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AMPA glutamate receptors mediate the majority of rapid excitatory synaptic transmission in the central nervous system and play a role in the synaptic plasticity underlying learning and memory. AMPA receptors are heteromeric complexes of four homologous subunits (GluR1-4) that differentially combine to form a variety of AMPA receptor subtypes. These subunits are thought to have a large extracellular amino-terminal domain, three transmembrane domains and an intracellular carboxy-terminal domain. AMPA receptors are localized at excitatory synapses and are not found on adjacent inhibitory synapses enriched in GABA(A) receptors. The targeting of neurotransmitter receptors, such as AMPA receptors, and ion channels to synapses is essential for efficient transmission. A protein motif called a PDZ domain is important in the targeting of a variety of membrane proteins to cell-cell junctions including synapses. Here we identify a synaptic PDZ domain-containing protein GRIP (glutamate receptor interacting protein) that specifically interacts with the C termini of AMPA receptors. GRIP is a new member of the PDZ domain-containing protein family which has seven PDZ domains and no catalytic domain. GRIP appears to serve as an adapter protein that links AMPA receptors to other proteins and may be critical for the clustering of AMPA receptors at excitatory synapses in the brain.
Nerve-induced clustering of the nicotinic acetylcholine receptor (AChR) requires rapsyn, a synaptic peripheral membrane protein, as well as protein-tyrosine kinase activity. Here, we show that rapsyn induces the clustering of the synapse-specific receptor-tyrosine kinase MuSK in transfected QT-6 fibroblasts. Furthermore, rapsyn stimulates the autophosphorylation of MuSK, leading to a subsequent MuSK-dependent increase in cellular tyrosine phosphorylation. Moreover, rapsyn-activated MuSK specifically phosphorylated the AChR beta subunit, the same subunit that is tyrosine phosphorylated during innervation or agrin treatment of muscle. These results suggest rapsyn may mediate the synaptic localization of MuSK in muscle and that MuSK may play an important role in the agrin-induced clustering of the AChR.
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