Immunological insights into the resistance of Nile tilapia strains to an infection with tilapia lake virus
Fish & Shellfish Immunology
Data
2022Autor
Adamek, M.
Rebl, A.
Matras, M.
Lodder, C.
Rahman S, S. Abd El
Stachnik, M.
Rakus, K.
Bauer, J.
Falco, A.
Jung-Schroers, V.
Piewbang, C.
Techangamsuwan, S.
Surachetpong, W.
Reichert, M.
Tetens, J.
Steinhagen, D.
Metadane
Pokaż pełny rekordStreszczenie
The emergence of viral diseases affecting fish and causing very high mortality can lead to the disruption of
aquaculture production. Recently, this occurred in Nile tilapia aquaculture where a disease caused by a systemic
infection with a novel virus named tilapia lake virus (TiLV) caused havoc in cultured populations. With mortality
surpassing 90% in young tilapia, the disease caused by TiLV has become a serious challenge for global tilapia
aquaculture. In order to partly mitigate the losses, we explored the natural resistance to TiLV-induced disease in
three genetic strains of tilapia which were kept at the University of G ̈ottingen, Germany. We used two strains
originating from Nilotic regions (Lake Mansala (MAN) and Lake Turkana (ELM)) and one from an unknown
location (DRE). We were able to show that the virus is capable of overcoming the natural resistance of tilapia
when injected, providing inaccurate mortality results that might complicate finding the resistant strains. Using
the cohabitation infection model, we found an ELM strain that did not develop any clinical signs of the infection,
which resulted in nearly 100% survival rate. The other two strains (DRE and MAN) showed severe clinical signs
and much lower survival rates of 29.3% in the DRE strain and 6.7% in the MAN strain. The disease resistance of
tilapia from the ELM strain was correlated with lower viral loads both at the mucosa and internal tissues. Our
results suggest that the lower viral load could be caused by a higher magnitude of a mx1-based antiviral response
in the initial phase of infection. The lower pro-inflammatory responses also found in the resistant strain might
additionally contribute to its protection from developing pathological changes related to the disease. In
conclusion, our results suggest the possibility of using TiLV-resistant strains as an ad hoc, cost-effective solution
to the TiLV challenge. However, as the fish from the disease-resistant strain still retained significant virus loads in
liver and brain and thus could become persistent virus carriers, they should be used within an integrative
approach also combining biosecurity, diagnostics and vaccination measures
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