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Lectin-binding characterizes the healthy human skeletal muscle glycophenotype and identifies disease-specific changes in dystrophic muscle.
- Source :
-
Glycobiology [Glycobiology] 2017 Dec 01; Vol. 27 (12), pp. 1134-1143. - Publication Year :
- 2017
-
Abstract
- Our understanding of muscle glycosylation to date has derived from studies in mouse models and a limited number of human lectin histochemistry studies. As various therapeutic approaches aimed at treating patients with muscular dystrophies are being translated from rodent models to human, it is critical to better understand human muscle glycosylation and relevant disease-specific differences between healthy and dystrophic muscle. Here, we report the first quantitative characterization of human muscle glycosylation, and identify differentiation- and disease-specific differences in human muscle glycosylation. Utilizing a panel of 13 lectins with varying glycan specificities, we surveyed lectin binding to primary and immortalized myoblasts and myotubes from healthy and dystrophic sources. Following differentiation of primary and immortalized healthy human muscle cells, we observed increased binding of Narcissus pseudonarcissus agglutinin (NPA), PNA, MAA-II and WFA to myotubes compared to myoblasts. Following differentiation of immortalized healthy and dystrophic human muscle cells, we observed disease-specific differences in binding of NPA, Jac and Tricosanthes japonica agglutinin-I (TJA-I) to differentiated myotubes. We also observed differentiation- and disease-specific differences in binding of NPA, Jac, PNA, TJA-I and WFA to glycoprotein receptors in muscle cells. Additionally, Jac, PNA and WFA precipitated functionally glycosylated α-DG, that bound laminin, while NPA and TJA-I did not. Lectin histochemistry of healthy and dystrophic human muscle sections identified disease-specific differences in binding of O-glycan and sialic acid-specific lectins between healthy and dystrophic muscle. These results indicate that specific and discrete changes in glycosylation occur following differentiation, and identify specific lectins as potential biomarkers sensitive to changes in healthy human muscle glycosylation.<br /> (© The Author 2017. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)
- Subjects :
- Cell Line, Transformed
Glycoproteins chemistry
Humans
Muscle Proteins chemistry
Muscular Dystrophies pathology
Myoblasts, Skeletal chemistry
Myoblasts, Skeletal pathology
Plant Lectins chemistry
Glycoproteins metabolism
Muscle Proteins metabolism
Muscular Dystrophies metabolism
Myoblasts, Skeletal metabolism
Narcissus chemistry
Plant Lectins pharmacology
Subjects
Details
- Language :
- English
- ISSN :
- 1460-2423
- Volume :
- 27
- Issue :
- 12
- Database :
- MEDLINE
- Journal :
- Glycobiology
- Publication Type :
- Academic Journal
- Accession number :
- 28973355
- Full Text :
- https://doi.org/10.1093/glycob/cwx073