In vivo cellular uptake of glutamate is impaired in the rat hippocampus during and after transient cerebral ischemia

In vivo cellular uptake of glutamate is impaired in the rat hippocampus during and after transient cerebral ischemia: a microdialysis extraction study

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In vivo cellular uptake of glutamate is impaired in the rat hippocampus during and after transient cerebral ischemia : a microdialysis extraction study. / Bruhn, T; Christensen, Thomas; Diemer, Nils Henrik.

In: Journal of Neuroscience Research, Vol. 66, No. 6, 15.12.2001, p. 1118-26.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Bruhn, T, Christensen, T & Diemer, NH 2001, 'In vivo cellular uptake of glutamate is impaired in the rat hippocampus during and after transient cerebral ischemia: a microdialysis extraction study', Journal of Neuroscience Research, vol. 66, no. 6, pp. 1118-26.

APA

Bruhn, T., Christensen, T., & Diemer, N. H. (2001). In vivo cellular uptake of glutamate is impaired in the rat hippocampus during and after transient cerebral ischemia: a microdialysis extraction study. Journal of Neuroscience Research, 66(6), 1118-26.

Vancouver

Bruhn T, Christensen T, Diemer NH. In vivo cellular uptake of glutamate is impaired in the rat hippocampus during and after transient cerebral ischemia: a microdialysis extraction study. Journal of Neuroscience Research. 2001 Dec 15;66(6):1118-26.

Author

Bruhn, T ; Christensen, Thomas ; Diemer, Nils Henrik. / In vivo cellular uptake of glutamate is impaired in the rat hippocampus during and after transient cerebral ischemia : a microdialysis extraction study. In: Journal of Neuroscience Research. 2001 ; Vol. 66, No. 6. pp. 1118-26.

Bibtex

@article{8645a0eced2b40b58d384490b6188792,

title = "In vivo cellular uptake of glutamate is impaired in the rat hippocampus during and after transient cerebral ischemia: a microdialysis extraction study",

abstract = "Using microdialysis in CA1 of the rat hippocampus, we studied the effect of transient cerebral ischemia on in vivo uptake and on extracellular levels of glutamate during, and at different time points after ischemia. (3)H-D-aspartate (test substance), and (14)C-mannitol (reference substance), were added to the dialysis perfusate, and the cellular extraction of (3)H-D-aspartate was calculated from scintillation analysis of fractionated dialysate samples. The extraction of (3)H-D-aspartate was studied both in a tracer like condition with a perfusate concentration of 0.2 microM, and in a condition of high saturation level, with 1.0 mM D-aspartate added to the perfusate. In between radioisotope perfusions, dialysate was sampled for analysis of amino acid content by HPLC. During ischemia, extraction of (3)H-D-aspartate (0.2 microM) declined to a maximum reduction of 68%. In the hours after ischemia, extraction of (3)H-D-aspartate (0.2 microM) was decreased by 32%. In the days after ischemia, there was a progressive decline in extraction of (3)H-D-aspartate (1.0 mM), reaching a reduction of 89% on Day 4 after ischemia. Extracellular glutamate remained at control levels at all time points after ischemia. The present study is the first to investigate uptake of glutamate in the intact rat brain in relation to cerebral ischemia. Evidence is provided that uptake of Glu is restrained during ischemia, and that in the hours after ischemia, the extracellular turnover of glutamate is decreased. In the course of the days after ischemia, degeneration of CA1 pyramidal cells occurs concomitantly with a progressive decline in glutamate transport ability, possibly of pathogenetic importance to CA1 pyramidal cell loss.",

keywords = "Animals, Aspartic Acid, Brain Ischemia, Carrier Proteins, Enzyme Inhibitors, Extracellular Space, Glutamic Acid, Hippocampus, Male, Microdialysis, Nerve Degeneration, Presynaptic Terminals, Rats, Rats, Wistar, Synaptic Transmission, Tritium",

author = "T Bruhn and Thomas Christensen and Diemer, {Nils Henrik}",

year = "2001",

month = dec,

day = "15",

language = "English",

volume = "66",

pages = "1118--26",

journal = "Journal of Neuroscience Research",

issn = "0360-4012",

publisher = "JohnWiley & Sons, Inc.",

number = "6",

}

RIS

TY - JOUR

T1 - In vivo cellular uptake of glutamate is impaired in the rat hippocampus during and after transient cerebral ischemia

T2 - a microdialysis extraction study

AU - Bruhn, T

AU - Christensen, Thomas

AU - Diemer, Nils Henrik

PY - 2001/12/15

Y1 - 2001/12/15

N2 - Using microdialysis in CA1 of the rat hippocampus, we studied the effect of transient cerebral ischemia on in vivo uptake and on extracellular levels of glutamate during, and at different time points after ischemia. (3)H-D-aspartate (test substance), and (14)C-mannitol (reference substance), were added to the dialysis perfusate, and the cellular extraction of (3)H-D-aspartate was calculated from scintillation analysis of fractionated dialysate samples. The extraction of (3)H-D-aspartate was studied both in a tracer like condition with a perfusate concentration of 0.2 microM, and in a condition of high saturation level, with 1.0 mM D-aspartate added to the perfusate. In between radioisotope perfusions, dialysate was sampled for analysis of amino acid content by HPLC. During ischemia, extraction of (3)H-D-aspartate (0.2 microM) declined to a maximum reduction of 68%. In the hours after ischemia, extraction of (3)H-D-aspartate (0.2 microM) was decreased by 32%. In the days after ischemia, there was a progressive decline in extraction of (3)H-D-aspartate (1.0 mM), reaching a reduction of 89% on Day 4 after ischemia. Extracellular glutamate remained at control levels at all time points after ischemia. The present study is the first to investigate uptake of glutamate in the intact rat brain in relation to cerebral ischemia. Evidence is provided that uptake of Glu is restrained during ischemia, and that in the hours after ischemia, the extracellular turnover of glutamate is decreased. In the course of the days after ischemia, degeneration of CA1 pyramidal cells occurs concomitantly with a progressive decline in glutamate transport ability, possibly of pathogenetic importance to CA1 pyramidal cell loss.

AB - Using microdialysis in CA1 of the rat hippocampus, we studied the effect of transient cerebral ischemia on in vivo uptake and on extracellular levels of glutamate during, and at different time points after ischemia. (3)H-D-aspartate (test substance), and (14)C-mannitol (reference substance), were added to the dialysis perfusate, and the cellular extraction of (3)H-D-aspartate was calculated from scintillation analysis of fractionated dialysate samples. The extraction of (3)H-D-aspartate was studied both in a tracer like condition with a perfusate concentration of 0.2 microM, and in a condition of high saturation level, with 1.0 mM D-aspartate added to the perfusate. In between radioisotope perfusions, dialysate was sampled for analysis of amino acid content by HPLC. During ischemia, extraction of (3)H-D-aspartate (0.2 microM) declined to a maximum reduction of 68%. In the hours after ischemia, extraction of (3)H-D-aspartate (0.2 microM) was decreased by 32%. In the days after ischemia, there was a progressive decline in extraction of (3)H-D-aspartate (1.0 mM), reaching a reduction of 89% on Day 4 after ischemia. Extracellular glutamate remained at control levels at all time points after ischemia. The present study is the first to investigate uptake of glutamate in the intact rat brain in relation to cerebral ischemia. Evidence is provided that uptake of Glu is restrained during ischemia, and that in the hours after ischemia, the extracellular turnover of glutamate is decreased. In the course of the days after ischemia, degeneration of CA1 pyramidal cells occurs concomitantly with a progressive decline in glutamate transport ability, possibly of pathogenetic importance to CA1 pyramidal cell loss.

KW - Animals

KW - Aspartic Acid

KW - Brain Ischemia

KW - Carrier Proteins

KW - Enzyme Inhibitors

KW - Extracellular Space

KW - Glutamic Acid

KW - Hippocampus

KW - Male

KW - Microdialysis

KW - Nerve Degeneration

KW - Presynaptic Terminals

KW - Rats

KW - Rats, Wistar

KW - Synaptic Transmission

KW - Tritium

M3 - Journal article

C2 - 11746444

VL - 66

SP - 1118

EP - 1126

JO - Journal of Neuroscience Research

JF - Journal of Neuroscience Research

SN - 0360-4012

IS - 6

ER -

ID: 45392345

Faculty of Law