Ion channel targeting in neurons
- 1 October 1997
- Vol. 19 (10), 847-853
- https://doi.org/10.1002/bies.950191004
Abstract
Electrical signaling by neurons depends on the precisely ordered distribution of a wide variety of ion channels on the neuronal surface. The mechanisms underlying the targeting of particular classes of ion channels to specific subcellular sites are poorly understood. Recent studies have identified a new class of protein‐protein interaction mediated by PDZ domains, protein binding modules that recognize specific sequences at the C terminus of membrane proteins. The PDZ domains of a family of synaptic cytoskeleton‐associated proteins, typified by PSD‐95, bind to the intracellular C‐terminal tails of NMDA receptors and Shaker‐type K+ channels. This interaction appears to be important in the clustering and localization of these ion channels at synaptic sites. Recognition of specific C‐terminal peptide sequences by different PDZ domain‐containing proteins may be a general mechanism for differential targeting of proteins to a variety of subcellular locations.Keywords
This publication has 63 references indexed in Scilit:
- Requirement for the PDZ Domain Protein, INAD, for Localization of the TRP Store-Operated Channel to a Signaling ComplexNeuron, 1997
- Differential K+ Channel Clustering Activity of PSD-95 and SAP97, Two Related Membrane-associated Putative Guanylate KinasesNeuropharmacology, 1996
- Ion channel associated proteinsCurrent Opinion in Neurobiology, 1996
- SAP102, a Novel Postsynaptic Protein That Interacts with NMDA Receptor Complexes In VivoNeuron, 1996
- Interaction of the N-Methyl—aspartate Receptor Complex with a Novel Synapse-associated Protein, SAP102Published by Elsevier ,1996
- The Drosophila Light-Activated Conductance Is Composed of the Two Channels TRP and TRPLCell, 1996
- Clustering of Shaker-type K+ channels by interaction with a family of membrane-associated guanylate kinasesNature, 1995
- The inhibitory glycine receptor: architecture, synaptic localization and molecular pathology of a postsynaptic ion-channel complexCurrent Opinion in Neurobiology, 1995
- A novel protein encoded by the inad gene regulates recovery of visual transduction in drosophilaNeuron, 1995
- Developmental expression of neural cell type‐specific mRNA markers in the myelin‐deficient mutant rat brain: Inhibition of oligodendrocyte differentiationJournal of Neuroscience Research, 1988