Mutations in voltage-gated sodium channels from pyrethroid resistant salmon lice (Lepeophtheirus salmonis)

Background Parasitic salmon lice (Lepeophtheirus salmonis) cause high economic losses in Atlantic salmon farming. Pyrethroids, which block arthropod voltage‐gated sodium channels (Nav1), are used for salmon delousing. However, pyrethroid resistance is common in L. salmonis. The present study charact...

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Bibliographic Details
Published in:Pest Management Science
Main Authors: Carmona-Antoñanzas, Greta, Helgesen, Kari O, Humble, Joseph L, Tschesche, Claudia, Bakke, Marit J, Gamble, Louise, Bekaert, Michaël, Bassett, David I, Horsberg, Tor E, Bron, James E, Sturm, Armin
Other Authors: Biotechnology and Biological Sciences Research Council, Institute of Aquaculture, Norwegian Veterinary Institute, Norwegian University of Life Sciences, orcid:0000-0002-1206-7654, orcid:0000-0002-7529-0829, orcid:0000-0003-3544-0519, orcid:0000-0003-2632-1999
Format: Article in Journal/Newspaper
Language:English
Published: Wiley 2019
Subjects:
Agronomy and Crop Science
Insect Science
General Medicine
Atlantic salmon
Online Access:http://hdl.handle.net/1893/27612
https://doi.org/10.1002/ps.5151
http://dspace.stir.ac.uk/bitstream/1893/27612/1/Carmona-Anto-anzas_et_al-2018-Pest_Management_Science.pdf
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Summary:Background Parasitic salmon lice (Lepeophtheirus salmonis) cause high economic losses in Atlantic salmon farming. Pyrethroids, which block arthropod voltage‐gated sodium channels (Nav1), are used for salmon delousing. However, pyrethroid resistance is common in L. salmonis. The present study characterised Nav1 homologues in L. salmonis in order to identify channel mutations associated to resistance, called kdr (knockdown) mutations. Results Genome scans identified three L. salmonis Nav1 homologues, LsNav1.1, LsNav1.2 and LsNav1.3. Arthropod kdr mutations map to specific Nav1 regions within domains DI‐III, namely segments S5 and S6 and the linker helix connecting S4 and S5. The above channel regions were amplified by RT‐PCR and sequenced in deltamethrin‐susceptible and deltamethrin‐resistant L. salmonis. While LsNav1.1 and LsNav1.2 lacked nucleotide polymorphisms showing association to resistance, LsNav1.3 showed a non‐synonymous mutation in S5 of DII occurring in deltamethrin‐resistant parasites. The mutation is homologous to a previously described kdr mutation (I936V, numbering according to Musca domestica Vssc1) and was present in two pyrethroid‐resistant L. salmonis strains (allele frequencies of 0.800 and 0.357), but absent in two pyrethroid‐susceptible strains. Conclusions The present study indicates that a kdr‐mutation in LsNaV 1.3 may contribute to deltamethrin resistance in L. salmonis.

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