GABAergic disinhibition and impaired KCC2 cotransporter activity underlie tumor-associated epilepsy

Seizures frequently accompany gliomas and often escalate to peritumoral epilepsy. Previous work revealed the importance of tumor‐derived excitatory glutamate (Glu) release mediated by the cystine‐glutamate transporter (SXC) in epileptogenesis. We now show a novel contribution of GABAergic disinhibit...

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Veröffentlicht in:	Glia 2015-01, Vol.63 (1), p.23-36
Hauptverfasser:	Campbell, Susan L., Robel, Stefanie, Cuddapah, Vishnu A., Robert, Stephanie, Buckingham, Susan C., Kahle, Kristopher T., Sontheimer, Harald
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Brain Brain Neoplasms - complications Brain Neoplasms - metabolism Epilepsy Epilepsy - etiology Epilepsy - metabolism Female GABA gamma-Aminobutyric Acid - metabolism glioma Glioma - complications Glioma - metabolism Interneurons - metabolism K Cl- Cotransporters KCC2 Male Mice Neurons - metabolism peritumoral epilepsy Receptors, GABA-A - metabolism Symporters - metabolism Synaptic Transmission - physiology
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description	Seizures frequently accompany gliomas and often escalate to peritumoral epilepsy. Previous work revealed the importance of tumor‐derived excitatory glutamate (Glu) release mediated by the cystine‐glutamate transporter (SXC) in epileptogenesis. We now show a novel contribution of GABAergic disinhibition to disease pathophysiology. In a validated mouse glioma model, we found that peritumoral parvalbumin‐positive GABAergic inhibitory interneurons are significantly reduced, corresponding with deficits in spontaneous and evoked inhibitory neurotransmission. Most remaining peritumoral neurons exhibit elevated intracellular Cl− concentration ([Cl−]i) and consequently depolarizing, excitatory gamma‐aminobutyric acid (GABA) responses. In these neurons, the plasmalemmal expression of KCC2, which establishes the low [Cl−]i required for GABAAR‐mediated inhibition, is significantly decreased. Interestingly, reductions in inhibition are independent of Glu release, but the presence of both decreased inhibition and decreased SXC expression is required for epileptogenesis. We suggest GABAergic disinhibition renders peritumoral neuronal networks hyper‐excitable and susceptible to seizures triggered by excitatory stimuli, and propose KCC2 as a therapeutic target. GLIA 2015;63:23–36 Main Points In a mouse model of glioma peritumoral epilepsy, we show that peritumoral cortex contained fewer PV‐positive GABAergic interneurons and elevated [Cl−]i leading to depolarizing GABA responses and reduced inhibition in peritumoral neurons.
doi_str_mv	10.1002/glia.22730
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Previous work revealed the importance of tumor‐derived excitatory glutamate (Glu) release mediated by the cystine‐glutamate transporter (SXC) in epileptogenesis. We now show a novel contribution of GABAergic disinhibition to disease pathophysiology. In a validated mouse glioma model, we found that peritumoral parvalbumin‐positive GABAergic inhibitory interneurons are significantly reduced, corresponding with deficits in spontaneous and evoked inhibitory neurotransmission. Most remaining peritumoral neurons exhibit elevated intracellular Cl− concentration ([Cl−]i) and consequently depolarizing, excitatory gamma‐aminobutyric acid (GABA) responses. In these neurons, the plasmalemmal expression of KCC2, which establishes the low [Cl−]i required for GABAAR‐mediated inhibition, is significantly decreased. Interestingly, reductions in inhibition are independent of Glu release, but the presence of both decreased inhibition and decreased SXC expression is required for epileptogenesis. We suggest GABAergic disinhibition renders peritumoral neuronal networks hyper‐excitable and susceptible to seizures triggered by excitatory stimuli, and propose KCC2 as a therapeutic target. 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Previous work revealed the importance of tumor‐derived excitatory glutamate (Glu) release mediated by the cystine‐glutamate transporter (SXC) in epileptogenesis. We now show a novel contribution of GABAergic disinhibition to disease pathophysiology. In a validated mouse glioma model, we found that peritumoral parvalbumin‐positive GABAergic inhibitory interneurons are significantly reduced, corresponding with deficits in spontaneous and evoked inhibitory neurotransmission. Most remaining peritumoral neurons exhibit elevated intracellular Cl− concentration ([Cl−]i) and consequently depolarizing, excitatory gamma‐aminobutyric acid (GABA) responses. In these neurons, the plasmalemmal expression of KCC2, which establishes the low [Cl−]i required for GABAAR‐mediated inhibition, is significantly decreased. Interestingly, reductions in inhibition are independent of Glu release, but the presence of both decreased inhibition and decreased SXC expression is required for epileptogenesis. We suggest GABAergic disinhibition renders peritumoral neuronal networks hyper‐excitable and susceptible to seizures triggered by excitatory stimuli, and propose KCC2 as a therapeutic target. 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We suggest GABAergic disinhibition renders peritumoral neuronal networks hyper‐excitable and susceptible to seizures triggered by excitatory stimuli, and propose KCC2 as a therapeutic target. GLIA 2015;63:23–36 Main Points In a mouse model of glioma peritumoral epilepsy, we show that peritumoral cortex contained fewer PV‐positive GABAergic interneurons and elevated [Cl−]i leading to depolarizing GABA responses and reduced inhibition in peritumoral neurons.</abstract><cop>United States</cop><pub>Blackwell Publishing Ltd</pub><pmid>25066727</pmid><doi>10.1002/glia.22730</doi><tpages>14</tpages><oa>free_for_read</oa></addata></record>
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subjects	Animals Brain Brain Neoplasms - complications Brain Neoplasms - metabolism Epilepsy Epilepsy - etiology Epilepsy - metabolism Female GABA gamma-Aminobutyric Acid - metabolism glioma Glioma - complications Glioma - metabolism Interneurons - metabolism K Cl- Cotransporters KCC2 Male Mice Neurons - metabolism peritumoral epilepsy Receptors, GABA-A - metabolism Symporters - metabolism Synaptic Transmission - physiology
title	GABAergic disinhibition and impaired KCC2 cotransporter activity underlie tumor-associated epilepsy
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