Transient increase in neuronal chloride concentration by neuroactive aminoacids released from glioma cells

Neuronal chloride concentration ([Cl(−)](i)) is known to be dynamically modulated and alterations in Cl(−) homeostasis may occur in the brain at physiological and pathological conditions, being also likely involved in glioma-related seizures. However, the mechanism leading to changes in neuronal [Cl...

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Autores principales: Bertollini, Cristina, Murana, Emanuele, Mosca, Luciana, D'Erme, Maria, Scala, Federico, Francioso, Antonio, Catalano, Myriam, Limatola, Cristina, Bregestovski, Piotr, Di Angelantonio, Silvia, Ragozzino, Davide
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Frontiers Media S.A. 2012
Materias:
Neuroscience
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3505843/
https://www.ncbi.nlm.nih.gov/pubmed/23189038
http://dx.doi.org/10.3389/fnmol.2012.00100
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author Bertollini, Cristina
Murana, Emanuele
Mosca, Luciana
D'Erme, Maria
Scala, Federico
Francioso, Antonio
Catalano, Myriam
Limatola, Cristina
Bregestovski, Piotr
Di Angelantonio, Silvia
Ragozzino, Davide
author_facet Bertollini, Cristina
Murana, Emanuele
Mosca, Luciana
D'Erme, Maria
Scala, Federico
Francioso, Antonio
Catalano, Myriam
Limatola, Cristina
Bregestovski, Piotr
Di Angelantonio, Silvia
Ragozzino, Davide
author_sort Bertollini, Cristina
collection PubMed
description Neuronal chloride concentration ([Cl(−)](i)) is known to be dynamically modulated and alterations in Cl(−) homeostasis may occur in the brain at physiological and pathological conditions, being also likely involved in glioma-related seizures. However, the mechanism leading to changes in neuronal [Cl(−)](i) during glioma invasion are still unclear. To characterize the potential effect of glioma released soluble factors on neuronal [Cl(−)](i), we used genetically encoded CFP/YFP-based ratiometric Cl-(apical) Sensor transiently expressed in cultured hippocampal neurons. Exposition of neurons to glioma conditioned medium (GCM) caused rapid and transient elevation of [Cl(−)](i), resulting in the increase of fluorescence ratio, which was strongly reduced by blockers of ionotropic glutamate receptors APV and NBQX. Furthermore, in HEK cells expressing GluR1-AMPA receptors, GCM activated ionic currents with efficacy similar to those caused by glutamate, supporting the notion that GCM contains glutamate or glutamatergic agonists, which cause neuronal depolarization, activation of NMDA and AMPA/KA receptors leading to elevation of [Cl(−)](i). Chromatographic analysis of the GCM showed that it contained several aminoacids, including glutamate, whose release from glioma cells did not occur via the most common glial mechanisms of transport, or in response to hypoosmotic stress. GCM also contained glycine, whose action contrasted the glutamate effect. Indeed, strychnine application significantly increased GCM-induced depolarization and [Cl(−)](i) rise. GCM-evoked [Cl(−)](i) elevation was not inhibited by antagonists of Cl(−) transporters and significantly reduced in the presence of anion channels blocker NPPB, suggesting that Cl(−) selective channels are a major route for GCM-induced Cl(−) influx. Altogether, these data show that glioma released aminoacids may dynamically alter Cl(−) equilibrium in surrounding neurons, deeply interfering with their inhibitory balance, likely leading to physiological and pathological consequences.
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spelling pubmed-35058432012-11-27 Transient increase in neuronal chloride concentration by neuroactive aminoacids released from glioma cells Bertollini, Cristina Murana, Emanuele Mosca, Luciana D'Erme, Maria Scala, Federico Francioso, Antonio Catalano, Myriam Limatola, Cristina Bregestovski, Piotr Di Angelantonio, Silvia Ragozzino, Davide Front Mol Neurosci Neuroscience Neuronal chloride concentration ([Cl(−)](i)) is known to be dynamically modulated and alterations in Cl(−) homeostasis may occur in the brain at physiological and pathological conditions, being also likely involved in glioma-related seizures. However, the mechanism leading to changes in neuronal [Cl(−)](i) during glioma invasion are still unclear. To characterize the potential effect of glioma released soluble factors on neuronal [Cl(−)](i), we used genetically encoded CFP/YFP-based ratiometric Cl-(apical) Sensor transiently expressed in cultured hippocampal neurons. Exposition of neurons to glioma conditioned medium (GCM) caused rapid and transient elevation of [Cl(−)](i), resulting in the increase of fluorescence ratio, which was strongly reduced by blockers of ionotropic glutamate receptors APV and NBQX. Furthermore, in HEK cells expressing GluR1-AMPA receptors, GCM activated ionic currents with efficacy similar to those caused by glutamate, supporting the notion that GCM contains glutamate or glutamatergic agonists, which cause neuronal depolarization, activation of NMDA and AMPA/KA receptors leading to elevation of [Cl(−)](i). Chromatographic analysis of the GCM showed that it contained several aminoacids, including glutamate, whose release from glioma cells did not occur via the most common glial mechanisms of transport, or in response to hypoosmotic stress. GCM also contained glycine, whose action contrasted the glutamate effect. Indeed, strychnine application significantly increased GCM-induced depolarization and [Cl(−)](i) rise. GCM-evoked [Cl(−)](i) elevation was not inhibited by antagonists of Cl(−) transporters and significantly reduced in the presence of anion channels blocker NPPB, suggesting that Cl(−) selective channels are a major route for GCM-induced Cl(−) influx. Altogether, these data show that glioma released aminoacids may dynamically alter Cl(−) equilibrium in surrounding neurons, deeply interfering with their inhibitory balance, likely leading to physiological and pathological consequences. Frontiers Media S.A. 2012-11-26 /pmc/articles/PMC3505843/ /pubmed/23189038 http://dx.doi.org/10.3389/fnmol.2012.00100 Text en Copyright © 2012 Bertollini, Murana, Mosca, D'Erme, Scala, Francioso, Catalano, Limatola, Bregestovski, Di Angelantonio and Ragozzino. http://www.frontiersin.org/licenseagreement This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in other forums, provided the original authors and source are credited and subject to any copyright notices concerning any third-party graphics etc.
spellingShingle Neuroscience
Bertollini, Cristina
Murana, Emanuele
Mosca, Luciana
D'Erme, Maria
Scala, Federico
Francioso, Antonio
Catalano, Myriam
Limatola, Cristina
Bregestovski, Piotr
Di Angelantonio, Silvia
Ragozzino, Davide
Transient increase in neuronal chloride concentration by neuroactive aminoacids released from glioma cells
title Transient increase in neuronal chloride concentration by neuroactive aminoacids released from glioma cells
title_full Transient increase in neuronal chloride concentration by neuroactive aminoacids released from glioma cells
title_fullStr Transient increase in neuronal chloride concentration by neuroactive aminoacids released from glioma cells
title_full_unstemmed Transient increase in neuronal chloride concentration by neuroactive aminoacids released from glioma cells
title_short Transient increase in neuronal chloride concentration by neuroactive aminoacids released from glioma cells
title_sort transient increase in neuronal chloride concentration by neuroactive aminoacids released from glioma cells
topic Neuroscience
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3505843/
https://www.ncbi.nlm.nih.gov/pubmed/23189038
http://dx.doi.org/10.3389/fnmol.2012.00100
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