A novel synaptic junction preparation for the identification and characterization of cleft proteins

Identification of synaptic cleft components has been hampered by the lack of a suitable preparation enriched in synaptic junctions devoid of adjoining peripheral membranes. Prior strategies for the isolation of synaptic junctions, relying on detergents for the removal of peripheral membranes, result...

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Bibliographic Details
Published in:PloS one 2017-03, Vol.12 (3), p.e0174895-e0174895
Main Authors: Burch, Amelia, Tao-Cheng, Jung-Hwa, Dosemeci, Ayse
Format: Article
Language:English
Subjects:
Abundance
Adhesion
Adhesive strength
Alternative splicing
Analysis
Anatomy
Animals
Antibodies
Axon guidance
Axonogenesis
Biochemistry
Biology and Life Sciences
Blotting, Western
Brain
Carbon dioxide
Cell adhesion
Cell adhesion & migration
Cell Adhesion - physiology
Cell adhesion molecules
Centrifugation
Centrifuging
Classification
Compartments
Deglycosylation
Dendritic spines
Detergents
Dilution
Disks Large Homolog 4 Protein
Dopamine
Dopamine receptors
Electron microscopy
Enrichment
EphA4 protein
Forebrain
Fractionation
Hippocampus
Ice
Identification methods
Immunoglobulins
Intracellular Signaling Peptides and Proteins - metabolism
Laboratories
Localization
Long-term potentiation
Lysis
Markers
Medicine and Health Sciences
Membrane proteins
Membrane Proteins - metabolism
Membranes
Methods
Microscopy, Immunoelectron
Nervous system
Neurobiology
Neurological disorders
Neurosciences
Nitrogen
Ontogeny
Pellets
Phospholipase A2
Phospholipases A2 - metabolism
Plasmas (physics)
Proteinase inhibitors
Proteins
Rats
Rats, Sprague-Dawley
Receptor, Metabotropic Glutamate 5 - metabolism
Research and Analysis Methods
Ribonuclease
Rodents
Spine
Stroke
Sucrose
Sugar
Synapses
Synapses - metabolism
Synapses - ultrastructure
Synaptic Membranes - metabolism
Synaptic Membranes - ultrastructure
Tagging
Topographic mapping
Venom
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Description
Summary:Identification of synaptic cleft components has been hampered by the lack of a suitable preparation enriched in synaptic junctions devoid of adjoining peripheral membranes. Prior strategies for the isolation of synaptic junctions, relying on detergents for the removal of peripheral membranes, resulted in substantial loss of membranes lining the cleft. Here, a novel, detergent-free method is described for the preparation of a synaptic junction (SJ) fraction, using phospholipase A2. Limited digestion of synaptic plasma membrane (SPM) fraction with phospholipase A2 followed by centrifugation over a sucrose cushion results in selective removal of membranes peripheral to the cleft while junctional membranes remain relatively intact as observed by electron microscopy. Enrichment in synaptic junctional structures and loss of membranes peripheral to the junctional area are further verified by demonstrating enrichment in PSD-95 and loss in mGluR5, respectively. The SJ fraction is enriched in neuroligins and neurexins, in agreement with immuno-electron microscopy data showing their selective localization to the junctional area. Among additional cell adhesion molecules tested, N-cadherin and specific isoforms of the SynCAM and SALM families also show marked enrichment in the SJ fraction, suggesting preferential localization at the synaptic cleft while others show little enrichment or decrease, suggesting that they are not restricted to or concentrated at the synaptic cleft. Treatment of the SJ fraction with glycosidases results in electrophoretic mobility shifts of all cell adhesion molecules tested, indicating glycosylation at the synaptic cleft. Biochemical and ultrastructural data presented indicate that the novel synaptic junction preparation can be used as a predictive tool for the identification and characterization of the components of the synaptic cleft.
ISSN:1932-6203
1932-6203
DOI:10.1371/journal.pone.0174895