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Heparan Sulfate Organizes Neuronal Synapses through Neurexin Partnerships

Synapses are fundamental units of communication in the brain. The prototypical synapse-organizing complex neurexin-neuroligin mediates synapse development and function and is central to a shared genetic risk pathway in autism and schizophrenia. Neurexin’s role in synapse development is thought to be...

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Autores principales: Zhang, Peng, Lu, Hong, Peixoto, Rui T., Pines, Mary K., Ge, Yuan, Oku, Shinichiro, Siddiqui, Tabrez J., Xie, Yicheng, Wu, Wenlan, Archer-Hartmann, Stephanie, Yoshida, Keitaro, Tanaka, Kenji F., Aricescu, A. Radu, Azadi, Parastoo, Gordon, Michael D., Sabatini, Bernardo L., Wong, Rachel O.L., Craig, Ann Marie
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2018
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6173057/
https://www.ncbi.nlm.nih.gov/pubmed/30100184
http://dx.doi.org/10.1016/j.cell.2018.07.002
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author Zhang, Peng
Lu, Hong
Peixoto, Rui T.
Pines, Mary K.
Ge, Yuan
Oku, Shinichiro
Siddiqui, Tabrez J.
Xie, Yicheng
Wu, Wenlan
Archer-Hartmann, Stephanie
Yoshida, Keitaro
Tanaka, Kenji F.
Aricescu, A. Radu
Azadi, Parastoo
Gordon, Michael D.
Sabatini, Bernardo L.
Wong, Rachel O.L.
Craig, Ann Marie
author_facet Zhang, Peng
Lu, Hong
Peixoto, Rui T.
Pines, Mary K.
Ge, Yuan
Oku, Shinichiro
Siddiqui, Tabrez J.
Xie, Yicheng
Wu, Wenlan
Archer-Hartmann, Stephanie
Yoshida, Keitaro
Tanaka, Kenji F.
Aricescu, A. Radu
Azadi, Parastoo
Gordon, Michael D.
Sabatini, Bernardo L.
Wong, Rachel O.L.
Craig, Ann Marie
author_sort Zhang, Peng
collection PubMed
description Synapses are fundamental units of communication in the brain. The prototypical synapse-organizing complex neurexin-neuroligin mediates synapse development and function and is central to a shared genetic risk pathway in autism and schizophrenia. Neurexin’s role in synapse development is thought to be mediated purely by its protein domains, but we reveal a requirement for a rare glycan modification. Mice lacking heparan sulfate (HS) on neurexin-1 show reduced survival, as well as structural and functional deficits at central synapses. HS directly binds postsynaptic partners neuroligins and LRRTMs, revealing a dual binding mode involving intrinsic glycan and protein domains for canonical synapse-organizing complexes. Neurexin HS chains also bind novel ligands, potentially expanding the neurexin interactome to hundreds of HS-binding proteins. Because HS structure is heterogeneous, our findings indicate an additional dimension to neurexin diversity, provide a molecular basis for fine-tuning synaptic function, and open therapeutic directions targeting glycan-binding motifs critical for brain development.
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spelling pubmed-61730572018-10-10 Heparan Sulfate Organizes Neuronal Synapses through Neurexin Partnerships Zhang, Peng Lu, Hong Peixoto, Rui T. Pines, Mary K. Ge, Yuan Oku, Shinichiro Siddiqui, Tabrez J. Xie, Yicheng Wu, Wenlan Archer-Hartmann, Stephanie Yoshida, Keitaro Tanaka, Kenji F. Aricescu, A. Radu Azadi, Parastoo Gordon, Michael D. Sabatini, Bernardo L. Wong, Rachel O.L. Craig, Ann Marie Cell Article Synapses are fundamental units of communication in the brain. The prototypical synapse-organizing complex neurexin-neuroligin mediates synapse development and function and is central to a shared genetic risk pathway in autism and schizophrenia. Neurexin’s role in synapse development is thought to be mediated purely by its protein domains, but we reveal a requirement for a rare glycan modification. Mice lacking heparan sulfate (HS) on neurexin-1 show reduced survival, as well as structural and functional deficits at central synapses. HS directly binds postsynaptic partners neuroligins and LRRTMs, revealing a dual binding mode involving intrinsic glycan and protein domains for canonical synapse-organizing complexes. Neurexin HS chains also bind novel ligands, potentially expanding the neurexin interactome to hundreds of HS-binding proteins. Because HS structure is heterogeneous, our findings indicate an additional dimension to neurexin diversity, provide a molecular basis for fine-tuning synaptic function, and open therapeutic directions targeting glycan-binding motifs critical for brain development. Cell Press 2018-09-06 /pmc/articles/PMC6173057/ /pubmed/30100184 http://dx.doi.org/10.1016/j.cell.2018.07.002 Text en © 2018 The Authors. Published by Elsevier Inc. http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Zhang, Peng
Lu, Hong
Peixoto, Rui T.
Pines, Mary K.
Ge, Yuan
Oku, Shinichiro
Siddiqui, Tabrez J.
Xie, Yicheng
Wu, Wenlan
Archer-Hartmann, Stephanie
Yoshida, Keitaro
Tanaka, Kenji F.
Aricescu, A. Radu
Azadi, Parastoo
Gordon, Michael D.
Sabatini, Bernardo L.
Wong, Rachel O.L.
Craig, Ann Marie
Heparan Sulfate Organizes Neuronal Synapses through Neurexin Partnerships
title Heparan Sulfate Organizes Neuronal Synapses through Neurexin Partnerships
title_full Heparan Sulfate Organizes Neuronal Synapses through Neurexin Partnerships
title_fullStr Heparan Sulfate Organizes Neuronal Synapses through Neurexin Partnerships
title_full_unstemmed Heparan Sulfate Organizes Neuronal Synapses through Neurexin Partnerships
title_short Heparan Sulfate Organizes Neuronal Synapses through Neurexin Partnerships
title_sort heparan sulfate organizes neuronal synapses through neurexin partnerships
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6173057/
https://www.ncbi.nlm.nih.gov/pubmed/30100184
http://dx.doi.org/10.1016/j.cell.2018.07.002
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