Differential expression of two glial glutamate transporters in the rat brain: quantitative and immunocytochemical observations

Lehre, Knut P.; Levy, Line M.; Ottersen, O. P.; Storm‐Mathisen, Jon; Danbolt, N

doi:10.1523/jneurosci.15-03-01835.1995

Cited by 835 publications

(737 citation statements)

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“…In the present study, we show that a GLT-1-type Nat-dependent transporter functions in rat pinealocytes. Because GLT-l is known to be localized only in astrocytes Rothstein et al, 1994;Lehre et al, 1995), this is the first observation of the presence of a GLT-1-like transporter in endocrine cells.…”

mentioning

confidence: 68%

Functional Expression of a GLT‐1 Type Na⁺‐Dependent Glutamate Transporter in Rat Pinealocytes

Yamada¹,

Yatsushiro²,

Yamamoto

et al. 1997

Journal of Neurochemistry

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Pinealocytes, the neuroendocrine cells that produce melatonin, accumulate glutamate in microvesides through a specific vesicular transporter energetically coupled with vacuolar-type proton ATPase. The glutamate is secreted into the extracellular space through microvesicle-mediated exocytosis and then stimulates neighboring pinealocytes, resulting in inhibition of norepinephrine-dependent melatonin synthesis. In this study, we identified and characterized the plasma membranetype glutamate transporter in rat pinealocytes. The [ 3H]-glutamate uptake by cultured pinealocytes was driven by extracellular Nat, saturated with the [3H]glutamate concentration used, and significantly inhibited by L-glutamate, L-aspartate, ß-threo-hydroxyaspartate, pyrrolidine dicarboxylate, and L-cysteine sulfinate, substrates or inhibitors of the plasma membrane glutamate transporter. Consistently, the clearance of extracellular glutamate, as measured by HPLC, was also dependent on Na~and inhibited by /9-threo-hydroxyaspartate and L-cysteine sulfinate. Immunological studies with site-specific antibodies against three isoforms of the Nat-dependent glutamate transporter (GLT-1, GLAST, and EAAC1) revealed the expression of only the GLT-1 type transporter in pineal glands. Expression of the GLT-1 type transporter in pineal glands was further demonstrated by means of reverse transcription-polymerase chain reaction with specific DNA probes. Immunohistochemical analysis indicated that the immunological counterpart(s) of the GLT-1 is localized in pinealocytes. These results suggested that the GLT-1 -type Nat-dependent transporter is expressed and functions as a reuptake system for glutamate in rat pinealocytes. The physiological role of the transporter in the termination of the glutamate signal in the pineal gland is discussed. Key Words: Na-dependent glutamate transporter-Pinealocyte-Pineal gland -L-Glutamate-GLT-1 -Reuptake-Microvesicle-Endocrine cell.

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confidence: 68%

Functional Expression of a GLT‐1 Type Na⁺‐Dependent Glutamate Transporter in Rat Pinealocytes

Yamada¹,

Yatsushiro²,

Yamamoto

et al. 1997

Journal of Neurochemistry

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“…Similarly, downregulation in the high-affinity astrocytic glutamate transporters SLC1A2 (EAAT2) and SLC1A3 (EAAT1) has been identified in the anterior cingulate of postmortem human tissue (Choudary et al, 2005); abnormalities that may contribute to elevated glutamate levels in the amygdala because of dense connectivity between the two regions (Carmichael and Price, 1995;Ongur and Price, 2000). These findings suggest compromised metabolism of glutamate in the depressed brain, and as astrocytes account for at least 90 percent of glutamate uptake (Chaudhry et al, 1995;Lehre et al, 1995;Haugeto et al, 1996;Lehre and Danbolt, 1998), deficits in glial cells may drive the increased cortical activation reported in depression. These findings suggest that heightened activity in the amygdala may contribute to increased anxiety in depressed patients.…”

Section: Introductionmentioning

confidence: 89%

Blockade of the GLT-1 Transporter in the Central Nucleus of the Amygdala Induces both Anxiety and Depressive-Like Symptoms

John

Sypek

Carlezon

et al. 2015

Neuropsychopharmacol

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Depression has been associated with abnormalities in glutamatergic neurotransmission and decreased astrocyte number in limbic areas. We previously demonstrated that global and prefrontal cortical blockade of the astrocytic glutamate transporter (GLT-1) induces anhedonia and c-Fos expression in areas that regulate anxiety, including the central amygdala (CEA). Given the role of the amygdala in anxiety and the high degree of comorbidity between anxiety and depression, we hypothesized that GLT-1 blockade in the CEA would induce symptoms of anhedonia and anxiety in rats. We microinjected the GLT-1 inhibitor, dihydrokainic acid (DHK), into the CEA and examined effects on intracranial self-stimulation (ICSS) as an index of hedonic state, and on behavior in two anxiety paradigms, elevated plus maze (EPM) and fear conditioning. At lower doses, intra-CEA DHK produced modest increases in ICSS responding (T0). Higher doses resulted in complete cessation of responding for 15 min, suggesting an anhedonic or depressive-like effect. Intra-CEA DHK also increased anxiety-like behavior such that percent time in the open arms and total entries were decreased in the EPM and acquisition of freezing behavior to the tone was increased in a fear-conditioning paradigm. These effects did not appear to be explained by non-specific changes in activity, because effects on fear conditioning were assessed in a drug-free state, and a separate activity test showed no significant effects of intra-CEA DHK on locomotion. Taken together, these studies suggest that blockade of GLT-1 in the CEA is sufficient to induce both anhedonia and anxiety and therefore that a lack of glutamate uptake resulting from glial deficits may contribute to the comorbidity of depression and anxiety.

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“…These effectors are not expressed in normal brains (Lehre et al, 1995), and are highly dependent on cell activation and differentiation in vitro (Rimaniol et al, 2000). This strongly suggests a compensatory mechanism that responds to depressed astrocytic function.…”

Section: Activated Macrophages and Microglia Express The Molecular Efmentioning

confidence: 99%

Macrophages and HIV-1: dangerous liaisons

Verani¹,

Gras

Pancino

2005

Molecular Immunology

102

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Differential expression of two glial glutamate transporters in the rat brain: quantitative and immunocytochemical observations

Cited by 835 publications

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Functional Expression of a GLT‐1 Type Na⁺‐Dependent Glutamate Transporter in Rat Pinealocytes

Functional Expression of a GLT‐1 Type Na⁺‐Dependent Glutamate Transporter in Rat Pinealocytes

Blockade of the GLT-1 Transporter in the Central Nucleus of the Amygdala Induces both Anxiety and Depressive-Like Symptoms

Macrophages and HIV-1: dangerous liaisons

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Differential expression of two glial glutamate transporters in the rat brain: quantitative and immunocytochemical observations

Cited by 835 publications

References 0 publications

Functional Expression of a GLT‐1 Type Na+‐Dependent Glutamate Transporter in Rat Pinealocytes

Functional Expression of a GLT‐1 Type Na+‐Dependent Glutamate Transporter in Rat Pinealocytes

Blockade of the GLT-1 Transporter in the Central Nucleus of the Amygdala Induces both Anxiety and Depressive-Like Symptoms

Macrophages and HIV-1: dangerous liaisons

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Functional Expression of a GLT‐1 Type Na⁺‐Dependent Glutamate Transporter in Rat Pinealocytes

Functional Expression of a GLT‐1 Type Na⁺‐Dependent Glutamate Transporter in Rat Pinealocytes