Leukolectins support lifelong innate immunity in lower vertebrates, and reveal dichotomies of several leukocytic lineages.

Innate immunity is vital for animal homeostasis and survival. First-line immuno-defense for fish larvae involves mucus enriched with leukolectin (LL) secreted by dermal lectocytes. Later during the critical transition from yolk-nutrition to feeding, additional larval immuno-protection in zebrafish (zF) is provided by macrophages containing LL (lectophages). This work investigated new LL-expression in embryos and in blood, structures of fish leukocytic LL and LL-genes, and LL-presence in chicken leukocytes. In zF-embryos, lectophages appear ∼10 hpf, while later, cells co-expressing myeloperoxidase- and LL-mRNA were detected (∼19 hpf). Furthermore, protein-extracts of Atlantic salmon (Ssal) leukocytes contained LL-proteins, compartmentalized in the cytosol. Cloning and sequencing revealed 94 % nt-sequence identity between variants of Ssal-leukolectins. Highly conserved LLs allowed production of epitope-specific anti-LL IgGs. Immuno-fluorescence-analysis demonstrated that most Ssal-bloodcells were LL-negative, but both some large cells with protrusions and some small, rounded cells did express LL. Immunoperoxidase-staining method confirmed LL-expression in some Ssal-leukocytes, identified as macrophages, PMN-leukocytes, thrombocytes and dendritic cells. However, closer examination revealed a dichotomy of these cell-categories into either LL-positive, or LL-negative variants. In situ hybridization demonstrated profuse LL-expression in Ssal head kidney interstitial tissue, while LL-transcripts were absent in large kidney tubules. Both hematopoietic (non-pigmented) marrow cells and melano-macrophages expressed LL-mRNA, implying that leukolectins provide lifelong innate immuno-protection. PCR-amplification using Ssal-leukocytic DNA as template, and direct sequencing yielded a leukocytic ll-gene. Some cells in salmon, cod, halibut, oikopleura and zebrafish embryos express LL-proteins and/or LL-mRNA, and LL-mRNA is detected in salmon, cod and chicken leukocytes. However, current genomes for these species lack recognizable LL-loci except the Ssal_v3.1 Genome-assembly. The data demonstrate an unexpected dichotomy of some leukocyte lineages into LL-positive or LL-negative cell-variants. Such dichotomies suggest exploring differential impacts from the duplicated leukocyte-lineages in health and disease.