectable, mostly
accumulating in the internal lymphoid organs. Uptake of the non-opsonized vaccine was,
however, also found when the recipient carp had been previously immunized against
A.salmonicida, by immersion. The phagocytic uptake of particles by carp PECs was also
found to be enhanced by opsonization of the particles with immune carp serum, this
effect being partially recuced by decomplementation of the opsonizing serum.
Opsonizat1on of particles with normal serum was found to have no effect on phagocytic
uptake.
Immersions in several different sizes of latex particles (from O.O5 µm to l5 µ.m) coated
with HGG were found to stimulate greater humoral immunological memory than
immersions in soluble HGG. This was not the case for memory for the cell-mediated
response, where immersions in latex particle-bound HGG were no more stimulatory than
immersions in soluble HGG. Carp PECs were found to be able to ingest 0.8 µm and
3.0 µm diameter particles but uptake of I5 µm diameter particles was not observed.
The specificity of the humoral immune response after direct immersion immunization
was found to be high with no cross-reactivity with any of the other antigens used. The
cell-mediated immune response following direct immersion immunization was found to
be slightly less specific; cross-reactivity between HGG and chicken gamma globulin was
detected, although the other antigens used showed no cross-reactivity.
Date of Award | 1990 |
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Original language | English |
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Awarding Institution | |
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THE IMMUNE RESPONSES OF CARP, CYPRINUS CARPIO L., FOLLOWING DIRECT IMMERSION IMMUNIZATION
BRIDGES, A. F. (Author). 1990
Student thesis: PhD