Exosomal TNF-[alpha] mediates voltage-gated [Na.sup.+] channel 1.6 overexpression and contributes to brain tumor-induced neuronal hyperexcitability

Exosomal TNF-[alpha] mediates voltage-gated [Na.sup.+] channel 1.6 overexpression and contributes to brain tumor-induced neuronal hyperexcitability

Patients affected by glioma frequently experience epileptic discharges; however, the causes of brain tumor-related epilepsy (BTRE) are still not completely understood. We investigated the mechanisms underlying BTRE by analyzing the effects of exosomes released by U87 glioma cells and by patient-deri...

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Veröffentlicht in:The Journal of clinical investigation 2024-09, Vol.134 (18)
Hauptverfasser: Trivino, Cesar Adolfo Sanchez, Spelat, Renza, Spada, Federica, D'Angelo, Camilla, Manini, Ivana, Rolle, Irene Giulia, Ius, Tamara, Parisse, Pietro, Menini, Anna, Cesselli, Daniela, Skrap, Miran, Cesca, Fabrizia, Torre, Vincent
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Analysis
Brain tumors
Drug approval
Epilepsy
Genetic aspects
Health aspects
Medical research
Medicine, Experimental
Neurons
Physiological aspects
Rheumatoid factor
Scientific equipment and supplies industry
Sodium channels
Tumor necrosis factor
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container_issue 18
container_start_page
container_title The Journal of clinical investigation
container_volume 134
creator Trivino, Cesar Adolfo Sanchez
Spelat, Renza
Spada, Federica
D'Angelo, Camilla
Manini, Ivana
Rolle, Irene Giulia
Ius, Tamara
Parisse, Pietro
Menini, Anna
Cesselli, Daniela
Skrap, Miran
Cesca, Fabrizia
Torre, Vincent
description Patients affected by glioma frequently experience epileptic discharges; however, the causes of brain tumor-related epilepsy (BTRE) are still not completely understood. We investigated the mechanisms underlying BTRE by analyzing the effects of exosomes released by U87 glioma cells and by patient-derived glioma cells. Rat hippocampal neurons incubated for 24 hours with these exosomes exhibited increased spontaneous firing, while their resting membrane potential shifted positively by 10-15 mV. Voltage clamp recordings demonstrated that the activation of the [Na.sup.+] current shifted toward more hyperpolarized voltages by 10-15 mV. To understand the factors inducing hyperexcitability, we focused on exosomal cytokines. Western blot and ELISAs showed that TNF-[alpha] was present inside glioma-derived exosomes. Remarkably, incubation with TNF-[alpha] fully mimicked the phenotype induced by exosomes, with neurons firing continuously, while their resting membrane potential shifted positively. Real-time PCR revealed that both exosomes and TNF-[alpha] induced overexpression of the voltage-gated [Na.sup.+] channel Nav1.6, a low-threshold [Na.sup.+] channel responsible for hyperexcitability. When neurons were preincubated with infliximab, a specific TNF-[alpha] inhibitor, the hyperexcitability induced by exosomes and TNF-[alpha] was drastically reduced. We propose that infliximab, an FDA-approved drug to treat rheumatoid arthritis, could ameliorate the conditions of glioma patients with BTRE.
doi_str_mv 10.1172/JCI166271
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Real-time PCR revealed that both exosomes and TNF-[alpha] induced overexpression of the voltage-gated [Na.sup.+] channel Nav1.6, a low-threshold [Na.sup.+] channel responsible for hyperexcitability. When neurons were preincubated with infliximab, a specific TNF-[alpha] inhibitor, the hyperexcitability induced by exosomes and TNF-[alpha] was drastically reduced. 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Real-time PCR revealed that both exosomes and TNF-[alpha] induced overexpression of the voltage-gated [Na.sup.+] channel Nav1.6, a low-threshold [Na.sup.+] channel responsible for hyperexcitability. When neurons were preincubated with infliximab, a specific TNF-[alpha] inhibitor, the hyperexcitability induced by exosomes and TNF-[alpha] was drastically reduced. 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subjects Analysis
Brain tumors
Drug approval
Epilepsy
Genetic aspects
Health aspects
Medical research
Medicine, Experimental
Neurons
Physiological aspects
Rheumatoid factor
Scientific equipment and supplies industry
Sodium channels
Tumor necrosis factor
title Exosomal TNF-[alpha] mediates voltage-gated [Na.sup.+] channel 1.6 overexpression and contributes to brain tumor-induced neuronal hyperexcitability
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