Profilin2 contributes to synaptic vesicle exocytosis, neuronal excitability, and novelty-seeking behavior

Profilin2 contributes to synaptic vesicle exocytosis, neuronal excitability, and novelty-seeking behavior

Profilins are actin binding proteins essential for regulating cytoskeletal dynamics, however, their function in the mammalian nervous system is unknown. Here, we provide evidence that in mouse brain profilin1 and profilin2 have distinct roles in regulating synaptic actin polymerization with profilin...

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Veröffentlicht in:The EMBO journal 2007-06, Vol.26 (12), p.2991-3002
Hauptverfasser: Pilo Boyl, Pietro, Di Nardo, Alessia, Mulle, Christophe, Sassoè-Pognetto, Marco, Panzanelli, Patrizia, Mele, Andrea, Kneussel, Matthias, Costantini, Vivian, Perlas, Emerald, Massimi, Marzia, Vara, Hugo, Giustetto, Maurizio, Witke, Walter
Format: Artikel
Sprache:eng
Schlagworte:
actin binding proteins
Animals
Behavior, Animal - physiology
Brain
EMBO05
EMBO27
Exocytosis - physiology
Learning
Long-Term Potentiation
Mammals
Memory
Mice
Neurons - physiology
Neurosciences
neurotransmitter release
Neurotransmitters
Physiology
Polymerization
profilin2
Profilins - physiology
Proteins
Rodents
Signal transduction
synaptic actin polymerization
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Zusammenfassung:Profilins are actin binding proteins essential for regulating cytoskeletal dynamics, however, their function in the mammalian nervous system is unknown. Here, we provide evidence that in mouse brain profilin1 and profilin2 have distinct roles in regulating synaptic actin polymerization with profilin2 preferring a WAVE‐complex‐mediated pathway. Mice lacking profilin2 show a block in synaptic actin polymerization in response to depolarization, which is accompanied by increased synaptic excitability of glutamatergic neurons due to higher vesicle exocytosis. These alterations in neurotransmitter release correlate with a hyperactivation of the striatum and enhanced novelty‐seeking behavior in profilin2 mutant mice. Our results highlight a novel, profilin2‐dependent pathway, regulating synaptic physiology, neuronal excitability, and complex behavior.
ISSN:0261-4189
1460-2075
DOI:10.1038/sj.emboj.7601737