The functional O-mannose glycan on α-dystroglycan contains a phospho-ribitol primed for matriglycan addition

Multiple glycosyltransferases are essential for the proper modification of alpha-dystroglycan, as mutations in the encoding genes cause congenital/limb-girdle muscular dystrophies. Here we elucidate further the structure of an O-mannose-initiated glycan on alpha-dystroglycan that is required to gene...

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Autores principales: Praissman, Jeremy L, Willer, Tobias, Sheikh, M Osman, Toi, Ants, Chitayat, David, Lin, Yung-Yao, Lee, Hane, Stalnaker, Stephanie H, Wang, Shuo, Prabhakar, Pradeep Kumar, Nelson, Stanley F, Stemple, Derek L, Moore, Steven A, Moremen, Kelley W, Campbell, Kevin P, Wells, Lance
Formato: Online Artículo Texto
Lenguaje:English
Publicado: eLife Sciences Publications, Ltd 2016
Materias:
Biochemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4924997/
https://www.ncbi.nlm.nih.gov/pubmed/27130732
http://dx.doi.org/10.7554/eLife.14473
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author Praissman, Jeremy L
Willer, Tobias
Sheikh, M Osman
Toi, Ants
Chitayat, David
Lin, Yung-Yao
Lee, Hane
Stalnaker, Stephanie H
Wang, Shuo
Prabhakar, Pradeep Kumar
Nelson, Stanley F
Stemple, Derek L
Moore, Steven A
Moremen, Kelley W
Campbell, Kevin P
Wells, Lance
author_facet Praissman, Jeremy L
Willer, Tobias
Sheikh, M Osman
Toi, Ants
Chitayat, David
Lin, Yung-Yao
Lee, Hane
Stalnaker, Stephanie H
Wang, Shuo
Prabhakar, Pradeep Kumar
Nelson, Stanley F
Stemple, Derek L
Moore, Steven A
Moremen, Kelley W
Campbell, Kevin P
Wells, Lance
author_sort Praissman, Jeremy L
collection PubMed
description Multiple glycosyltransferases are essential for the proper modification of alpha-dystroglycan, as mutations in the encoding genes cause congenital/limb-girdle muscular dystrophies. Here we elucidate further the structure of an O-mannose-initiated glycan on alpha-dystroglycan that is required to generate its extracellular matrix-binding polysaccharide. This functional glycan contains a novel ribitol structure that links a phosphotrisaccharide to xylose. ISPD is a CDP-ribitol (ribose) pyrophosphorylase that generates the reduced sugar nucleotide for the insertion of ribitol in a phosphodiester linkage to the glycoprotein. TMEM5 is a UDP-xylosyl transferase that elaborates the structure. We demonstrate in a zebrafish model as well as in a human patient that defects in TMEM5 result in muscular dystrophy in combination with abnormal brain development. Thus, we propose a novel structure—a ribitol in a phosphodiester linkage—for the moiety on which TMEM5, B4GAT1, and LARGE act to generate the functional receptor for ECM proteins having LG domains. DOI: http://dx.doi.org/10.7554/eLife.14473.001
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spelling pubmed-49249972016-07-01 The functional O-mannose glycan on α-dystroglycan contains a phospho-ribitol primed for matriglycan addition Praissman, Jeremy L Willer, Tobias Sheikh, M Osman Toi, Ants Chitayat, David Lin, Yung-Yao Lee, Hane Stalnaker, Stephanie H Wang, Shuo Prabhakar, Pradeep Kumar Nelson, Stanley F Stemple, Derek L Moore, Steven A Moremen, Kelley W Campbell, Kevin P Wells, Lance eLife Biochemistry Multiple glycosyltransferases are essential for the proper modification of alpha-dystroglycan, as mutations in the encoding genes cause congenital/limb-girdle muscular dystrophies. Here we elucidate further the structure of an O-mannose-initiated glycan on alpha-dystroglycan that is required to generate its extracellular matrix-binding polysaccharide. This functional glycan contains a novel ribitol structure that links a phosphotrisaccharide to xylose. ISPD is a CDP-ribitol (ribose) pyrophosphorylase that generates the reduced sugar nucleotide for the insertion of ribitol in a phosphodiester linkage to the glycoprotein. TMEM5 is a UDP-xylosyl transferase that elaborates the structure. We demonstrate in a zebrafish model as well as in a human patient that defects in TMEM5 result in muscular dystrophy in combination with abnormal brain development. Thus, we propose a novel structure—a ribitol in a phosphodiester linkage—for the moiety on which TMEM5, B4GAT1, and LARGE act to generate the functional receptor for ECM proteins having LG domains. DOI: http://dx.doi.org/10.7554/eLife.14473.001 eLife Sciences Publications, Ltd 2016-04-29 /pmc/articles/PMC4924997/ /pubmed/27130732 http://dx.doi.org/10.7554/eLife.14473 Text en © 2016, Praissman et al http://creativecommons.org/licenses/by/4.0/ This article is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use and redistribution provided that the original author and source are credited.
spellingShingle Biochemistry
Praissman, Jeremy L
Willer, Tobias
Sheikh, M Osman
Toi, Ants
Chitayat, David
Lin, Yung-Yao
Lee, Hane
Stalnaker, Stephanie H
Wang, Shuo
Prabhakar, Pradeep Kumar
Nelson, Stanley F
Stemple, Derek L
Moore, Steven A
Moremen, Kelley W
Campbell, Kevin P
Wells, Lance
The functional O-mannose glycan on α-dystroglycan contains a phospho-ribitol primed for matriglycan addition
title The functional O-mannose glycan on α-dystroglycan contains a phospho-ribitol primed for matriglycan addition
title_full The functional O-mannose glycan on α-dystroglycan contains a phospho-ribitol primed for matriglycan addition
title_fullStr The functional O-mannose glycan on α-dystroglycan contains a phospho-ribitol primed for matriglycan addition
title_full_unstemmed The functional O-mannose glycan on α-dystroglycan contains a phospho-ribitol primed for matriglycan addition
title_short The functional O-mannose glycan on α-dystroglycan contains a phospho-ribitol primed for matriglycan addition
title_sort functional o-mannose glycan on α-dystroglycan contains a phospho-ribitol primed for matriglycan addition
topic Biochemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4924997/
https://www.ncbi.nlm.nih.gov/pubmed/27130732
http://dx.doi.org/10.7554/eLife.14473
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