Zeitschriftenaufsatz
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2023
N-glycan antennal modifications are altered in Caenorhabditis elegans lacking the HEX-4 N-acetylgalactosamine-specific hexosaminidase
Autor:in
Paschinger, Katharina; Woels, Florian; Yan, Shi; Jin, Chunsheng; Vanbeselaere, Jorick; Dutkiewicz, Zuzanna; Arcalis, Elsa; Malzl, Daniel; Wilson, Iain
Publikationen als Autor:in / Herausgeber:in der Vetmeduni
Journal
Abstrakt
Simple organisms are often considered to have simple gly-comes, but plentiful paucimannosidic and oligomannosidic glycans overshadow the less abundant N-glycans with highly variable core and antennal modifications; Caenorhabditis ele-gans is no exception. By use of optimized fractionation and assessing wildtype in comparison to mutant strains lacking either the HEX-4 or HEX-5 beta-N-acetylgalactosaminidases, we conclude that the model nematode has a total N-glycomic po-tential of 300 verified isomers. Three pools of glycans were analyzed for each strain: either PNGase F released and eluted from a reversed-phase C18 resin with either water or 15% methanol or PNGase Ar released. While the water-eluted frac-tions were dominated by typical paucimannosidic and oligo-mannosidic glycans and the PNGase Ar-released pools by glycans with various core modifications, the methanol-eluted fractions contained a huge range of phosphorylcholine-modified structures with up to three antennae, sometimes with four N-acetylhexosamine residues in series. There were no major differences between the C. elegans wildtype and hex-5 mutant strains, but the hex-4 mutant strains displayed altered sets of methanol-eluted and PNGase Ar-released pools. In keeping with the specificity of HEX-4, there were more glycans capped with N-acetylgalactosamine in the hex-4 mutants, as compared with isomeric chito-oligomer motifs in the wildtype. Considering that fluorescence microscopy showed that a HEX-4::enhanced GFP fusion protein colocalizes with a Golgi tracker, we conclude that HEX-4 plays a significant role in late-stage Golgi processing of N-glycans in C. elegans. Furthermore, finding more "parasite-like" structures in the model worm may facilitate discovery of glycan-processing enzymes occurring in other nematodes.
Schlagwörter
Animals; Acetylgalactosaminemetabolism; beta-N-Acetylhexosaminidasesmetabolism; Caenorhabditis elegansmetabolism; Glycosylation; Hexosaminidasesmetabolism; Methanol; Polysaccharidesmetabolism
Dokumententyp
Originalarbeit
CC Lizenz
CCBY
Open Access Type
Gold
10.1016/j.jbc.2023.103053
WoS ID
PubMed ID
Repository Phaidra