Sustained Na.sup.+/H.sup.+ Exchanger Activation Promotes Gliotransmitter Release from Reactive Hippocampal Astrocytes following Oxygen-Glucose Deprivation

Hypoxia ischemia (HI)-related brain injury is the major cause of long-term morbidity in neonates. One characteristic hallmark of neonatal HI is the development of reactive astrogliosis in the hippocampus. However, the impact of reactive astrogliosis in hippocampal damage after neonatal HI is not ful...

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Published in:PloS one 2014-01, Vol.9 (1), p.e84294
Main Authors: Cengiz, Pelin, Kintner, Douglas B, Chanana, Vishal, Yuan, Hui, Akture, Erinc, Kendigelen, Pinar, Begum, Gulnaz, Fidan, Emin, Uluc, Kutluay, Ferrazzano, Peter, Sun, Dandan
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Amino acids
Analysis
Brain injuries
Glucose
Glutamate
Ischemia
Neurophysiology
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creator Cengiz, Pelin
Kintner, Douglas B
Chanana, Vishal
Yuan, Hui
Akture, Erinc
Kendigelen, Pinar
Begum, Gulnaz
Fidan, Emin
Uluc, Kutluay
Ferrazzano, Peter
Sun, Dandan
description Hypoxia ischemia (HI)-related brain injury is the major cause of long-term morbidity in neonates. One characteristic hallmark of neonatal HI is the development of reactive astrogliosis in the hippocampus. However, the impact of reactive astrogliosis in hippocampal damage after neonatal HI is not fully understood. In the current study, we investigated the role of Na.sup.+ /H.sup.+ exchanger isoform 1 (NHE1) protein in mouse reactive hippocampal astrocyte function in an in vitro ischemia model (oxygen/glucose deprivation and reoxygenation, OGD/REOX). 2 h OGD significantly increased NHE1 protein expression and NHE1-mediated H.sup.+ efflux in hippocampal astrocytes. NHE1 activity remained stimulated during 1-5 h REOX and returned to the basal level at 24 h REOX. NHE1 activation in hippocampal astrocytes resulted in intracellular Na.sup.+ and Ca.sup.2+ overload. The latter was mediated by reversal of Na.sup.+ /Ca.sup.2+ exchange. Hippocampal astrocytes also exhibited a robust release of gliotransmitters (glutamate and pro-inflammatory cytokines IL-6 and TNF[alpha]) during 1-24 h REOX. Interestingly, inhibition of NHE1 activity with its potent inhibitor HOE 642 not only reduced Na.sup.+ overload but also gliotransmitter release from hippocampal astrocytes. The noncompetitive excitatory amino acid transporter inhibitor TBOA showed a similar effect on blocking the glutamate release. Taken together, we concluded that NHE1 plays an essential role in maintaining H.sup.+ homeostasis in hippocampal astrocytes. Over-stimulation of NHE1 activity following in vitro ischemia disrupts Na.sup.+ and Ca.sup.2+ homeostasis, which reduces Na.sup.+ -dependent glutamate uptake and promotes release of glutamate and cytokines from reactive astrocytes. Therefore, blocking sustained NHE1 activation in reactive astrocytes may provide neuroprotection following HI.
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Interestingly, inhibition of NHE1 activity with its potent inhibitor HOE 642 not only reduced Na.sup.+ overload but also gliotransmitter release from hippocampal astrocytes. The noncompetitive excitatory amino acid transporter inhibitor TBOA showed a similar effect on blocking the glutamate release. Taken together, we concluded that NHE1 plays an essential role in maintaining H.sup.+ homeostasis in hippocampal astrocytes. Over-stimulation of NHE1 activity following in vitro ischemia disrupts Na.sup.+ and Ca.sup.2+ homeostasis, which reduces Na.sup.+ -dependent glutamate uptake and promotes release of glutamate and cytokines from reactive astrocytes. 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subjects Amino acids
Analysis
Brain injuries
Glucose
Glutamate
Ischemia
Neurophysiology
title Sustained Na.sup.+/H.sup.+ Exchanger Activation Promotes Gliotransmitter Release from Reactive Hippocampal Astrocytes following Oxygen-Glucose Deprivation
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