Mutations in Membrin/GOSR2 Reveal Stringent Secretory Pathway Demands of Dendritic Growth and Synaptic Integrity

Mutations in Membrin/GOSR2 Reveal Stringent Secretory Pathway Demands of Dendritic Growth and Synaptic Integrity

Mutations in the Golgi SNARE (SNAP [soluble NSF attachment protein] receptor) protein Membrin (encoded by the GOSR2 gene) cause progressive myoclonus epilepsy (PME). Membrin is a ubiquitous and essential protein mediating ER-to-Golgi membrane fusion. Thus, it is unclear how mutations in Membrin resu...

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Main Authors: Roman Praschberger, Simon A. Lowe, Nancy T. Malintan, Carlo N.G. Giachello, Nian Patel, Henry Houlden, Dimitri M. Kullmann, Richard A. Baines, Maria M. Usowicz, Shyam S. Krishnakumar, James J.L. Hodge, James E. Rothman, James E.C. Jepson
Format: Article
Language:English
Published: Elsevier 2017-10-01
Series:Cell Reports
Subjects:
Membrin
GOSR2
GS27
progressive myoclonus epilepsy
dendrite growth
synaptic integrity
Online Access:http://www.sciencedirect.com/science/article/pii/S2211124717312652
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spelling doaj-8d9b11dd09d141658c999a9be32e95ef2020-11-25T01:32:30ZengElsevierCell Reports2211-12472017-10-012119710910.1016/j.celrep.2017.09.004Mutations in Membrin/GOSR2 Reveal Stringent Secretory Pathway Demands of Dendritic Growth and Synaptic IntegrityRoman Praschberger0Simon A. Lowe1Nancy T. Malintan2Carlo N.G. Giachello3Nian Patel4Henry Houlden5Dimitri M. Kullmann6Richard A. Baines7Maria M. Usowicz8Shyam S. Krishnakumar9James J.L. Hodge10James E. Rothman11James E.C. Jepson12Department of Clinical and Experimental Epilepsy, UCL Institute of Neurology, London, UKSchool of Physiology, Pharmacology, and Neuroscience, University of Bristol, Bristol, UKDepartment of Clinical and Experimental Epilepsy, UCL Institute of Neurology, London, UKFaculty of Biology, Medicine, and Health, Division of Neuroscience & Experimental Psychology, Manchester Academic Health Science Centre, University of Manchester, Manchester, UKDepartment of Clinical and Experimental Epilepsy, UCL Institute of Neurology, London, UKDepartment of Molecular Neuroscience, UCL Institute of Neurology, London, UKDepartment of Clinical and Experimental Epilepsy, UCL Institute of Neurology, London, UKFaculty of Biology, Medicine, and Health, Division of Neuroscience & Experimental Psychology, Manchester Academic Health Science Centre, University of Manchester, Manchester, UKSchool of Physiology, Pharmacology, and Neuroscience, University of Bristol, Bristol, UKDepartment of Clinical and Experimental Epilepsy, UCL Institute of Neurology, London, UKSchool of Physiology, Pharmacology, and Neuroscience, University of Bristol, Bristol, UKDepartment of Clinical and Experimental Epilepsy, UCL Institute of Neurology, London, UKDepartment of Clinical and Experimental Epilepsy, UCL Institute of Neurology, London, UKMutations in the Golgi SNARE (SNAP [soluble NSF attachment protein] receptor) protein Membrin (encoded by the GOSR2 gene) cause progressive myoclonus epilepsy (PME). Membrin is a ubiquitous and essential protein mediating ER-to-Golgi membrane fusion. Thus, it is unclear how mutations in Membrin result in a disorder restricted to the nervous system. Here, we use a multi-layered strategy to elucidate the consequences of Membrin mutations from protein to neuron. We show that the pathogenic mutations cause partial reductions in SNARE-mediated membrane fusion. Importantly, these alterations were sufficient to profoundly impair dendritic growth in Drosophila models of GOSR2-PME. Furthermore, we show that Membrin mutations cause fragmentation of the presynaptic cytoskeleton coupled with transsynaptic instability and hyperactive neurotransmission. Our study highlights how dendritic growth is vulnerable even to subtle secretory pathway deficits, uncovers a role for Membrin in synaptic function, and provides a comprehensive explanatory basis for genotype-phenotype relationships in GOSR2-PME.http://www.sciencedirect.com/science/article/pii/S2211124717312652MembrinGOSR2GS27progressive myoclonus epilepsydendrite growthsynaptic integrity
collection DOAJ
language English
format Article
sources DOAJ
author Roman Praschberger
Simon A. Lowe
Nancy T. Malintan
Carlo N.G. Giachello
Nian Patel
Henry Houlden
Dimitri M. Kullmann
Richard A. Baines
Maria M. Usowicz
Shyam S. Krishnakumar
James J.L. Hodge
James E. Rothman
James E.C. Jepson
spellingShingle Roman Praschberger
Simon A. Lowe
Nancy T. Malintan
Carlo N.G. Giachello
Nian Patel
Henry Houlden
Dimitri M. Kullmann
Richard A. Baines
Maria M. Usowicz
Shyam S. Krishnakumar
James J.L. Hodge
James E. Rothman
James E.C. Jepson
Mutations in Membrin/GOSR2 Reveal Stringent Secretory Pathway Demands of Dendritic Growth and Synaptic Integrity
Cell Reports
Membrin
GOSR2
GS27
progressive myoclonus epilepsy
dendrite growth
synaptic integrity
author_facet Roman Praschberger
Simon A. Lowe
Nancy T. Malintan
Carlo N.G. Giachello
Nian Patel
Henry Houlden
Dimitri M. Kullmann
Richard A. Baines
Maria M. Usowicz
Shyam S. Krishnakumar
James J.L. Hodge
James E. Rothman
James E.C. Jepson
author_sort Roman Praschberger
title Mutations in Membrin/GOSR2 Reveal Stringent Secretory Pathway Demands of Dendritic Growth and Synaptic Integrity
title_short Mutations in Membrin/GOSR2 Reveal Stringent Secretory Pathway Demands of Dendritic Growth and Synaptic Integrity
title_full Mutations in Membrin/GOSR2 Reveal Stringent Secretory Pathway Demands of Dendritic Growth and Synaptic Integrity
title_fullStr Mutations in Membrin/GOSR2 Reveal Stringent Secretory Pathway Demands of Dendritic Growth and Synaptic Integrity
title_full_unstemmed Mutations in Membrin/GOSR2 Reveal Stringent Secretory Pathway Demands of Dendritic Growth and Synaptic Integrity
title_sort mutations in membrin/gosr2 reveal stringent secretory pathway demands of dendritic growth and synaptic integrity
publisher Elsevier
series Cell Reports
issn 2211-1247
publishDate 2017-10-01
description Mutations in the Golgi SNARE (SNAP [soluble NSF attachment protein] receptor) protein Membrin (encoded by the GOSR2 gene) cause progressive myoclonus epilepsy (PME). Membrin is a ubiquitous and essential protein mediating ER-to-Golgi membrane fusion. Thus, it is unclear how mutations in Membrin result in a disorder restricted to the nervous system. Here, we use a multi-layered strategy to elucidate the consequences of Membrin mutations from protein to neuron. We show that the pathogenic mutations cause partial reductions in SNARE-mediated membrane fusion. Importantly, these alterations were sufficient to profoundly impair dendritic growth in Drosophila models of GOSR2-PME. Furthermore, we show that Membrin mutations cause fragmentation of the presynaptic cytoskeleton coupled with transsynaptic instability and hyperactive neurotransmission. Our study highlights how dendritic growth is vulnerable even to subtle secretory pathway deficits, uncovers a role for Membrin in synaptic function, and provides a comprehensive explanatory basis for genotype-phenotype relationships in GOSR2-PME.
topic Membrin
GOSR2
GS27
progressive myoclonus epilepsy
dendrite growth
synaptic integrity
url http://www.sciencedirect.com/science/article/pii/S2211124717312652
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