PLoS Biology (Sep 2006)

Local sharing as a predominant determinant of synaptic matrix molecular dynamics.

  • Shlomo Tsuriel,
  • Ran Geva,
  • Pedro Zamorano,
  • Thomas Dresbach,
  • Tobias Boeckers,
  • Eckart D Gundelfinger,
  • Craig C Garner,
  • Noam E Ziv

DOI
https://doi.org/10.1371/journal.pbio.0040271
Journal volume & issue
Vol. 4, no. 9
p. e271

Abstract

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Recent studies suggest that central nervous system synapses can persist for weeks, months, perhaps lifetimes, yet little is known as to how synapses maintain their structural and functional characteristics for so long. As a step toward a better understanding of synaptic maintenance we examined the loss, redistribution, reincorporation, and replenishment dynamics of Synapsin I and ProSAP2/Shank3, prominent presynaptic and postsynaptic matrix molecules, respectively. Fluorescence recovery after photobleaching and photoactivation experiments revealed that both molecules are continuously lost from, redistributed among, and reincorporated into synaptic structures at time-scales of minutes to hours. Exchange rates were not affected by inhibiting protein synthesis or proteasome-mediated protein degradation, were accelerated by stimulation, and greatly exceeded rates of replenishment from somatic sources. These findings indicate that the dynamics of key synaptic matrix molecules may be dominated by local protein exchange and redistribution, whereas protein synthesis and degradation serve to maintain and regulate the sizes of local, shared pools of these proteins.