Todd Seib scite author profile

The system x(C)- (Sx(C)-) transporter functions to mediate the exchange of extracellular cystine (L-Cys(2)) and intracellular glutamate (L-Glu). Internalized L-Cys(2) serves as a rate-limiting precursor for the biosynthesis of glutathione (GSH), while the externalized L-Glu can contribute to either excitatory signaling or excitotoxicity. In the present study the influence of culture conditions (with and without dibutyryl-cAMP) and GSH levels on the expression of Sx(C)- were investigated in primary rat astrocyte cultures. Sx(C)- activity in dbcAMP-treated cells was nearly sevenfold greater than in untreated astrocytes and increased further (∼threefold) following the depletion of intracellular GSH with buthionine sulfoximine. This increase in Sx(C)- triggered by GSH depletion was only observed in the dbcAMP-treated phenotype and was distinct from the Nrf2-mediated response initiated by exposure to electrophiles. Changes in Sx(C)- activity correlated with increases in both protein and mRNA levels of the xCT subunit of the Sx(C)- heterodimer, an increase in the V(max) for L-Glu uptake and was linked temporally to GSH levels. This induction of Sx(C)- was not mimicked by hydrogen peroxide nor attenuated by nonspecific antioxidants but was partially prevented by the co-administration of the cell-permeant thiols GSH-ethyl ester and N-acetylcysteine. These findings demonstrate that the expression of Sx(C)- on astrocytes is dynamically regulated by intracellular GSH levels in a cell- and phenotype-dependent manner. The presence of this pathway likely reflects the inherent vulnerability of the CNS to oxidative damage and raises interesting questions as to the functional consequences of changes in Sx(C)- activity in CNS injury and disease.

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Increased excitatory amino acid transport into murine prion protein knockout astrocytes cultured in vitro

Pathmajeyan¹,

Patel

Carroll³

et al. 2011

Glia

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Prion protein (PrP) is expressed on a wide variety of cells and plays an important role in the pathogenesis of transmissible spongiform encephalopathies. However, its normal function remains unclear. Mice that do not express PrP exhibit deficits in spatial memory and abnormalities in excitatory neurotransmission suggestive that PrP may function in the glutamatergic synapse. Here we show that transport of D-aspartate, a non-metabolized L-glutamate analog, through excitatory amino acid transporters (EAATs) was faster in astrocytes from PrP knockout (PrPKO) mice than in astrocytes from C57BL/10SnJ wildtype (WT) mice. Experiments using EAAT subtype-specific inhibitors demonstrated that in both WT and PrPKO astrocytes, the majority of transport was mediated by EAAT1. Furthermore, PrPKO astrocytes were more effective than WT astrocytes at alleviating L-glutamate-mediated excitotoxic damage in both WT and PrPKO neuronal cultures. Thus, in this in vitro model, PrPKO astrocytes exerted a functional influence on neuronal survival and may therefore influence regulation of glutamatergic neurotransmission in vivo.

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Functional expression of system x_c⁻is upregulated by asbestos but not crystalline silica in murine macrophages

Pfau

Seib

Overocker

et al. 2012

Inhalation Toxicology

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Context Inhalation of asbestos or silica is associated with chronic and progressive diseases, including fibrosis, cancer, and increased risk of systemic autoimmunity. Because there is a need for treatment options for these diseases, a better understanding of their mechanistic etiologies is essential. While oxidative stress in macrophages is an early consequence of these exposures, it may also serve as a signaling mechanism involved in downstream immune dysregulation. The system xc- exchange protein is induced by oxidative stress, and exchanges equimolor levels of extracellular cystine for intracellular glutamate. Cystine is subsequently reduced to cysteine, the rate-limiting precursor for glutathione synthesis. Objective As the primary transporter responsible for cystine/glutamate exchange on macrophages, system xc- was hypothesized to be inducible in response to asbestos and silica, and to increase viability through protection from oxidative stress. Results When challenged with amphibole asbestos, but not crystalline silica, RAW 264.7 macrophages increased expression of xCT and the rate of cystine/glutamate exchange in sodium-free conditions. This upregulation was prevented with N-acetylcysteine, implicating oxidative stress. Cystine protected the macrophages from asbestos-induced oxidative stress and cell death, supporting the hypothesis that imported cystine was used for synthesis of cellular antioxidants. System xc- inhibitors, glutamate and S-4-carboxyphenylglycine ((S)-4-CPG), significantly increased oxidative stress and cell death of asbestos-treated macrophages. Conclusion System xc- plays a critical role in survival of macrophages exposed to asbestos, but not silica. These data demonstrate a very early difference in the cellular response to these silicates that may have important downstream implications in the pathologic outcome of exposure.

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Synthesis and Preliminary Evaluation of trans-3,4-Conformationally-Restricted Glutamate and Pyroglutamate Analogues as Novel EAAT2 Inhibitors

Denton

Seib

Bridges

et al. 2002

Bioorganic & Medicinal Chemistry Letters

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Synthesis and Preliminary Evaluation of trans‐3,4‐Conformationally‐Restricted Glutamate and Pyroglutamate Analogues as Novel EAAT2 Inhibitors.

et al. 2003

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Todd Seib

Regulation of the System x−C cystine/glutamate exchanger by intracellular glutathione levels in rat astrocyte primary cultures

Increased excitatory amino acid transport into murine prion protein knockout astrocytes cultured in vitro

Functional expression of system x_c⁻is upregulated by asbestos but not crystalline silica in murine macrophages

Synthesis and Preliminary Evaluation of trans-3,4-Conformationally-Restricted Glutamate and Pyroglutamate Analogues as Novel EAAT2 Inhibitors

Synthesis and Preliminary Evaluation of trans‐3,4‐Conformationally‐Restricted Glutamate and Pyroglutamate Analogues as Novel EAAT2 Inhibitors.

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Todd Seib

Regulation of the System x−C cystine/glutamate exchanger by intracellular glutathione levels in rat astrocyte primary cultures

Increased excitatory amino acid transport into murine prion protein knockout astrocytes cultured in vitro

Functional expression of system xc−is upregulated by asbestos but not crystalline silica in murine macrophages

Synthesis and Preliminary Evaluation of trans-3,4-Conformationally-Restricted Glutamate and Pyroglutamate Analogues as Novel EAAT2 Inhibitors

Synthesis and Preliminary Evaluation of trans‐3,4‐Conformationally‐Restricted Glutamate and Pyroglutamate Analogues as Novel EAAT2 Inhibitors.

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Product

Resources

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Functional expression of system x_c⁻is upregulated by asbestos but not crystalline silica in murine macrophages