BDNF stabilizes synapses and maintains the structural complexity of optic axons in vivo

doi:10.1242/dev.02017

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Development ePress online publication date 1 Sep 2005
doi: 10.1242/dev.02017

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Research article

BDNF stabilizes synapses and maintains the structural complexity of optic axons in vivo

Bing Hu, Angeliki Maria Nikolakopoulou, and Susana Cohen-Cory^*
^* Author for correspondence (e-mail: scohenco{at}uci.edu)

Brain-derived neurotrophic factor (BDNF) modulates synapticconnectivity by increasing synapse number and by promoting activity-dependentaxon arbor growth. Patterned neuronal activity is also thoughtto influence the morphological maturation of axonal arbors bydirectly influencing the stability of developing synapses. Here,we used in vivo time-lapse imaging to examine the relationshipbetween synapse stabilization and axon branch stabilization,and to better understand the participation of BDNF in synaptogenesis.Green fluorescent protein (GFP)-tagged synaptobrevin II wasused to visualize presynaptic specializations in individualDsRed2-labeled Xenopus retinal axons arborizing in the optictectum. Neutralizing endogenous tectal BDNF with function-blockingantibodies significantly enhanced GFP-synaptobrevin clusterelimination, a response that was paralleled by enhanced branchelimination. Thus, synapse dismantling was associated with axonbranch pruning when endogenous BDNF levels were reduced. Toobtain a second measure of the role of BDNF during synapse stabilization,we injected recombinant BDNF in tadpoles with altered glutamatereceptor transmission in the optic tectum. Tectal injectionof the NMDA receptor antagonists APV or MK801 transiently inducedGFP-synaptobrevin cluster dismantling, but did not significantlyinfluence axon branch addition or elimination. BDNF treatmentrescued synapses affected by NMDA receptor blockade: BDNF maintainedGFP-synaptobrevin cluster density by maintaining their additionrate and rapidly inducing their stabilization. Consequently,BDNF influences synaptic connectivity in multiple ways, promotingnot only the morphological maturation of axonal arbors, butalso their stabilization, by a mechanism that influences bothsynapses and axon branches.

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