Brian K. Day scite author profile

L-glutamate (Glu) is the predominant excitatory neurotransmitter in the mammalian central nervous system. It plays major roles in normal neurophysiology and many brain disorders by binding to membrane-bound Glu receptors. To overcome the spatial and temporal limitations encountered in previous in vivo extracellular Glu studies, we employed enzyme-coated microelectrode arrays to measure both basal and potassium-evoked release of Glu in the anesthetized rat brain. We also addressed the question of signal identity, which is the predominant criticism of these recording technologies. In vivo self-referencing recordings demonstrated that our Glu signals were both enzyme-and voltage-dependent, supporting the identity of L-glutamate. In addition, basal Glu was actively regulated, tetrodotoxin (TTX)-dependent, and measured in the low micromolar range (approximately 2 lM) using multiple self-referencing subtraction approaches for identification of Glu. Moreover, potassium-evoked Glu release exhibited fast kinetics that were concentration-dependent and reproducible. These data support the hypothesis that Glu release is highly regulated, requiring detection technologies that must be very close to the synapse and measure on a second-by-second basis to best characterize the dynamics of the Glu system.

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Second-by-Second Measures of L-Glutamate and Other Neurotransmitters Using Enzyme-Based Microelectrode Arrays

Hascup¹,

Rutherford²,

Quintero³

et al. 2006

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Real Time in Vivo Measures of l‐Glutamate in the Rat Central Nervous System Using Ceramic‐Based Multisite Microelectrode Arrays

Pomerleau

Day

Huettl

et al. 2003

Annals of the New York Academy of Sciences

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Amperometric measures of age-related changes in glutamate regulation in the cortex of rhesus monkeys

Quintero

Day

Zhang

et al. 2007

Experimental Neurology

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Brian K. Day

Improved ceramic-based multisite microelectrode for rapid measurements of l-glutamate in the CNS

Microelectrode array studies of basal and potassium‐evoked release of l‐glutamate in the anesthetized rat brain

Second-by-Second Measures of L-Glutamate and Other Neurotransmitters Using Enzyme-Based Microelectrode Arrays

Real Time in Vivo Measures of l‐Glutamate in the Rat Central Nervous System Using Ceramic‐Based Multisite Microelectrode Arrays

Amperometric measures of age-related changes in glutamate regulation in the cortex of rhesus monkeys

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