Abstract

Fish perivitelline fluid (PVF) is a vital extra-embryonic compartment. At hatching, PVF-contents dissolve into the hatching fluid (HF). Analysis of Atlantic salmon HF reveals nearly a hundred distinct proteins, most of which were identified by advanced mass-spectrometry. However, one entity with an apparent molecular weight 26 kDa, necessitated identification from its tryptic peptides. Subsequent cloning and sequencing revealed novel leukolectin-proteins. From bioinformatic analysis, leukolectins (LL) belong in the tectonin protein-family, with recognized functions in innate immunity. This study aims to identify LL-expressing cells in diverse fish species, and to characterize the LL-gene in order to predict bio-functions of leukolectins. LL-proteins were detected in HF from several fish species and one invertebrate, using polyclonal LL-specific IgGs. Embryonic LL-immunoreactive cells were numerous in Atlantic salmon, rainbow trout, fewer in Atlantic cod, and rare in Atlantic halibut and Oikopleura dioica. LL-immunoreactive cells were termed lectocytes, which corresponded to peridermal mucuscells stained by PAS, but unstained by eosin. Hence, lectocytes and hatching-gland cells were clearly distinguished. Northern blots revealed two salmon LL-transcripts at mid-embryogenesis. Such transcripts were detected in epithelial cells of the periderm, gills and oral cavity. LL-transcripts predominated in the periderm, while choriolysin-transcripts were dominant in the gills. No co-expression of choriolysins and LL-transcripts was detected. BAC-library screening yielded salmon LL's genestructure with 4 introns, 5 exons, TATA-box, multiple upstream putative transcription-factor bindingsites and polyadenylation site. LL-gene location on chromosome ssa17 was identified in Ssal_v3.1, the 2021version of the salmon genome. In conclusion, larvae from several fish species are outfitted with mucus enriched by LL-proteins. Mucus cells are present in embryos of all fishes, but embryonic lectocyte-numbers are far higher in species with near total larval survival. When (maternal) chorionic first-line immuno-defence is lost at hatching, leukolectin-enriched mucus may provide vital protection for larvae.

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