Electrochemical Monitoring of Propagative Fluctuation of Ascorbate in the Live Rat Brain during Spreading Depolarization

Spreading depolarization (SD) occurs frequently in the injured brain, and its neurochemical effects are detrimental to brain function. We report the first observation that the release of ascorbate, an important neurochemical in the brain, is closely accompanied with SD. Ascorbate was monitored with...

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Veröffentlicht in:	Angewandte Chemie 2019-05, Vol.131 (20), p.6688-6691
Hauptverfasser:	Xiao, Tongfang, Wang, Yuexiang, Wei, Huan, Yu, Ping, Jiang, Ying, Mao, Lanqun
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Sprache:	eng
Schlagworte:	Ascorbat Ascorbic acid Biosensoren Brain Carbon fibers Carbon nanotubes Chemistry Corrosion inhibitors Depolarization Electrochemistry Elektrochemie Microelectrodes Neurochemie Selectivity Spatial discrimination Spatial resolution Spreading Spreading depression Streudepolarisierung Variation
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creator	Xiao, Tongfang Wang, Yuexiang Wei, Huan Yu, Ping Jiang, Ying Mao, Lanqun
description	Spreading depolarization (SD) occurs frequently in the injured brain, and its neurochemical effects are detrimental to brain function. We report the first observation that the release of ascorbate, an important neurochemical in the brain, is closely accompanied with SD. Ascorbate was monitored with carbon nanotube (CNT)‐sheathed carbon fiber microelectrodes (CFEs). This system features high selectivity and temporal/spatial resolution. With our sensor, we observed a significant increase in the concentration of ascorbate in response to SD induction. Mechanistic studies show a contrasting behavior; with a SD specific inhibitor, release was completely suppressed, whereas with inhibition of commonly employed glutamate transporters, ascorbate release was increased, demonstrating a powerful means of discriminating ascorbate release between disputed pathways. Most importantly, we observed the propagative nature of ascorbate release following SD. Die Freisetzung von Ascorbat während der Streudepolarisierung (SD) in lebenden Rattenhirnen wurde mithilfe von Kohlenstoffnanoröhren(CNT)‐ummantelten Kohlenstofffaser‐Mikroelektroden (CFEs) verfolgt. Die Freisetzung erfolgt dynamisch und propagierend als Reaktion auf SD. Die Ergebnisse demonstrieren das Potenzial einer elektrochemischen In‐vivo‐Detektionsplattform für die Aufklärung der Neurochemie pathologischer Prozesse im Gehirn.
doi_str_mv	10.1002/ange.201901035
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We report the first observation that the release of ascorbate, an important neurochemical in the brain, is closely accompanied with SD. Ascorbate was monitored with carbon nanotube (CNT)‐sheathed carbon fiber microelectrodes (CFEs). This system features high selectivity and temporal/spatial resolution. With our sensor, we observed a significant increase in the concentration of ascorbate in response to SD induction. Mechanistic studies show a contrasting behavior; with a SD specific inhibitor, release was completely suppressed, whereas with inhibition of commonly employed glutamate transporters, ascorbate release was increased, demonstrating a powerful means of discriminating ascorbate release between disputed pathways. Most importantly, we observed the propagative nature of ascorbate release following SD. Die Freisetzung von Ascorbat während der Streudepolarisierung (SD) in lebenden Rattenhirnen wurde mithilfe von Kohlenstoffnanoröhren(CNT)‐ummantelten Kohlenstofffaser‐Mikroelektroden (CFEs) verfolgt. Die Freisetzung erfolgt dynamisch und propagierend als Reaktion auf SD. 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Die Freisetzung von Ascorbat während der Streudepolarisierung (SD) in lebenden Rattenhirnen wurde mithilfe von Kohlenstoffnanoröhren(CNT)‐ummantelten Kohlenstofffaser‐Mikroelektroden (CFEs) verfolgt. Die Freisetzung erfolgt dynamisch und propagierend als Reaktion auf SD. 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subjects	Ascorbat Ascorbic acid Biosensoren Brain Carbon fibers Carbon nanotubes Chemistry Corrosion inhibitors Depolarization Electrochemistry Elektrochemie Microelectrodes Neurochemie Selectivity Spatial discrimination Spatial resolution Spreading Spreading depression Streudepolarisierung Variation
title	Electrochemical Monitoring of Propagative Fluctuation of Ascorbate in the Live Rat Brain during Spreading Depolarization
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