BDNF regulates spontaneous correlated activity at early developmental stages by increasing synaptogenesis and expression of the K+/Cl- co-transporter KCC2

doi:10.1242/dev.00351

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doi: 10.1242/10.1242/dev.00351

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Development 130, 1267-1280 (2003)
Copyright © 2003 The Company of Biologists Limited

BDNF regulates spontaneous correlated activity at early developmental stages by increasing synaptogenesis and expression of the K⁺/Cl^- co-transporter KCC2

Fernando Aguado¹^,*, Maria A. Carmona¹^,*, Esther Pozas¹, Agustín Aguiló¹, Francisco J. Martínez-Guijarro², Soledad Alcantara¹, Victor Borrell¹, Rafael Yuste³, Carlos F. Ibañez⁴ and Eduardo Soriano¹^,

^¹ Department of Cell Biology Faculty of Biology, and Barcelona Science Park, University of Barcelona, Barcelona 08028, Spain
^² Department of Cell Biology, Faculty of Biological Sciences, University of Valencia, 46100 Burjassot, Spain
^³ Department of Biological Sciences, Columbia University, New York, New York 10027, USA
^⁴ Department of Neurosciences, Karolinska Institute, Stockholm 17177, Sweden

Author for correspondence (e-mail: soriano{at}porthos.bio.ub.es)

Accepted 18 December 2002

Spontaneous neural activity is a basic property of the developingbrain, which regulates key developmental processes, includingmigration, neural differentiation and formation and refinementof connections. The mechanisms regulating spontaneous activityare not known. By using transgenic embryos that overexpressBDNF under the control of the nestin promoter, we show herethat BDNF controls the emergence and robustness of spontaneous activityin embryonic hippocampal slices. Further, BDNF dramaticallyincreases spontaneous co-active network activity, which is believedto synchronize gene expression and synaptogenesis in vast numbersof neurons. In fact, BDNF raises the spontaneous activity ofE18 hippocampal neurons to levels that are typical of postnatalslices.

We also show that BDNF overexpression increases the number ofsynapses at much earlier stages (E18) than those reported previously.Most of these synapses were GABAergic, and GABAergic interneuronsshowed hypertrophy and a 3-fold increase in GAD expression.Interestingly, whereas BDNF does not alter the expression ofGABA and glutamate ionotropic receptors, it does raise the expressionof the recently cloned K⁺/Cl^- KCC2 co-transporter, which isresponsible for the conversion of GABA responses from depolarizingto inhibitory, through the control of the Cl^- potential. Together,results indicate that both the presynaptic and postsynapticmachineries of GABAergic circuits may be essential targets of BDNFactions to control spontaneous activity. The data indicate thatBDNF is a potent regulator of spontaneous activity and co-activenetworks, which is a new level of regulation of neurotrophins.Given that BDNF itself is regulated by neuronal activity, wesuggest that BDNF acts as a homeostatic factor controlling theemergence, complexity and networking properties of spontaneous networks.

Key words: Synaptogenesis, KCC2, Spontaneous activity, CNS, BDNF, Mouse, GABA, Ca²⁺ oscillations

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