BDNF Enhances Electrophysiological Activity and Excitatory Synaptic Transmission of RA Projection Neurons in Adult Male Zebra Finches

The singing of songbirds is a complex vocal behavior. It was reported that brain-derived neurotrophic factor (BDNF), a key neurotrophic factor involved in neuronal survival and activity, plays an important role in regulation of songbirds' song behavior. In all song-related nuclei, the electrophysiological activity of robust nucleus of the arcopallium (RA) in the forebrain of songbirds is directly related to birdsong output. Whether BDNF regulates the electrophysiological activity and synaptic transmission of RA causing the change of song behavior need be further explored. In this study, the effects of BDNF on the electrophysiological activity and excitatory synaptic transmission of RA projection neurons (PNs) in adult male zebra finches were investigated using whole-cell patch clamp recordings in vitro. Our results showed that BDNF increase d the firing of evoked action potentials in RA PNs and decreased the membrane input resistance and membrane time constant of RA PNs, indicating that BDNF can promote RA PNs excitability by reducing membrane input resistance and membrane time constant. Meanwhile, BDNF increased the frequency rather than amplitude of miniature excitatory postsynaptic currents (mEPSCs) in RA PNs. Moreover, the effects of BDNF on the excitability, intrinsic membrane properties and mEPSCs of RA PNs were blocked by its receptor TrkB antagonist K252a. These results indicate that BDNF via TrkB enhances the excitability and excitatory synaptic transmission of RA PNs in adult male songbirds through presynaptic mechanisms, suggesting a possible cellular mechanism by which BDNF regulates song behavior.