Structural, functional, and evolutionary aspects of galectins in aquatic mollusks: From a sweet tooth to the Trojan horse

Galectins constitute a conserved and widely distributed lectin family characterized by their binding affinity for β-galactosides and a unique binding site sequence motif in the carbohydrate recognition domain (CRD). In spite of their structural conservation, galectins display a remarkable functional...

Full description

Saved in:
Bibliographic Details
Published in:Fish & shellfish immunology 2015-09, Vol.46 (1), p.94-106
Main Authors: Vasta, G.R., Feng, C., Bianchet, M.A., Bachvaroff, T.R., Tasumi, S.
Format: Article
Language:English
Subjects:
Animals
Crassostrea virginica
Evolution, Molecular
Galectin
Galectins - genetics
Galectins - metabolism
Glycan ligands
Marine
Microbial recognition
Mollusca
Mollusca - genetics
Mollusca - immunology
Mollusca - metabolism
Parasite
Perkinsus marinus
Phytoplankton
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Galectins constitute a conserved and widely distributed lectin family characterized by their binding affinity for β-galactosides and a unique binding site sequence motif in the carbohydrate recognition domain (CRD). In spite of their structural conservation, galectins display a remarkable functional diversity, by participating in developmental processes, cell adhesion and motility, regulation of immune homeostasis, and recognition of glycans on the surface of viruses, bacteria and protozoan parasites. In contrast with mammals, and other vertebrate and invertebrate taxa, the identification and characterization of bona fide galectins in aquatic mollusks has been relatively recent. Most of the studies have focused on the identification and domain organization of galectin-like transcripts or proteins in diverse tissues and cell types, including hemocytes, and their expression upon environmental or infectious challenge. Lectins from the eastern oyster Crassostrea virginica, however, have been characterized in their molecular, structural and functional aspects and some notable features have become apparent in the galectin repertoire of aquatic mollusks. These including less diversified galectin repertoires and different domain organizations relative to those observed in vertebrates, carbohydrate specificity for blood group oligosaccharides, and up regulation of galectin expression by infectious challenge, a feature that supports their proposed role(s) in innate immune responses. Although galectins from some aquatic mollusks have been shown to recognize microbial pathogens and parasites and promote their phagocytosis, they can also selectively bind to phytoplankton components, suggesting that they also participate in uptake and intracellular digestion of microalgae. In addition, the experimental evidence suggests that the protozoan parasite Perkinsus marinus has co-evolved with the oyster host to be selectively recognized by the oyster hemocyte galectins over algal food or bacterial pathogens, thereby subverting the oyster's innate immune/feeding recognition mechanisms to gain entry into the host cells. •Discovery and characterization of galectins in mollusks has been relatively recent.•Galectin repertoires in mollusks are smaller and display unique domain organizations.•Galectins from mollusks may mediate uptake of microalgae for intracellular digestion.•Galectins promote phagocytosis of pathogens and parasites as a defense response.•Some protozoan parasites sub
ISSN:1050-4648
1095-9947
DOI:10.1016/j.fsi.2015.05.012