Minfu Xu scite author profile

N-Methyl-D-aspartate (NMDA) receptors gate a slow and calciumrich component of the postsynaptic glutamate response. Like all ionotropic glutamate receptors, NMDA subunits contain a highly conserved motif (SYTANLAAF) in the transmembrane (TM) 3 domain that is critically involved in channel gating. Mutation of an alanine in this domain (A7; underlined above) results in constitutively open receptors that show reduced sensitivity to several allosteric modulators. In this study, we examined the effects of ethanol, a substance that inhibits NMDA currents via an unknown mechanism, on tonically active NMDA receptors expressed in human embryonic kidney 293 cells. Ethanol (100 mM) inhibited currents from GluN1(A7R)/GluN2A and GluN1(A7R)/GluN2B receptors by approximately 50%, whereas those from GluN1/ GluN2B(A7R) receptors were reduced by less than 10%. In cysteine-substituted GluN1 and GluN2 A7 mutants, estimated ethanol IC 50 values for agonist-gated currents were 101, 117, 103, and 69 mM for GluN1(A7C)/GluN2A, GluN1(A7C)/GluN2B, GluN1/ GluN2A(A7C), and GluN1/GluN2B(A7C) receptors, respectively. After exposure to the thiol-modifying reagent 2-(trimethylammonium)ethyl methanethiosulfonate (MTSET), A7C mutants showed robust agonist-independent currents and reduced sensitivity to ethanol (IC 50 values of 371, 256, 715, and 958 mM, respectively, as above). In contrast, cysteine modification of the ligand-binding domain resulted in constitutively open receptors that showed robust ethanol inhibition. Ethanol inhibition of MTSET-treated GluN1(A7C) receptors was further reduced by TM3/TM4 mutations previously shown to reduce ethanol sensitivity of agonistgated receptors. Overall, these results show that ethanol affects NMDA receptor function at a site distal from agonist binding and appears to exert greater effects via perturbation of GluN2 subunits.

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Ethanol inhibition of NMDA receptors under conditions of altered protein kinase A activity

Xu¹,

Woodward²

2006

Journal of Neurochemistry

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N-methyl-D-aspartate receptors (NMDA) are glutamate-activated ligand-gated ion channels that participate in diverse forms of synaptic plasticity as well as glutamate-dependent excitotoxicity. Inhibition of the NMDA receptor function may underlie some of the behavioral actions associated with acute exposure to ethanol. The sensitivity of NMDA receptors to ethanol is influenced by the subunit composition of the receptor and, by association, with certain cytoskeletal proteins. Previous studies have also suggested that phosphorylation may regulate the sensitivity of NMDA receptors to ethanol. In this study, the ethanol inhibition of recombinant NMDA receptor currents was determined under conditions designed to enhance or inhibit the activity of protein kinase A (PKA). Human embryonic kidney 293 (HEK293) cells were transfected with cDNAs encoding NMDA subunits and channel activity was monitored with whole-cell patch-clamp electrophysiology. Under control recording conditions, ethanol (100 mM) inhibited NR1/2A and NR1/2B receptor currents by approximately 25-30%.The degree of ethanol inhibition was not affected or was slightly enhanced under conditions designed to enhance PKA activity. This included treatment of cells with cAMP analogs, inclusion of phosphatase inhibitors or purified PKA in the pipette filling solution, co-expression of catalytically active PKA, expression of the NR1 PKA-site phosphorylation site mimic (S897D) or by co-expression of the PKA scaffolding protein yotiao or the dopamine D 1 receptor. Ethanol inhibition of NR1/2A and NR1/2B receptors was not altered when PKA effects were suppressed, either by coexpression of a PKI inhibitory peptide or the phosphorylation-deficient NR1 mutants (S897A, S896A, S896A/S897A). In addition, ethanol inhibition of NMDA-induced currents in cultured cortical or hippocampal neurons was not affected by modulators of PKA. These results suggest that PKA does not appear to play a major role in determining the acute ethanol sensitivity of NMDA receptors.

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Ethanol inhibition of recombinant NMDA receptors is not altered by coexpression of CaMKII-α or CaMKII-β

Xu¹,

Chandler²,

Woodward³

2008

Alcohol

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Previous studies have shown that the N-methyl-d-aspartate (NMDA) receptor is an important target for the actions of ethanol in the brain. N-methyl-d-aspartate receptors are glutamate-activated ion channels that are highly expressed in neurons. They are activated during periods of significant glutamatergic synaptic activity and are an important source of the signaling molecule calcium in the postsynaptic spine. Alterations in the function of NMDA receptors by drugs or disease are associated with deficits in motor, sensory and cognitive processes of the brain. Acutely, ethanol inhibits ion flow through NMDA receptors whereas sustained exposure to ethanol can induce compensatory changes in the density and localization of the receptor. Defining factors that govern the acute ethanol sensitivity of NMDA receptors is an important step in understanding how an individual responds to ethanol. In the present study, we investigated the effect of calcium-calmodulin dependent protein kinase II (CaMKII) on the ethanol sensitivity of recombinant NMDA receptors. Calcium-calmodulin dependent protein kinase II is a major constituent of the postsynaptic density and is critically involved in various forms of learning and memory. NMDA receptor subunits were transiently expressed in human embryonic kidney 293 cells along with CaMKII-alpha or CaMKII-beta tagged with the green fluorescent protein. Whole cell currents were elicited by brief exposures to glutamate and were measured using patch-clamp electrophysiology. Neither CaMKII-alpha or CaMKII-beta had any significant effect on the ethanol inhibition of NR1/2A or NR1/2B receptors. Ethanol inhibition was also unaltered by deletion of CaMKII binding domains in NR1 or NR2 subunits or by phospho-site mutants that mimic or occlude CaMKII phosphorylation. Chronic treatment of cortical neurons with ethanol had no significant effect on the expression of CaMKII-alpha or CaMKII-beta. The results of this study suggest that CaMKII is not involved in regulating the acute ethanol sensitivity of NMDA receptors.

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Cysteine Substitution of Transmembrane Domain Amino Acids Alters the Ethanol Inhibition of GluN1/GluN2A N-Methyl-d-Aspartate Receptors

Smothers

Woodward

2015

J Pharmacol Exp Ther

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N-Methyl-D-aspartate receptors (NMDARs) are inhibited by behaviorally relevant concentrations of ethanol, and residues within transmembrane (TM) domains of NMDARs, including TM3 GluN1 phenylalanine 639 (F639), regulate this sensitivity. In the present study, we used cysteine (C) mutagenesis to determine whether there are additional residues within nearby TM domains that regulate ethanol inhibition on NMDARs. GluN1(F639C)/GluN2A receptors were less inhibited by ethanol than wild-type receptors, and inhibition was restored to wild-type levels following treatment with ethanol-like methanethiosulfonate reagents. Molecular modeling identified six residues in the GluN1 TM1 domain (valine V566; serine S569) and the GluN2A TM4 domain (methionine, M817; V820, F821, and leucine, L824) that were in close vicinity to the TM3 F639 residue, and these were individually mutated to cysteine and tested for ethanol inhibition and receptor function. The F639C-induced decrease in ethanol inhibition was blunted by coexpression of GluN1 TM1 mutants V566C and S569C, and statistically significant interactions were observed for ethanol inhibition among V566C, F639C, and GluN2A TM4 mutants V820C and F821C and S569C, F639C, and GluN2A TM4 mutants F821C and L824C. Ethanol inhibition was also reduced when either GluN1 TM1 mutant V566C or S569C was combined with GluN2A V820C, suggesting a novel TM1:TM4 intrasubunit site of action for ethanol. Cysteines substituted at TM3 and TM4 sites previously suggested to interact with ethanol had less dramatic effects on ethanol inhibition. Overall, the results from these studies suggest that interactions among TM1, TM3, and TM4 amino acids in NMDARs are important determinants of ethanol action at these receptors.

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Minfu Xu

An Insulator in Transmission Lines Recognition and Fault Detection Model Based on Improved Faster RCNN

Ethanol Inhibition of Constitutively Open N-Methyl-d-Aspartate Receptors

Ethanol inhibition of NMDA receptors under conditions of altered protein kinase A activity

Ethanol inhibition of recombinant NMDA receptors is not altered by coexpression of CaMKII-α or CaMKII-β

Cysteine Substitution of Transmembrane Domain Amino Acids Alters the Ethanol Inhibition of GluN1/GluN2A N-Methyl-d-Aspartate Receptors

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