Abstract
BackgroundCarbohydrate structures of surface-expressed and secreted/excreted glycoconjugates of the human blood fluke Schistosoma mansoni are key determinants that mediate host-parasite interactions in both snail and mammalian hosts. Fucose is a major constituent of these immunologically important glycans, and recent studies have sought to characterize fucosylation-associated enzymes, including the Golgi-localized fucosyltransferases that catalyze the transfer of L-fucose from a GDP-L-fucose donor to an oligosaccharide acceptor. Importantly, GDP-L-fucose is the only nucleotide-sugar donor used by fucosyltransferases and its availability represents a bottleneck in fucosyl-glycotope expression.MethodsA homology-based genome-wide bioinformatics approach was used to identify and molecularly characterize the enzymes that contribute to GDP-L-fucose synthesis and Golgi import in S. mansoni. Putative functions were further investigated through molecular phylogenetic and immunocytochemical analyses.ResultsWe identified homologs of GDP-D-mannose-4,6-dehydratase (GMD) and GDP-4-keto-6-deoxy-D-mannose-3,5-epimerase-4-reductase (GMER), which constitute a de novo pathway for GDP-L-fucose synthesis, in addition to a GDP-L-fucose transporter (GFT) that putatively imports cytosolic GDP-L-fucose into the Golgi. In silico primary sequence analyses identified characteristic Rossman loop and short-chain dehydrogenase/reductase motifs in GMD and GMER as well as 10 transmembrane domains in GFT. All genes are alternatively spliced, generating variants of unknown function. Observed quantitative differences in steady-state transcript levels between miracidia and primary sporocysts may contribute to differential glycotope expression in early larval development. Additionally, analyses of protein expression suggest the occurrence of cytosolic GMD and GMER in the ciliated epidermal plates and tegument of miracidia and primary sporocysts, respectively, which is consistent with previous localization of highly fucosylated glycotopes.ConclusionsThis study is the first to identify and characterize three key genes that are putatively involved in the synthesis and Golgi import of GDP-L-fucose in S. mansoni and provides fundamental information regarding their genomic organization, genetic variation, molecular phylogenetics, and developmental expression in intramolluscan larval stages.
Highlights
Carbohydrate structures of surface-expressed and secreted/excreted glycoconjugates of the human blood fluke Schistosoma mansoni are key determinants that mediate host-parasite interactions in both snail and mammalian hosts
Recent studies by Fitzpatrick et al [2] and Peterson et al [3] inventoried the schistosome α3- and α6-fucosyltransferases (FucTs), which transfer L-fucose from a GDP-L-fucose nucleotide-sugar donor to an oligosaccharide acceptor to create α3 and α6 linkages, respectively. These studies demonstrated stage- and gender-specific variations in FucT gene transcription, which may contribute to differential fucosyl-glycotope expression that has been reported among stages of S. mansoni [4,5,6,7]
The above data indicate that GDP-L-fucose in S. mansoni is generated in the cytosol by a de novo synthetic pathway comprising GMD and GMER enzymes, after which the resulting activated fucose is imported into the Golgi by the multispan transmembrane protein GDP-L-fucose transporter (GFT)
Summary
Carbohydrate structures of surface-expressed and secreted/excreted glycoconjugates of the human blood fluke Schistosoma mansoni are key determinants that mediate host-parasite interactions in both snail and mammalian hosts. Recent studies by Fitzpatrick et al [2] and Peterson et al [3] inventoried the schistosome α3- and α6-fucosyltransferases (FucTs), which transfer L-fucose from a GDP-L-fucose nucleotide-sugar donor to an oligosaccharide acceptor to create α3 and α6 linkages, respectively. These studies demonstrated stage- and gender-specific variations in FucT gene transcription, which may contribute to differential fucosyl-glycotope expression that has been reported among stages of S. mansoni [4,5,6,7]. To date, no studies have examined these aspects of fucosylation in schistosomes
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