Anneleen Schallier scite author profile

System x cϪ exchanges intracellular glutamate for extracellular cystine, giving it a potential role in intracellular glutathione synthesis and nonvesicular glutamate release. We report that mice lacking the specific xCT subunit of system x c Ϫ (xCT Ϫ/Ϫ ) do not have a lower hippocampal glutathione content, increased oxidative stress or brain atrophy, nor exacerbated spatial reference memory deficits with aging. Together these results indicate that loss of system x c Ϫ does not induce oxidative stress in vivo. Young xCT Ϫ/Ϫ mice did however display a spatial working memory deficit. Interestingly, we observed significantly lower extracellular hippocampal glutamate concentrations in xCT Ϫ/Ϫ mice compared to wild-type littermates. Moreover, intrahippocampal perfusion with system x c Ϫ inhibitors lowered extracellular glutamate, whereas the system x c Ϫ activator N-acetylcysteine elevated extracellular glutamate in the rat hippocampus. This indicates that system x c Ϫ may be an interesting target for pathologies associated with excessive extracellular glutamate release in the hippocampus. Correspondingly, xCT deletion in mice elevated the threshold for limbic seizures and abolished the proconvulsive effects of N-acetylcysteine. These novel findings sustain that system x c Ϫ is an important source of extracellular glutamate in the hippocampus. System x c Ϫ is required for optimal spatial working memory, but its inactivation is clearly beneficial to decrease susceptibility for limbic epileptic seizures.

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Dopaminergic neurons of system x_c^–‐deficient mice are highly protected against 6‐hydroxydopamine‐induced toxicity

Massie

et al. 2010

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Malfunctioning of system x(c)(-), responsible for exchanging intracellular glutamate for extracellular cystine, can cause oxidative stress and excitotoxicity, both important phenomena in the pathogenesis of Parkinson's disease (PD). We used mice lacking xCT (xCT(-/-) mice), the specific subunit of system x(c)(-), to investigate the involvement of this antiporter in PD. Although cystine that is imported via system x(c)(-) is reduced to cysteine, the rate-limiting substrate in the synthesis of glutathione, deletion of xCT did not result in decreased glutathione levels in striatum. Accordingly, no signs of increased oxidative stress could be observed in striatum or substantia nigra of xCT(-/-) mice. In sharp contrast to expectations, xCT(-/-) mice were less susceptible to 6-hydroxydopamine (6-OHDA)-induced neurodegeneration in the substantia nigra pars compacta compared to their age-matched wild-type littermates. This reduced sensitivity to a PD-inducing toxin might be related to the decrease of 70% in striatal extracellular glutamate levels that was observed in mice lacking xCT. The current data point toward system x(c)(-) as a possible target for the development of new pharmacotherapies for the treatment of PD and emphasize the need to continue the search for specific ligands for system x(c)(-).

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Region- and Age-Specific Changes in Glutamate Transport in the AβPP23 Mouse Model for Alzheimer's Disease

Schallier

Smolders

Dam

et al. 2011

JAD

104

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Using 8- and 18-month-old AβPP23 mice, we investigated the involvement of high-affinity glutamate transporters (GLAST, GLT-1, EAAC1), vesicular glutamate transporters (VGLUT1-3) and xCT, the specific subunit of system x(c)⁻, in Alzheimer's disease (AD) pathogenesis. Transporter expression was studied in cortical and hippocampal tissue and linked to extracellular glutamate and glutamate reuptake activity as measured using in vivo microdialysis. In 8-month-old animals, we could not observe plaque formation or gliosis. Yet, in hippocampus as well as cortex GLAST and GLT-1 expression was decreased. Whereas in cortex this was accompanied by upregulated VGLUT1 expression, extracellular glutamate concentrations were decreased. Surprisingly, inhibiting glutamate reuptake with TBOA revealed increased glutamate reuptake activity in cortex of AβPP23 mice, despite decreased GLAST and GLT-1 expression, and resulted in status epilepticus in all AβPP23 mice, contrary to wildtype littermates. In hippocampus of 8-month-old AβPP23 mice, we observed increased EAAC1 expression besides the decrease in GLAST and GLT-1. Yet, glutamate reuptake activity was drastically decreased according to the decreased GLAST and GLT-1 expression. In 18-month-old AβPP23 mice, plaque formation and gliosis in cortex and hippocampus were accompanied by decreased GLT-1 expression. We also showed, for the first time, increased cortical expression of VGLUT3 and xCT together with a strong tendency towards increased cortical extracellular glutamate levels. VGLUT2 expression remained unaltered in all conditions. The present findings support the hypothesis that alterations in transport of glutamate, and more particular via GLT-1, may be involved in AD pathogenesis.

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Inactivation of the Constitutively Active Ghrelin Receptor Attenuates Limbic Seizure Activity in Rodents

et al. 2012

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Ghrelin is a pleiotropic neuropeptide that has been recently implicated in epilepsy. Animal studies performed to date indicate that ghrelin has anticonvulsant properties; however, its mechanism of anticonvulsant action is unknown. Here we show that the anticonvulsant effects of ghrelin are mediated via the growth hormone secretagogue receptor (GHSR). To our surprise, however, we found that the GHSR knockout mice had a higher seizure threshold than their wild-type littermates when treated with pilocarpine. Using both in vivo and in vitro models, we further discovered that inverse agonism and desensitization/internalization of the GHSR attenuate limbic seizures in rats and epileptiform activity in hippocampal slices. This constitutes a novel mechanism of anticonvulsant action, whereby an endogenous agonist reduces the activity of a constitutively active receptor.

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Time-dependent changes in striatal xCT protein expression in hemi-Parkinson rats

Massie

Schallier

Mertens

et al. 2008

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Altered glutamate signaling is associated with Parkinson's disease. To study the involvement of the cystine/glutamate antiporter in the pathogenesis of Parkinson's disease, we developed new polyclonal antibodies recognizing xCT, the specific subunit of this antiporter. The striatal xCT protein expression level was investigated in a hemi-Parkinson rat model, using semiquantitative western blotting. We observed time-dependent changes after a unilateral 6-hydroxydopamine lesion of the nigrostriatal pathway with increased expression levels in the deafferented striatum after 3 weeks. Twelve weeks postlesion, expression levels returned to normal. These data suggest, for the first time, an involvement of the cystine/glutamate antiporter in determining the aberrant glutamate neurotransmission in the striatum of a parkinsonian brain.

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