2011
DOI: 10.1074/jbc.m110.183517
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The Glial Glutamate Transporter 1 (GLT1) Is Expressed by Pancreatic β-Cells and Prevents Glutamate-induced β-Cell Death

Abstract: Glutamate is the major excitatory neurotransmitter of the central nervous system (CNS) and may induce cytotoxicity through persistent activation of glutamate receptors and oxidative stress. Its extracellular concentration is maintained at physiological concentrations by high affinity glutamate transporters of the solute carrier 1 family (SLC1). Glutamate is also present in islet of Langerhans where it is secreted by the ␣-cells and acts as a signaling molecule to modulate hormone secretion. Whether glutamate p… Show more

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Cited by 57 publications
(76 citation statements)
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References 55 publications
(65 reference statements)
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“…This raises the interesting possibility that glutamate transporter expression in the pancreas could help terminate cycles of glucagon release that are potentiated by extracellular glutamate. In addition, there is new evidence that glutamate induces oxidative stress in islets (Di Cairano et al 2011). Whether GLT-1 protects against oxidative stress by protecting cells in the pancreas against the potentially toxic properties of glutamate (Di Cairano et al 2011) and/or ammonia (Chan and Butterworth 1999;Butterworth 2002) requires further study.…”
Section: Possible Roles Of Glt-1 In Pancreasmentioning
confidence: 99%
“…This raises the interesting possibility that glutamate transporter expression in the pancreas could help terminate cycles of glucagon release that are potentiated by extracellular glutamate. In addition, there is new evidence that glutamate induces oxidative stress in islets (Di Cairano et al 2011). Whether GLT-1 protects against oxidative stress by protecting cells in the pancreas against the potentially toxic properties of glutamate (Di Cairano et al 2011) and/or ammonia (Chan and Butterworth 1999;Butterworth 2002) requires further study.…”
Section: Possible Roles Of Glt-1 In Pancreasmentioning
confidence: 99%
“…This loss has been attributed to the lack of intracellular regulation of beta-to alpha-cell signaling during hypoglycemia [124] and may account for the elevated plasma glucagon levels in diabetes patients, indicating alpha-cell hypersecretion [125,126]. As observed for neurons, beta cells are sensitive to elevated extracellular glutamate levels and show signs of secretory defects and apoptosis at high glutamate levels [122]. This effect was not prevented by AMPA-R and Kainate-R antagonists and therefore unlikely caused by excitotoxicity.…”
Section: Proposed Gabaergic and Glutamatergic Signaling In Type 1 Diamentioning
confidence: 96%
“…As outlined in detail in the CNS portion of this chapter, the glutamate/cystine antiporter system xc(À) exchanges intracellular glutamate for extracellular cystine. Excess extracellular glutamate inhibits and/or reverts the activity of the antiporter, thus depleting the cells of cysteine, a building block of the antioxidant glutathione, possibly increasing the cells' vulnerability to oxidative stress [122]. Upregulation of EAAT1 expression on beta cells protects beta cells from glutamate-induced toxicity [122], indicating glutamate signaling as a potential therapeutic target.…”
Section: Proposed Gabaergic and Glutamatergic Signaling In Type 1 Diamentioning
confidence: 99%
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