2013
DOI: 10.1089/ars.2011.4391
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The Cystine/Glutamate Antiporter System xcin Health and Disease: From Molecular Mechanisms to Novel Therapeutic Opportunities

Abstract: The antiporter system x c -imports the amino acid cystine, the oxidized form of cysteine, into cells with a 1:1 counter-transport of glutamate. It is composed of a light chain, xCT, and a heavy chain, 4F2 heavy chain (4F2hc), and, thus, belongs to the family of heterodimeric amino acid transporters. Cysteine is the rate-limiting substrate for the important antioxidant glutathione (GSH) and, along with cystine, it also forms a key redox couple on its own. Glutamate is a major neurotransmitter in the central ner… Show more

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Cited by 787 publications
(713 citation statements)
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References 304 publications
(350 reference statements)
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“…Nevertheless, there are several important non-vesicular (non-exocytotic) mechanisms responsible for glutamate release in pathological contexts (Malarkey and Parpura, 2008;Zhou and Danbolt, 2014) including: (1) release through anion channels (Wang et al, 2013a); (2) reverse efflux through EAATs (Ye and Sontheimer, 1996), (3) release by xC transporters as part of the cystine-glutamate exchange process (Lewerenz et al, 2013), (4) astrocytic vesicular glutamate release during gliotransmission (Petrelli and Bezzi, 2016) and release through hemi-channels on astrocytes and microglia (Malarkey and Parpura, 2008). A detailed review of the functioning of these release mechanisms is beyond the scope of this review, and the reader is directed elsewhere (Dantzer and Walker, 2014;Malarkey and Parpura, 2008;Najjar et al, 2013;Tilleux and Hermans, 2007).…”
Section: Molecular Mechanisms Of Glutamate Releasementioning
confidence: 99%
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“…Nevertheless, there are several important non-vesicular (non-exocytotic) mechanisms responsible for glutamate release in pathological contexts (Malarkey and Parpura, 2008;Zhou and Danbolt, 2014) including: (1) release through anion channels (Wang et al, 2013a); (2) reverse efflux through EAATs (Ye and Sontheimer, 1996), (3) release by xC transporters as part of the cystine-glutamate exchange process (Lewerenz et al, 2013), (4) astrocytic vesicular glutamate release during gliotransmission (Petrelli and Bezzi, 2016) and release through hemi-channels on astrocytes and microglia (Malarkey and Parpura, 2008). A detailed review of the functioning of these release mechanisms is beyond the scope of this review, and the reader is directed elsewhere (Dantzer and Walker, 2014;Malarkey and Parpura, 2008;Najjar et al, 2013;Tilleux and Hermans, 2007).…”
Section: Molecular Mechanisms Of Glutamate Releasementioning
confidence: 99%
“…Once thought to be exclusively astrocytic in location, now xC-transporters are known to be located on other glial cells including microglia (Lewerenz et al, 2013;Lewerenz and Maher, 2015). As described earlier, the xC-system exchanges cystine for glutamate in a 1 : 1 ratio where glutamate is extruded in exchange for intake of cystine, which is used for the synthesis of glutathione (GSH).…”
Section: Glutamate Release Through the Cystine-glutamate Exchange Sysmentioning
confidence: 99%
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