Journal
JOURNAL OF CELL BIOLOGY
Volume 175, Issue 3, Pages 491-503Publisher
ROCKEFELLER UNIV PRESS
DOI: 10.1083/jcb.200607036
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Funding
- NINDS NIH HHS [NS047342, R37 NS047342, R01 NS047342] Funding Source: Medline
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Synaptic connections are established with characteristic, cell type-specific size and spacing. In this study, we document a role for the postsynaptic Spectrin skeleton in this process. We use transgenic double-stranded RNA to selectively eliminate alpha-Spectrin, beta-Spectrin, or Ankyrin. In the absence of postsynaptic alpha- or beta-Spectrin, active zone size is increased and spacing is perturbed. In addition, subsynaptic muscle membranes are significantly altered. However, despite these changes, the subdivision of the synapse into active zone and periactive zone domains remains intact, both pre- and postsynaptically. Functionally, altered active zone dimensions correlate with an increase in quantal size without a change in presynaptic vesicle size. Mechanistically, beta-Spectrin is required for the localization of alpha-Spectrin and Ankyrin to the postsynaptic membrane. Although Ankyrin is not required for the localization of the Spectrin skeleton to the neuromuscular junction, it contributes to Spectrin-mediated synapse development. We propose a model in which a postsynaptic Spectrin-actin lattice acts as an organizing scaffold upon which pre- and postsynaptic development are arranged.
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