Ischemic damage in hippocampal CA1 is dependent on glutamate release and intact innervation from CA3

H Benveniste; M B Jørgensen; M Sandberg; Thomas Christensen; H Hagberg; Nils Henrik Diemer

doi:10.1038/jcbfm.1989.90

Ischemic damage in hippocampal CA1 is dependent on glutamate release and intact innervation from CA3

H Benveniste, M B Jørgensen, M Sandberg, Thomas Christensen, H Hagberg, Nils Henrik Diemer

236 Citationer (Scopus)

Abstract

The removal of glutamatergic afferents to CA1 by destruction of the CA3 region is known to protect CA1 pyramidal cells against 10 min of transient global ischemia. To investigate further the pathogenetic significance of glutamate, we measured the release of glutamate in intact and CA3-lesioned CA1 hippocampal tissue. In intact CA1 hippocampal tissue, glutamate increased sixfold during ischemia; in the CA3-lesioned CA1 region, however, glutamate only increased 1.4-fold during ischemia. To assess the neurotoxic potential of the ischemia-induced release of glutamate, we injected the same concentration of glutamate into the CA1 region as is released during ischemia in normal, CA3-lesioned, and ischemic CA1 tissue. We found that this particular concentration of glutamate was sufficient to destroy CA1 pyramids in the vicinity of the injection site in intact and CA3-lesioned CA1 tissue when administered during control (non-ischemic) conditions. In contrast, the same amount injected during ischemia in the CA3-lesioned CA1 region destroyed pyramidal cells in a widely distributed zone around the injection site in the CA1 region. It is concluded that the ischemia-induced damage of pyramidal cells in CA1 is dependent on glutamate release and intact innervation from CA3.

Originalsprog	Engelsk
Tidsskrift	Journal of Cerebral Blood Flow and Metabolism
Vol/bind	9
Udgave nummer	5
Sider (fra-til)	629-39
Antal sider	11
ISSN	0271-678X
DOI	https://doi.org/10.1038/jcbfm.1989.90
Status	Udgivet - okt. 1989

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10.1038/jcbfm.1989.90

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title = "Ischemic damage in hippocampal CA1 is dependent on glutamate release and intact innervation from CA3",

abstract = "The removal of glutamatergic afferents to CA1 by destruction of the CA3 region is known to protect CA1 pyramidal cells against 10 min of transient global ischemia. To investigate further the pathogenetic significance of glutamate, we measured the release of glutamate in intact and CA3-lesioned CA1 hippocampal tissue. In intact CA1 hippocampal tissue, glutamate increased sixfold during ischemia; in the CA3-lesioned CA1 region, however, glutamate only increased 1.4-fold during ischemia. To assess the neurotoxic potential of the ischemia-induced release of glutamate, we injected the same concentration of glutamate into the CA1 region as is released during ischemia in normal, CA3-lesioned, and ischemic CA1 tissue. We found that this particular concentration of glutamate was sufficient to destroy CA1 pyramids in the vicinity of the injection site in intact and CA3-lesioned CA1 tissue when administered during control (non-ischemic) conditions. In contrast, the same amount injected during ischemia in the CA3-lesioned CA1 region destroyed pyramidal cells in a widely distributed zone around the injection site in the CA1 region. It is concluded that the ischemia-induced damage of pyramidal cells in CA1 is dependent on glutamate release and intact innervation from CA3.",

keywords = "Amino Acids, Animals, Brain, Brain Ischemia, Cell Survival, Dialysis, Glutamates, Glutamic Acid, Hippocampus, Kainic Acid, Male, Neural Pathways, Osmolar Concentration, Rats, Rats, Inbred Strains",

author = "H Benveniste and J{\o}rgensen, {M B} and M Sandberg and Thomas Christensen and H Hagberg and Diemer, {Nils Henrik}",

year = "1989",

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doi = "10.1038/jcbfm.1989.90",

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pages = "629--39",

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T1 - Ischemic damage in hippocampal CA1 is dependent on glutamate release and intact innervation from CA3

AU - Benveniste, H

AU - Jørgensen, M B

AU - Sandberg, M

AU - Christensen, Thomas

AU - Hagberg, H

AU - Diemer, Nils Henrik

PY - 1989/10

Y1 - 1989/10

N2 - The removal of glutamatergic afferents to CA1 by destruction of the CA3 region is known to protect CA1 pyramidal cells against 10 min of transient global ischemia. To investigate further the pathogenetic significance of glutamate, we measured the release of glutamate in intact and CA3-lesioned CA1 hippocampal tissue. In intact CA1 hippocampal tissue, glutamate increased sixfold during ischemia; in the CA3-lesioned CA1 region, however, glutamate only increased 1.4-fold during ischemia. To assess the neurotoxic potential of the ischemia-induced release of glutamate, we injected the same concentration of glutamate into the CA1 region as is released during ischemia in normal, CA3-lesioned, and ischemic CA1 tissue. We found that this particular concentration of glutamate was sufficient to destroy CA1 pyramids in the vicinity of the injection site in intact and CA3-lesioned CA1 tissue when administered during control (non-ischemic) conditions. In contrast, the same amount injected during ischemia in the CA3-lesioned CA1 region destroyed pyramidal cells in a widely distributed zone around the injection site in the CA1 region. It is concluded that the ischemia-induced damage of pyramidal cells in CA1 is dependent on glutamate release and intact innervation from CA3.

AB - The removal of glutamatergic afferents to CA1 by destruction of the CA3 region is known to protect CA1 pyramidal cells against 10 min of transient global ischemia. To investigate further the pathogenetic significance of glutamate, we measured the release of glutamate in intact and CA3-lesioned CA1 hippocampal tissue. In intact CA1 hippocampal tissue, glutamate increased sixfold during ischemia; in the CA3-lesioned CA1 region, however, glutamate only increased 1.4-fold during ischemia. To assess the neurotoxic potential of the ischemia-induced release of glutamate, we injected the same concentration of glutamate into the CA1 region as is released during ischemia in normal, CA3-lesioned, and ischemic CA1 tissue. We found that this particular concentration of glutamate was sufficient to destroy CA1 pyramids in the vicinity of the injection site in intact and CA3-lesioned CA1 tissue when administered during control (non-ischemic) conditions. In contrast, the same amount injected during ischemia in the CA3-lesioned CA1 region destroyed pyramidal cells in a widely distributed zone around the injection site in the CA1 region. It is concluded that the ischemia-induced damage of pyramidal cells in CA1 is dependent on glutamate release and intact innervation from CA3.

KW - Amino Acids

KW - Animals

KW - Brain

KW - Brain Ischemia

KW - Cell Survival

KW - Dialysis

KW - Glutamates

KW - Glutamic Acid

KW - Hippocampus

KW - Kainic Acid

KW - Male

KW - Neural Pathways

KW - Osmolar Concentration

KW - Rats

KW - Rats, Inbred Strains

U2 - 10.1038/jcbfm.1989.90

DO - 10.1038/jcbfm.1989.90

M3 - Journal article

C2 - 2570785

SN - 0271-678X

VL - 9

SP - 629

EP - 639

JO - Journal of Cerebral Blood Flow and Metabolism

JF - Journal of Cerebral Blood Flow and Metabolism

IS - 5

ER -

Ischemic damage in hippocampal CA1 is dependent on glutamate release and intact innervation from CA3

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