Title (eng)
N-glycan Core Tri-fucosylation Requires Golgi ?-mannosidase III Activity that Impacts Nematode Growth and Behaviour
Author
Florian Wöls
Saurabh Thapliyal
Elsa Arcalis
Sascha Kubitschek
Daniel Malzl
Maria R. Strobl
Dieter Palmberger
Thomas Luber
Carlo Unverzagt
Katharina Paschinger
Dominique A. Glauser
Iain B. H. Wilson
Abstract (eng)
N-glycans with complex core chitobiose modifications are observed in various free-living and parasitic nematodes but are absent in mammals. Using Caenorhabditis elegans as a model, we demonstrated that the core N-acetylglucosamine (GlcNAc) residues are modified by three fucosyltransferases (FUTs), namely FUT-1, FUT-6, and FUT-8. Interestingly, FUT-6 can only fucosylate N-glycans lacking the ?1,6-mannose upper arm, indicating that a specific ?-mannosidase is required to generate substrates for subsequent FUT-6 activity. By analyzing the N-glycomes of aman-3 KOs using offline HPLC-MALDI-TOF MS/MS, we observed that the absence of aman-3 abolishes ?1,3-fucosylation of the distal GlcNAc of N-glycans, which suggests that AMAN-3 is the relevant mannosidase on whose action FUT-6 depends. Enzymatic characterization of recombinant AMAN-3 and confocal microscopy studies using a knock-in strain (aman-3::eGFP) demonstrated a Golgi localization. In contrast to the classical Golgi ?-mannosidase II (AMAN-2), AMAN-3 displayed a cobalt-dependent ?1,6-mannosidase activity toward N-glycans. Using AMAN-3 and other C. elegans glycoenzymes, we were able to mimic nematode N-glycan biosynthesis in vitro by remodeling a fluorescein conjugated-glycan and generate a tri-fucosylated structure. In addition, using a high-content computer-assisted C. elegans analysis platform, we observed that aman-3 deficient worms display significant developmental
delays, morphological, and behavioral alterations in comparison to the WT. Our data demonstrated that AMAN-3 is a Golgi ?-mannosidase required for core fucosylation of the distal GlcNAc of N-glycans. This enzyme is essential for the formation of the unusual tri-fucosylated chitobiose modifications in nematodes, which may play important roles in nematode development and behavior.
Keywords (eng)
AnimalsPolysaccharides MetabolismGolgi Apparatus MetabolismGolgi Apparatus EnzymologyAlpha-Mannosidase MetabolismAlpha-Mannosidase GeneticsCaenorhabditis Elegans ProteinsGlycosylationFucose MetabolismFucosyl TransferasesFucosyl MetabolismFucosyl GeneticsCaenorhabditis Elegans MetabolismCaenorhabditis Elegans EnzymologyCaenorhabditis Elegans Genetics
Type (eng)
Language
[eng]
Persistent identifier
Is in series
Title (eng)
Journal of Biological Chemistry
Volume
300
Issue
12
ISSN
1083-351X
Issued
2024
Number of pages
19
Publication
Elsevier
Version type (eng)
Date issued
2024
Access rights (eng)
License
Rights statement (eng)
Copyright © 2024 The Authors
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DOI
https://phaidra.vetmeduni.ac.at/o:3863
https://doi.org/10.1016/j.jbc.2024.107944 - Content
- DetailsObject typePDFDocumentFormatapplication/pdfCreated14.02.2025 10:24:30 UTC
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