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HAVBRUK2-Stort program for havbruksforskning

Development of sea lice vaccine (Louse Off).

Alternative title: Utvikling av lakselus vaksine

Awarded: NOK 8.2 mill.

Project Number:

235477

Project Period:

2014 - 2019

Location:

Partner countries:

Sea lice (Lepeophtheirus salmonis) are major pathogens of farmed and wild salmonid fish species. Sea lice affect salmonids negatively by feeding on the mucus, skin, and blood. The farming industry depends strongly on pesticides to control sea lice infestations. Although these treatments are effective, lice-populations develop reduced sensitivity over time, and the lifetime of each pesticide is therefore limited. In addition to this, chemical treatments also release residual compounds to the environment. An effective vaccine against sea lice would be a powerful tool to control the problem and increase animal welfare. More than 60 candidates have been screened for effect against sea lice infestation in this project. Some of these candidates have shown significant reduction in sea lice infestation. Future work will focus on further develop vaccine concepts for which these antigen candidates are included.

Prosjektet har levert to antigen kandidater med dokumentert effekt mot lakselus. Nytt prosjekt (Louse off2 269027) er igangsatt for videre utvikle disse antigen kandidater fram til effektiv vaksine. Selv om effekt er vist i labforsøk, kreves det videre utvikling av vaksine og dokumentering av effekt under feltforhold.

Sea lice (Lepeophtheirus salmonis) are major pathogens of farmed and wild salmonids. The sea lice affect salmonids negatively by feeding on the mucus, skin, and blood. The farming industry depends strongly on pesticides to control lice infestations. Alth ough these treatments are effective, lice-populations develop reduced sensitivity over time, and the lifetime of each pesticide is therefore limited. In addition to this, chemical treatments also release residue compounds to the environment. An effective vaccine against sea lice would be a powerful tool to reduce the need for chemical treatments in the industry, and thus increase the control of the problem. This project combines the latest advances in sequencing, bioinformatics and formulation technology, with high-throughput in vivo screening in already established sea lice challenge models. This approach secures that a high number of candidate antigens (50-100) are screened based on highly relevant properties for a vaccine, such as immunogenicity and ac tual efficacy in reducing lice infestations. The number of antigens that are screened for efficacy significantly exceeds previous vaccine development studies, and is key for success in identification of a truly protective antigen. The project brings toget her Norwegian and International research environments with global state-of-the art expertise in the fields of sea lice, ectoparasite vaccines and fish vaccines. A significant investment in human resources and new technologies is essential for bringing a s ea lice vaccine to the market. The project risks and the need to draw in external expertise is why PHARMAQ request for support from the Research Council.

Funding scheme:

HAVBRUK2-Stort program for havbruksforskning