Literature DB >> 27965136

Activity-dependent proteolytic cleavage of cell adhesion molecules regulates excitatory synaptic development and function.

Sivapratha Nagappan-Chettiar1, Erin M Johnson-Venkatesh2, Hisashi Umemori3.   

Abstract

Activity-dependent remodeling of neuronal connections is critical to nervous system development and function. These processes rely on the ability of synapses to detect neuronal activity and translate it into the appropriate molecular signals. One way to convert neuronal activity into downstream signaling is the proteolytic cleavage of cell adhesion molecules (CAMs). Here we review studies demonstrating the mechanisms by which proteolytic processing of CAMs direct the structural and functional remodeling of excitatory glutamatergic synapses during development and plasticity. Specifically, we examine how extracellular proteolytic cleavage of CAMs switches on or off molecular signals to 1) permit, drive, or restrict synaptic maturation during development and 2) strengthen or weaken synapses during adult plasticity. We will also examine emerging studies linking improper activity-dependent proteolytic processing of CAMs to neurological disorders such as schizophrenia, brain tumors, and Alzheimer's disease. Together these findings suggest that the regulation of activity-dependent proteolytic cleavage of CAMs is vital to proper brain development and lifelong function.
Copyright © 2016 Elsevier Ireland Ltd and Japan Neuroscience Society. All rights reserved.

Entities:  

Keywords:  Cell adhesion molecules; Neuronal activity; Proteolytic cleavage; Synaptic development; Synaptic plasticity

Mesh:

Substances:

Year:  2016        PMID: 27965136      PMCID: PMC5376514          DOI: 10.1016/j.neures.2016.12.003

Source DB:  PubMed          Journal:  Neurosci Res        ISSN: 0168-0102            Impact factor:   3.304


  84 in total

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2.  Tyrosine phosphorylation of the transmembrane protein SIRPα: Sensing synaptic activity and regulating ectodomain cleavage for synapse maturation.

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8.  Depolarization-dependent Induction of Site-specific Changes in Sialylation on N-linked Glycoproteins in Rat Nerve Terminals.

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Review 9.  Fragile X Mental Retardation Protein Regulates Activity-Dependent Membrane Trafficking and Trans-Synaptic Signaling Mediating Synaptic Remodeling.

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Review 10.  Pathophysiology of Trans-Synaptic Adhesion Molecules: Implications for Epilepsy.

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