Evaluation of an adjuvanted hapten-protein vaccine approach to preventing sexual maturation of farmed Atlantic salmon

2013 Fall. Includes bibliographical references. Aquaculture is a rapidly growing industry that significantly contributes to the world food supply. Sustainable practices in aquaculture are of increasing importance as an increasing proportion of fish in the global market come from aquaculture instead...

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Bibliographic Details
Main Author: Orahood, Darcy Sonya
Other Authors: Salman, M. D., Eckery, Douglas C., Miller, Lowell A., Myrick, Christopher A., Rhyan, Jack C.
Format: Text
Language:English
Published: Colorado State University. Libraries 2007
Subjects:
vaccine
reproduction
immunocontraception
Atlantic salmon
Norway
Sunndalsøra
Online Access:http://hdl.handle.net/10217/81048
Description
Summary:2013 Fall. Includes bibliographical references. Aquaculture is a rapidly growing industry that significantly contributes to the world food supply. Sustainable practices in aquaculture are of increasing importance as an increasing proportion of fish in the global market come from aquaculture instead of wild catch. Maximizing aquaculture yields and minimizing the ecological impacts of these operations are two important goals towards sustainability. One approach to addressing these objectives is immunocontraception of fish which would increase the fish meat quality and yield in aquaculture production and prevent escaped farmed fish from undesirably altering wild fish population genetics through breeding. The research presented here was conducted with the aim of proof of concept for contraceptive vaccine use in Atlantic salmon. Nine vaccine formulations, including a negative control vaccine, were formulated at the National Wildlife Research Center in Fort Collins, Colorado and injected into farmed Atlantic salmon in Sunndalsøra, Norway. Production of antibodies against three immunogenic components in each vaccine formulation was evaluated over the course of the 12-week study. Weight and length of each fish were also tracked over time to determine whether growth was affected by vaccination. The study results indicate that Atlantic salmon will produce antibodies against BSA and KLH used as carrier proteins but that KLH is a stronger immunogen. Importantly, it was also determined that Atlantic salmon will produce antibodies against a small endogenous peptide (hapten) conjugated to the carrier protein, but to a lesser extent than the levels of antibody production against the carrier itself. Approximately 96% of samples from fish vaccinated against KLH, 76% of samples from fish vaccinated against BSA, and 36% of samples from fish vaccinated against the hapten were identified as positive. Response rates for all three antigens were highest 12 weeks post-vaccination. Significant differences in antibody levels were also ...

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