Abstract
The salmon louse, Lepeophtheirus salmonis, is an ectoparasitic crustacean that annually inflicts substantial losses to the aquaculture industry in the northern hemisphere and poses a threat to the wild populations of salmonids. The salmon louse life cycle consists of eight developmental stages each separated by a molt. Fushi Tarazu Factor-1 (FTZ-F1) is an ecdysteroid-regulated gene that encodes a member of the NR5A family of nuclear receptors that is shown to play a crucial regulatory role in molting in insects and nematodes. Characterization of an FTZ-F1 orthologue in the salmon louse gave two isoforms named αFTZ-F1 and βFTZ-F1, which are identical except for the presence of a unique N-terminal domain (A/B domain). A comparison suggest conservation of the FTZ-F1 gene structure among ecdysozoans, with the exception of nematodes, to produce isoforms with unique N-terminal domains through alternative transcription start and splicing. The two isoforms of the salmon louse FTZ-F1 were expressed in different amounts in the same tissues and showed a distinct cyclical expression pattern through the molting cycle with βFTZ-F1 being the highest expressed isoform. While RNA interference knockdown of βFTZ-F1 in nauplius larvae and in pre-adult males lead to molting arrest, knockdown of βFTZ-F1 in pre-adult II female lice caused disruption of oocyte maturation at the vitellogenic stage. No apparent phenotype could be observed in αFTZ-F1 knockdown larvae, or in their development to adults, and no genes were found to be differentially expressed in the nauplii larvae following αFTZ-F1 knockdown. βFTZ-F1 knockdown in nauplii larvae caused both down and upregulation of genes associated with proteolysis and chitin binding and affected a large number of genes which are in normal salmon louse development expressed in a cyclical pattern. This is the first description of FTZ-F1 gene function in copepod crustaceans and provides a foundation to expand the understanding of the molecular mechanisms of molting in the salmon louse and other copepods.
Highlights
The salmon louse, Lepeophtheirus salmonis, is an ectoparasitic copepod that lives of salmonids by feeding on mucus, skin, and blood
The salmon louse life cycle consists of eight developmental stages each separated by a molt: two planktonic nauplius stages followed by an infective copepodid stage, two immobile chalimus stages, two mobile pre-adult stages and the mobile reproductive adult stage [1,2,3]
Fushi Tarazu Factor-1 (FTZ-F1) alternative transcription start sites and splicing are conserved among ecdysozoans pBLAST search in LiceBase.org against all salmon louse protein entries gave a hit with the salmon louse gene EMLSAG00000008902
Summary
The salmon louse, Lepeophtheirus salmonis, is an ectoparasitic copepod that lives of salmonids by feeding on mucus, skin, and blood. The salmon louse life cycle consists of eight developmental stages each separated by a molt: two planktonic nauplius stages followed by an infective copepodid stage, two immobile chalimus stages, two mobile pre-adult stages and the mobile reproductive adult stage [1,2,3]. Better knowledge of the ecdysone pathway in salmon lice will help in understanding the initiation and regulation of the complex process of molting. To combat the parasite with new drugs, knowledge of endocrine regulatory mechanisms is indispensable with molt and reproduction as the main target processes. Molting is necessary for growth and development of the parasite and may represent a step where it is vulnerable towards attack
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