Modulation of the glycine response by Ca<sup>2+</sup>‐permeable AMPA receptors in rat spinal neurones

Xu, Tian‐Le; Li, Ji-Shuo; Jin, Yongfeng; Akaike, Norio

doi:10.1111/j.1469-7793.1999.701ad.x

Cited by 34 publications

(37 citation statements)

References 48 publications

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“…This result suggested that the increases of glycine in the interstitium by theanine might have influenced dopamine release via glycine receptors. Although glycine is known as a major inhibitory neurotransmitter, glycine combines with the glycine binding site of the NMDA receptor and enhances excitatory neurotransmission (Xu et al 1999;Kuhse et al 1995;Nong et al 2003). Glycine enhanced NMDA evoked dopamine release, and 7-chloro-kynurenate, an NMDA antagonist, acting on a glycine site, markedly reduced this response (Martinez et al 1992); however, 5,7-DCKA injection did not prevent the increase of dopamine concentration by theanine injection in this study.…”

Section: Discussioncontrasting

confidence: 48%

“…From these data, we expected that not only glycine but also other factors were involved in the effect of theanine on dopamine concentration in the perfusate. It was shown that glycine is co-localized with GABA in astrocytes and interneurons (Ross and Soltesz 2001;Bureau and Mulle 1998;Xu et al 1999;Levi and Patrizio 1992), and glycine and GABA are released simultaneously and work synergistically on different targets (Bohlhalter et al 1994). We expected that the GABAergic nervous system may also be influenced by theanine injection and is involved in dopamine concentration increase in the perfusate; however we did not examined the effect of theanine on intersutitial GABA concentration and GABA receptors in this study.…”

Section: Discussionmentioning

confidence: 87%

“…It was reported that inhibitory neurotransmitters, such as glycine and GABA, are released by activating a-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA) receptors, ionotropic glutamate receptors (Ross and Soltesz 2001; Bureau and Mulle 1998;Xu et al 1999), and recent reports showed that activating AMPA/kainate receptors facilitated electrically evoked dopamine efflux in guinea pig striatal slices, and glycine and GABA release from astrocytes and interneurons (Antonelli et al 1997;Han et al 2000). In addition, it was shown that theanine bound to AMPA receptors not to NMDA receptors (Kakuda et al 2002a).…”

Section: Discussionmentioning

confidence: 99%

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Theanine, γ-glutamylethylamide, a unique amino acid in tea leaves, modulates neurotransmitter concentrations in the brain striatum interstitium in conscious rats

et al. 2008

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Theanine (c-glutamylethylamide) is one of the major amino acid components in green tea and can pass through the blood-brain barrier. Recent studies suggest that theanine affects the mammalian central nervous system; however, the detailed mechanism remains unclear. In this study, we demonstrated the effect of theanine on neurotransmission in the brain striatum by in vivo brain microdialysis. Theanine injection into the rat brain striatum did not increase the concentration of excitatory neurotransmitters in the perfusate. On the other hand, theanine injection increased the concentration of glycine in the perfusate. Because it has been reported that theanine promotes dopamine release in the rat striatum, we investigated the glycine and dopamine concentrations in the perfusate. Co-injection of glycine receptor antagonist, strychnine, reduced theanine-induced changes in dopamine. Moreover, AMPA receptor antagonist, which regulates glycine and GABA release from glia cells, inhibited these effects of theanine and this result was in agreement with the known inhibitory effect of theanine at AMPA receptors.

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Section: Discussioncontrasting

confidence: 48%

Section: Discussionmentioning

confidence: 87%

Section: Discussionmentioning

confidence: 99%

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Theanine, γ-glutamylethylamide, a unique amino acid in tea leaves, modulates neurotransmitter concentrations in the brain striatum interstitium in conscious rats

et al. 2008

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“…Bearing in mind that ethanol alters intracellular Ca 2ϩ (for review, see Little, 1991;Simasko et al, 1999;Mennerick and Zorumski, 2000), interactions between ethanol and glycine receptors may involve mechanisms linked to intracellular Ca 2ϩ . Three recent studies have reported that glutamateinduced Ca 2ϩ entry greatly potentiates I Gly in spinal neurons or oocytes expressing glycine receptors (Xu et al, 1999(Xu et al, , 2000Fucile et al, 2000). However, the effects of glutamate on VTA glycine receptors have not been examined.…”

mentioning

confidence: 99%

Ethanol Suppresses Fast Potentiation of Glycine Currents by Glutamate

Zhu

Krnjević²,

Jiang³

et al. 2002

J Pharmacol Exp Ther

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Excitatory (glutamate) and inhibitory (GABA A and glycine) receptor/channels coexist in many neurons. To assess effects of ethanol on the interaction of glutamate and glycine receptors, glycineinduced current (I Gly ) was recorded by a whole-cell patch-clamp technique from neurons freshly dissociated from the ventral tegmental area of rats. A conditioning prepulse of glutamate (1-3 s, 1 mM) significantly and reversibly potentiated responses to a pulse of glycine. This potentiation was increased when extracellular calcium was raised to 12 mM and reduced by including 10 mM 1,2-bis-(2-aminophenoxy)ethane-N,N,NЈ,NЈ-tetraacetic acid in the internal recording medium. It was not affected by 5 (KN-62), a selective inhibitor of calcium/calmodulin-dependent protein kinase II. In a concentration-response analysis, a conditioning pulse of glutamate significantly lowered the EC 50 for glycine and increased the maximal I Gly . Kinetic analysis of the currents indicated that glutamate slowed deactivation of glycinegated chloride channels; therefore, glutamate may increase the affinity of glycine receptors for glycine. When coapplied with glycine, ethanol (10 mM) potentiated I Gly in 35% of neurons from the ventral tegmental area. In contrast, when coapplied with glutamate and glycine, ethanol suppressed the glutamate-induced potentiation of I Gly in these neurons. This suppression was also observed when ethanol and glycine were coapplied after a glutamate prepulse. A similar effect was observed when ethanol alone did not potentiate I Gly . These findings suggest that glutamate-induced calcium influx modulates glycine receptors by a mechanism that can be blocked by ethanol.

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“…Tyrosine phosphorylation of the ␤ subunit of GlyR has been shown to potentiate GlyR by a twofold increase in apparent agonist affinity (Caraiscos et al, 2002), an effect remarkably similar to that induced by IGF-1 on SON neuron GlyR. Other kinases (PKC, calcium calmodulin-dependent protein kinase II) are known to also potentiate GlyR but not through a change in agonist sensitivity (Xu et al, 1996(Xu et al, , 1999. Increased agonist affinity also implies enhanced desensitization, which could potentially result in a decreased effect of GlyR activation.…”

Section: Potentiation Of Glyr By Igf-1mentioning

confidence: 99%

Insulin-Like Growth Factor-1 Inhibits Adult Supraoptic Neurons via Complementary Modulation of Mechanoreceptors and Glycine Receptors

Ster¹,

Colomer²,

Monzo³

et al. 2005

J. Neurosci.

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In the CNS, insulin-like growth factor-1 (IGF-1) is mainly known for its trophic effect both during development and in adulthood. Here, we show than in adult rat supraoptic nucleus (SON), IGF-1 receptor immunoreactivity is present in neurons, whereas IGF-1 immunoreactivity is found principally in astrocytes and more moderately in neurons. In vivo application of IGF-1 within the SON acutely inhibits the activity of both vasopressin and oxytocin neurons, the two populations of SON neuroendocrine cells. Recordings of acutely isolated SON neurons showed that this inhibition occurs through two rapid and reversible mechanisms, both involving the neuronal IGF-1 receptor but different intracellular messengers. IGF-1 inhibits Gd 3ϩ -sensitive and osmosensitive mechanoreceptor cation current via phosphatidylinositol-3 (PI3) kinase activation. IGF-1 also potentiates taurine-activated glycine receptor (GlyR) Cl Ϫ currents by increasing the agonist sensitivity through a extremely rapid (within a second) PI3 kinase-independent mechanism. Both mechanoreceptor channels and GlyR, which form the excitatory and inhibitory components of SON neuron osmosensitivity, are active at rest, and their respective inhibition and potentiation will both be inhibitory, leading to strong decrease in neuronal activity. It will be of interest to determine whether IGF-1 is released by neurons, thus participating in an inhibitory autocontrol, or astrocytes, then joining the growing family of glia-to-neuron transmitters that modulate neuronal and synaptic activity. Through the opposite and complementary acute regulation of mechanoreceptors and GlyR, IGF-1 appears as a new important neuromodulator in the adult CNS, participating in the complex integration of neural messages that regulates the level of neuronal excitability.

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Modulation of the glycine response by Ca²⁺‐permeable AMPA receptors in rat spinal neurones

Cited by 34 publications

References 48 publications

Theanine, γ-glutamylethylamide, a unique amino acid in tea leaves, modulates neurotransmitter concentrations in the brain striatum interstitium in conscious rats

Theanine, γ-glutamylethylamide, a unique amino acid in tea leaves, modulates neurotransmitter concentrations in the brain striatum interstitium in conscious rats

Ethanol Suppresses Fast Potentiation of Glycine Currents by Glutamate

Insulin-Like Growth Factor-1 Inhibits Adult Supraoptic Neurons via Complementary Modulation of Mechanoreceptors and Glycine Receptors

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Modulation of the glycine response by Ca2+‐permeable AMPA receptors in rat spinal neurones

Cited by 34 publications

References 48 publications

Theanine, γ-glutamylethylamide, a unique amino acid in tea leaves, modulates neurotransmitter concentrations in the brain striatum interstitium in conscious rats

Theanine, γ-glutamylethylamide, a unique amino acid in tea leaves, modulates neurotransmitter concentrations in the brain striatum interstitium in conscious rats

Ethanol Suppresses Fast Potentiation of Glycine Currents by Glutamate

Insulin-Like Growth Factor-1 Inhibits Adult Supraoptic Neurons via Complementary Modulation of Mechanoreceptors and Glycine Receptors

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Modulation of the glycine response by Ca²⁺‐permeable AMPA receptors in rat spinal neurones