O-Glucose Trisaccharide Is Present at High but Variable Stoichiometry at Multiple Sites on Mouse Notch1

O-Glucose Trisaccharide Is Present at High but Variable Stoichiometry at Multiple Sites on Mouse Notch1

Notch activity is regulated by both O-fucosylation and O-glucosylation, and Notch receptors contain multiple predicted sites for both. Here we examine the occupancy of the predicted O-glucose sites on mouse Notch1 (mN1) using the consensus sequence C1XSXPC2. We show that all of the predicted sites a...

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Bibliographic Details
Published in:The Journal of biological chemistry Vol. 286; no. 36; pp. 31623 - 31637
Main Authors: Rana, Nadia A., Nita-Lazar, Aleksandra, Takeuchi, Hideyuki, Kakuda, Shinako, Luther, Kelvin B., Haltiwanger, Robert S.
Format: Journal Article
Language:English
Published: United States Elsevier Inc 09-09-2011
American Society for Biochemistry and Molecular Biology
Subjects:
Amino Acid Motifs
Amino Acid Sequence
Animals
Consensus Sequence
Glucose - analysis
Glycobiology
Glycobiology and Extracellular Matrices
Glycoprotein
Glycosylation
Mass Spectrometry (MS)
Mice
Notch
Receptor, Notch1 - chemistry
Receptor, Notch1 - physiology
Trisaccharides - analysis
Mass Spectrometry (MS)
Glycosylation
Glycobiology
Glycoprotein
Notch
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Summary:Notch activity is regulated by both O-fucosylation and O-glucosylation, and Notch receptors contain multiple predicted sites for both. Here we examine the occupancy of the predicted O-glucose sites on mouse Notch1 (mN1) using the consensus sequence C1XSXPC2. We show that all of the predicted sites are modified, although the efficiency of modifying O-glucose sites is site- and cell type-dependent. For instance, although most sites are modified at high stoichiometries, the site at EGF 27 is only partially glucosylated, and the occupancy of the site at EGF 4 varies with cell type. O-Glucose is also found at a novel, non-traditional consensus site at EGF 9. Based on this finding, we propose a revision of the consensus sequence for O-glucosylation to allow alanine N-terminal to cysteine 2: C1XSX(A/P)C2. We also show through biochemical and mass spectral analyses that serine is the only hydroxyamino acid that is modified with O-glucose on EGF repeats. The O-glucose at all sites is efficiently elongated to the trisaccharide Xyl-Xyl-Glc. To establish the functional importance of individual O-glucose sites in mN1, we used a cell-based signaling assay. Elimination of most individual sites shows little or no effect on mN1 activation, suggesting that the major effects of O-glucose are mediated by modification of multiple sites. Interestingly, elimination of the site in EGF 28, found in the Abruptex region of Notch, does significantly reduce activity. These results demonstrate that, like O-fucose, the O-glucose modifications of EGF repeats occur extensively on mN1, and they play important roles in Notch function.
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Both authors contributed equally to this work.
Present address: NIAID, National Institutes of Health, Bethesda, MD 20892–1892.
Present address: University of Zurich, 8057 Zurich, Switzerland.
ISSN:0021-9258
1083-351X
1083-351X
DOI:10.1074/jbc.M111.268243