NMDAR-dependent Synaptic Plasticity at the Calyx of Held Synapse

Alves, Tanya Luzia

20 November 2012

NMDARs are indispensable for developmental plasticity in the mammalian brain, but their roles in vivo are difficult to ascertain as NMDAR-knockouts are lethal. To circumvent this problem, we utilized NR1-knockdown mice to examine plasticity at the calyx of Held-MNTB synapse in the auditory brainstem. Previous work shows NMDARs at this synapse are rapidly down-regulated following the onset of hearing (P12), leading to the hypothesis that transient NMDAR expression is indispensable for modulating functional and morphological remodelling during development. We tested this by performing electrophysiological recordings, fluorescence tracing in vitro, and auditory brainstem responses in vivo, and surprisingly found that reducing postsynaptic NMDARs appears to promote functional maturation via presynaptic mechanisms in the absence of morphological and acoustic transmission differences in the mature calyx. This suggests a novel role for NMDARs to function as an activity-dependent control for setting the pace of consolidation and maturation in the calyx of Held synapse.

NMDAR

NR1-KD

calyx of Held

glutamatergic synapse

plasticity

development

0719

0317

NMDAR-dependent Synaptic Plasticity at the Calyx of Held Synapse

Alves, Tanya Luzia

20 November 2012

NMDARs are indispensable for developmental plasticity in the mammalian brain, but their roles in vivo are difficult to ascertain as NMDAR-knockouts are lethal. To circumvent this problem, we utilized NR1-knockdown mice to examine plasticity at the calyx of Held-MNTB synapse in the auditory brainstem. Previous work shows NMDARs at this synapse are rapidly down-regulated following the onset of hearing (P12), leading to the hypothesis that transient NMDAR expression is indispensable for modulating functional and morphological remodelling during development. We tested this by performing electrophysiological recordings, fluorescence tracing in vitro, and auditory brainstem responses in vivo, and surprisingly found that reducing postsynaptic NMDARs appears to promote functional maturation via presynaptic mechanisms in the absence of morphological and acoustic transmission differences in the mature calyx. This suggests a novel role for NMDARs to function as an activity-dependent control for setting the pace of consolidation and maturation in the calyx of Held synapse.

NMDAR

NR1-KD

calyx of Held

glutamatergic synapse

plasticity

development

0719

0317