Necl2/3-mediated mechanism for tripartite synapse formation
- PMID: 36458527
- DOI: 10.1242/dev.200931
Necl2/3-mediated mechanism for tripartite synapse formation
Abstract
Ramified, polarized protoplasmic astrocytes interact with synapses via perisynaptic astrocyte processes (PAPs) to form tripartite synapses. These astrocyte-synapse interactions mutually regulate their structures and functions. However, molecular mechanisms for tripartite synapse formation remain elusive. We developed an in vitro co-culture system for mouse astrocytes and neurons that induced astrocyte ramifications and PAP formation. Co-cultured neurons were required for astrocyte ramifications in a neuronal activity-dependent manner, and synaptically-released glutamate and activation of astrocytic mGluR5 metabotropic glutamate receptor were likely involved in astrocyte ramifications. Astrocytic Necl2 trans-interacted with axonal Necl3, inducing astrocyte-synapse interactions and astrocyte functional polarization by recruiting EAAT1/2 glutamate transporters and Kir4.1 K+ channel to the PAPs, without affecting astrocyte ramifications. This Necl2/3 trans-interaction increased functional synapse number. Thus, astrocytic Necl2, synaptically-released glutamate and axonal Necl3 cooperatively formed tripartite glutamatergic synapses in vitro. Studies on hippocampal mossy fiber synapses in Necl3 knockout and Necl2/3 double knockout mice confirmed these previously unreported mechanisms for astrocyte-synapse interactions and astrocyte functional polarization in vivo.
Keywords: Astrocyte; Cell adhesion molecule; Glutamate transporter; Necl; Neuron; Tripartite synapse.
© 2023. Published by The Company of Biologists Ltd.
Conflict of interest statement
Competing interests O.N. is currently employed at Nissan Chemical Corporation. M.K. is currently employed at Eisai Co. All other authors declare no potential conflicts of interest.
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