Phosphorylation of ligand-gated ion channels: a possible mode of synaptic plasticity

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Phosphorylation of ligand-gated ion channels: a possible mode of synaptic plasticity

SL Swope, SJ Moss, CD Blackstone and RL Huganir
Department of Neuroscience, Howard Hughes Medical Institute, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205.

Most neurotransmitter receptors examined to date have been shown either to be regulated by protein phosphorylation or to contain consensus sequences for phosphorylation by protein kinases. Neurotransmitter receptors that mediate rapid synaptic transmission in the nervous system are the ligand-gated ion channels and include the nicotinic acetylcholine receptors of muscle and nerve and the excitatory and inhibitory amino acid receptors: the glutamate, GABAA, and glycine receptors. These receptors are multimeric proteins composed of homologous subunits which each span the membrane several times and contain a large intracellular loop that is a mosaic of consensus sites for protein phosphorylation. Recent evidence has suggested that extracellular signals released from the presynaptic neuron, such as neurotransmitters and neuropeptides as well as an extracellular matrix protein, regulate the phosphorylation of ligand-gated ion channels. The functional effects of phosphorylation are varied and include the regulation of receptor desensitization rate, subunit assembly, and receptor aggregation at the synapse. These results suggest that phosphorylation of neurotransmitter receptors represents a major mechanism in the regulation of their function and may play an important role in synaptic plasticity.

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Phosphorylation of ligand-gated ion channels: a possible mode of synaptic plasticity

				W Li, T Tully, and D Kalderon Effects of a conditional Drosophila PKA mutant on olfactory learning and memory. Learn. Mem., January 1, 1996; 2(6): 320 - 333. [Abstract] [PDF]

				M. H. Bureau and J. J. Laschet Endogenous Phosphorylation of Distinct [IMAGE]-Aminobutyric Acid Type A Receptor Polypeptides by Ser/Thr and Tyr Kinase Activities Associated with the Purified Receptor J. Biol. Chem., November 3, 1995; 270(44): 26482 - 26487. [Abstract] [Full Text] [PDF]

				W S Sossin, T C Sacktor, and J H Schwartz Persistent activation of protein kinase C during the development of long-term facilitation in Aplysia. Learn. Mem., January 1, 1994; 1(3): 189 - 202. [Abstract] [PDF]

				L. Wang, F. Taverna, X. Huang, J. MacDonald, and D. Hampson Phosphorylation and modulation of a kainate receptor (GluR6) by cAMP-dependent protein kinase Science, February 19, 1993; 259(5098): 1173 - 1175. [Abstract] [PDF]

				S. Moss, T. Smart, C. Blackstone, and R. Huganir Functional modulation of GABAA receptors by cAMP-dependent protein phosphorylation Science, July 31, 1992; 257(5070): 661 - 665. [Abstract] [PDF]

				S. Ling, G. Woronuk, L. Sy, S. Lev, and A. P. Braun Enhanced Activity of a Large Conductance, Calcium-sensitive K+ Channel in the Presence of Src Tyrosine Kinase J. Biol. Chem., September 22, 2000; 275(39): 30683 - 30689. [Abstract] [Full Text] [PDF]

				R. D. Swayze and A. P. Braun A Catalytically Inactive Mutant of Type I cGMP-dependent Protein Kinase Prevents Enhancement of Large Conductance, Calcium-sensitive K+ Channels by Sodium Nitroprusside and cGMP J. Biol. Chem., June 1, 2001; 276(23): 19729 - 19737. [Abstract] [Full Text] [PDF]