Post-translational covalent modifications of glutamate receptors remain a hot topic. Early studies have established that this family of receptors, including almost all ionotropic and metabotropic glutamate receptor subtypes, undergoes active phosphorylation at serine, threonine, or tyrosine residues in their intracellular domains. Recent evidence identifies several glutamate receptor subtypes to be direct substrates for palmitoylation at cysteine residues. Other modifications such as ubiquitination and sumoylation at lysine residues also occur to certain glutamate receptors. These modifications are dynamic and reversible in nature and are regulatable by changing synaptic inputs. The regulated modifications significantly impact the receptor in many ways, including interrelated changes in biochemistry (synthesis, subunit assembling, and protein–protein interactions), subcellular redistribution (trafficking, endocytosis, synaptic delivery, and clustering), and physiology, usually associated with changes in synaptic plasticity. Glutamate receptors are enriched in the striatum and cooperate closely with dopamine to regulate striatal signaling. Emerging evidence shows that modification processes of striatal glutamate receptors are sensitive to addictive drugs, such as psychostimulants (cocaine and amphetamine). Altered modifications are believed to be directly linked to enduring receptor/synaptic plasticity and drug-seeking. This review summarizes several major types of modifications of glutamate receptors and analyzes the role of these modifications in striatal signaling and in the pathogenesis of psychostimulant addiction

Choe, Eun Sang

Fibuch, Eugene E.

Guo, Ming-Lei

Jin, Dao-Zhong

Mao, Li-Min

Wang, John Q.

English

PubMed

Posttranslational covalent modifications of glutamate receptors remain a hot topic.  Early studies have established that this family of receptors, including almost all ionotropic and metabotropic glutamate receptor subtypes, undergoes active phosphorylation at serine, threonine, or tyrosine residues on their intracellular domains.  Recent evidence identifies several glutamate receptor subtypes to be direct substrates for palmitoylation at cysteine residues.  Other modifications such as ubiquitination and sumoylation at lysine residues also occur to certain glutamate receptors.  These modifications are dynamic and reversible in nature and are regulatable by changing synaptic inputs.  The regulated modifications significantly impact the receptor in many ways, including interrelated changes in biochemistry (synthesis, subunit assembling and protein-protein interactions), subcellular redistribution (trafficking, endocytosis, synaptic delivery and clustering), and physiology, usually associated with changes in synaptic plasticity.  Glutamate receptors are enriched in the striatum and cooperate closely with dopamine to regulate striatal signaling.  Emerging evidence shows that modification processes of striatal glutamate receptors are sensitive to addictive drugs, such as psychostimulants (cocaine and amphetamines).  Altered modifications are believed to be directly linked to enduring receptor/synaptic plasticity and drug-seeking.  This review summarizes several major types of modifications of glutamate receptors and analyzes the role of these modifications in striatal signaling and in the pathogenesis of psychostimulant addiction

Li-Min eMao

Ming-Lei eGuo

Dao-Zhong eJin

Eugene E Fibuch

Eun Sang eChoe

John Q Wang

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Frontiers in Neuroanatomy

Posttranslational Modification Biology of Glutamate Receptors and Drug Addiction

Li-Min Mao

Ming-Lei Guo

Dao-Zhong Jin

Eugene E. Fibuch

Eun Sang Choe

John Q. Wang

Frontiers - Publisher Connector

Post-Translational Modification Biology of Glutamate Receptors and Drug Addiction

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A striatum-enriched small G-protein ras homolog enriched in striatum (Rhes) has recently been found to act as a physiological regulator of protein sumoylation (Subramaniam et al.,

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cAMP-dependent protein kinase inhibits mGluR2 coupling to G-proteins by direct receptor phosphorylation.

Casein kinase 2 regulates the NR2 subunit composition of synaptic NMDA receptors.

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Characterization of Fyn-mediated tyrosine phosphorylation sites on GluR epsilon 2 (NR2B) subunit of the N-methyl-d-aspartate receptor.

Characterization of multiple phosphorylation sites on the AMPA receptor GluR1 subunit.

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Chronic cocaine reduced GluN1 S896 phosphorylation in the rat frontal cortex at 24 h, although not 14 days, of withdrawal (Loftis and Janowsky,

Cocaine treatment- and withdrawalinduced alterations in the expression and serine phosphorylation of the NR1 NMDA receptor subunit.

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Cyclic AMP-dependent protein kinase phosphorylates group III metabotropic glutamate receptors and inhibits their function as presynaptic receptors.

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D1 dopamine receptorinduced cyclic AMP-dependent protein kinase phosphorylation and potentiation of striatal glutamate receptors.

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doi: 10.3389/ fnana.2011.00019 Copyright ©

Dopamine D1 activation potentiates striatal NMDA receptors by tyrosine phosphorylation-dependent subunit trafficking.

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Dopamine D1 receptors mediate CREB phosphorylation via phosphorylation of the NMDA receptor at Ser897-NR1.

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Dopamine receptors regulate NMDA receptor surface expression in prefrontal cortex neurons.

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Early work focused on nuclear proteins. It is now appreciated that proteins in all subcellular compartments are subject to sumoylation, including synaptic proteins such as glutamate receptors (Scheschonka et al., 2007; Sen and Snyder,

Effects of minocycline on cocaine sensitization and phosphorylation of

Enhanced tyrosine phosphorylation of the 2B subunit of the N-methyl-d-aspartate receptor in long-term potentiation.

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Identification of the Ca2+/ calmodulin-dependent protein kinase II regulatory phosphorylation site in the α-amino-3-hydroxyl-5-methyl-4-isoxazole-propionate-type glutamate receptor.

In addition to PKC, cyclin-dependent kinase 5 (CDK5) phosphorylates two residues (T1164/S1167) within the domain of mGluR1/5 C-termini that interacts with the scaffold protein Homer (Orlando et al.,

In addition to the D1 receptor, the D2 receptor is involved in the regulation of NMDAR phosphorylation (Liu et al.,

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Modifications of glutamate receptors Frontiers in Neuroanatomy www.frontiersin.org

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N-methyl-d-aspartate receptors GluN2A and GluN2B subunits have two distinct clusters of palmitoylation sites in their C-terminal regions (Hayashi et al.,

NAC-1 is a brain POZ/BTB protein that can prevent cocaine-induced sensitization in the rat.

NAC-1, a rat brain mRNA, is increased in the nucleus accumbens three weeks after chronic cocaine self-administration.

NAC1 regulates the recruitment of the proteasome complex into dendritic spines.

Neural mechanisms of addiction: the role of reward-related learning and memory.

Neurofilament-light increases the cell surface expression of the N-methyld-aspartate receptor and prevents its ubiquitination.

NMDA receptor activation dephosphorylates AMPA receptor glutamate receptor 1 subunits at threonine 840.

NMDA receptor phosphorylation at a site affected in schizophrenia controls synaptic and behavioral plasticity.

NMDA receptor subunit mRNA expression by projection neurons and interneurons in rat striatum.

NMDA receptor subunits epsilon 1 (NR2A) and epsilon 2 (NR2B) are Mao et al. Modifications of glutamate receptors Frontiers in Neuroanatomy www.frontiersin.org

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Palmitoyl acyltransferases, their substrates, and novel assays to connect them.

paper pending published: 07

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Phosphorylation-dependent regulation of N-methyl-d-aspartate

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Post-Translational Modification Biology of Glutamate Receptors and Drug Addiction

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