Dynamic Regulation of Synaptic GABA Release by the Glutamate-Glutamine Cycle in Hippocampal Area CA1

Liang, Sophie Hsin-Yi; Carlson, Gerald M.; Coulter, Douglas A.

doi:10.1523/jneurosci.0329-06.2006

Cited by 186 publications

(229 citation statements)

References 48 publications

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“…MSO has been widely used as a GS inhibitor in astroglia in studies of hyperammonemia, memory consolidation, and seizures, and its effects can be counteracted by glutamine application (Bacci et al, 2002;Suarez et al, 2002;Gibbs and Hertz, 2005;Tanigami et al, 2005;Liang et al, 2006). One recent study has used MSO to examine the effect of inflammatory stimuli on activation of GS in astroglia and found that GS activation is related to glutamatergic receptor activation (Muscoli et al, 2005).…”

Section: Discussionmentioning

confidence: 99%

“…This shuttle includes the uptake of excessive extrasynaptic glutamate and the production [via glutamine synthetase (GS)] and release from astroglia of glutamine, which is then taken up by neuronal elements to replenish the supply of glutamate (Zwingmann and Leibfritz, 2003;Hertz, 2004;Hertz and Zielke, 2004;Fonseca et al, 2005). A potent inhibitor of GS in astroglia is methionine sulfoximine (MSO), and its effects can be counteracted by glutamine application (Bacci et al, 2002;Blin et al, 2002;Suarez et al, 2002;Shin et al, 2003;Gibbs and Hertz, 2005;Tanigami et al, 2005;Liang et al, 2006). However, only one study has used MSO to investigate the involvement of astroglial GS in the effects of noxious stimuli on glutamatergic receptor-related events in astroglia (Muscoli et al, 2005), and no studies have tested its effects on central sensitization in functionally identified nociceptive neurons.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Astroglial Glutamate–Glutamine Shuttle Is Involved in Central Sensitization of Nociceptive Neurons in Rat Medullary Dorsal Horn

Chiang¹,

Wang²,

Xie³

et al. 2007

J. Neurosci.

108

135

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Astroglial Glutamate–Glutamine Shuttle Is Involved in Central Sensitization of Nociceptive Neurons in Rat Medullary Dorsal Horn

Chiang¹,

Wang²,

Xie³

et al. 2007

J. Neurosci.

108

135

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“…In addition to influencing mTORC1 activity, glutamine is a precursor used in the synthesis of the neurotransmitters glutamate, aspartate, and GABA (Wang et al 2007;Albrecht et al 2010). It has been previously shown that glutamine can play an important role in regulating synaptic signaling, having impacts on both excitatory (Albrecht et al 2010;Uwechue et al 2012;Tani et al 2014) and inhibitory (Liang et al 2006;Wang et al 2007) synaptic signaling through its effects on glutamate and GABA synthesis and release. As shown in Figure 1, we did not observe any significant change in the overall hippocampal levels of glutamate or aspartate 30 min post-glutamine infusion, although changes in the synaptic levels of these neurotransmitters could not be excluded.…”

Section: Discussionmentioning

confidence: 99%

Intrahippocampal glutamine administration inhibits mTORC1 signaling and impairs long-term memory

et al. 2015

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The mechanistic Target of Rapamycin Complex 1 (mTORC1), a key regulator of protein synthesis and cellular growth, is also required for long-term memory formation. Stimulation of mTORC1 signaling is known to be dependent on the availability of energy and growth factors, as well as the presence of amino acids. In vitro studies using serum-and amino acidstarved cells have reported that glutamine addition can either stimulate or repress mTORC1 activity, depending on the particular experimental system that was used. However, these experiments do not directly address the effect of glutamine on mTORC1 activity under physiological conditions in nondeprived cells in vivo. We present experimental results indicating that intrahippocampal administration of glutamine to rats reduces mTORC1 activity. Moreover, post-training administration of glutamine impairs long-term spatial memory formation, while coadministration of glutamine with leucine had no influence on memory. Intracellular recordings in hippocampal slices showed that glutamine did not alter either excitatory or inhibitory synaptic activity, suggesting that the observed memory impairments may not result from conversion of glutamine to either glutamate or GABA. Taken together, these findings indicate that glutamine can decrease mTORC1 activity in the brain and may have implications for treatments of neurological diseases associated with high mTORC1 signaling.

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“…Concerning the GABAergic synapses, the majority of this neurotransmitter is recycled in neurons, but part of the released GABA is taken up by surrounding astrocytes and therefore lost from the transmitter pool (Schousboe et al, 2013) . The latter event is compensated by glutamine acting to replenish the neurotransmitter pool of GABA (Liang et al, 2006;Patel et al, 2001;Schousboe, 2003).…”

Section: Introductionmentioning

confidence: 99%

Expression of glutamine transporter isoforms in cerebral cortex of rats with chronic hepatic encephalopathy

Leke

Escobar

Rao

et al. 2015

Neurochemistry International

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Rama Rao, Kakulavarapu V.; Silveira, Themis Reverbel; Norenberg, Michael D.; and Schousboe, Arne, "Expression of glutamine transporter isoforms in cerebral cortex of rats with chronic hepatic encephalopathy" (2015 Keywords:Chronic hepatic encephalopathy Glutamine transporters Glutamine GABA A B S T R A C THepatic encephalopathy (HE) is a neuropsychiatric disorder that occurs due to acute and chronic liver diseases, the hallmark of which is the increased levels of ammonia and subsequent alterations in glutamine synthesis, i.e. conditions associated with the pathophysiology of HE. Under physiological conditions, glutamine is fundamental for replenishment of the neurotransmitter pools of glutamate and GABA. The different isoforms of glutamine transporters play an important role in the transfer of this amino acid between astrocytes and neurons. A disturbance in the GABA biosynthetic pathways has been described in bile duct ligated (BDL) rats, a well characterized model of chronic HE. Considering that glutamine is important for GABA biosynthesis, altered glutamine transport and the subsequent glutamate/GABA-glutamine cycle efficacy might influence these pathways. Given this potential outcome, the aim of the present study was to investigate whether the expression of the glutamine transporters SAT1, SAT2, SN1 and SN2 would be affected in chronic HE. We verified that mRNA expression of the neuronal glutamine transporters SAT1 and SAT2 was found unaltered in the cerebral cortex of BDL rats. Similarly, no changes were found in the mRNA level for the astrocytic transporter SN1, whereas the gene expression of SN2 was increased by two-fold in animals with chronic HE. However, SN2 protein immuno-reactivity did not correspond with the increase in gene transcription since it remained unaltered. These data indicate that the expression of the glutamine transporter isoforms is unchanged during chronic HE, and thus likely not to participate in the pathological mechanisms related to the imbalance in the GABAergic neurotransmitter system observed in this neurologic condition.

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Dynamic Regulation of Synaptic GABA Release by the Glutamate-Glutamine Cycle in Hippocampal Area CA1

Cited by 186 publications

References 48 publications

Astroglial Glutamate–Glutamine Shuttle Is Involved in Central Sensitization of Nociceptive Neurons in Rat Medullary Dorsal Horn

Astroglial Glutamate–Glutamine Shuttle Is Involved in Central Sensitization of Nociceptive Neurons in Rat Medullary Dorsal Horn

Intrahippocampal glutamine administration inhibits mTORC1 signaling and impairs long-term memory

Expression of glutamine transporter isoforms in cerebral cortex of rats with chronic hepatic encephalopathy

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