An NMDA Receptor-Dependent Mechanism Underlies Inhibitory Synapse Development

An NMDA Receptor-Dependent Mechanism Underlies Inhibitory Synapse Development

Blog Article

In the mammalian brain, GABAergic synaptic transmission provides inhibitory balance to glutamatergic excitatory drive and controls neuronal output.The molecular mechanisms underlying the equi-jec 7 development of GABAergic synapses remain largely unclear.Here, we report that NMDA-type ionotropic glutamate receptors (NMDARs) in individual immature neurons are the upstream signaling molecules essential for GABAergic synapse development, which requires signaling via Calmodulin binding motif in the C0 domain of the NMDAR GluN1 subunit.

Interestingly, in neurons lacking NMDARs, whereas GABAergic synaptic transmission is strongly reduced, the tonic inhibition mediated by ashy bines protein powder extrasynaptic GABAA receptors is increased, suggesting a compensatory mechanism for the lack of synaptic inhibition.These results demonstrate a crucial role for NMDARs in specifying the development of inhibitory synapses, and suggest an important mechanism for controlling the establishment of the balance between synaptic excitation and inhibition in the developing brain.