Neuron-oligodendrocyte potassium shuttling at nodes of Ranvier protects against inflammatory demyelination

Hannah Kapell; Luca Fazio; Julia Dyckow; Sophia Schwarz; Andrés Cruz-Herranz; Christina Mayer; Joaquin Campos; Elisa D’Este; Wiebke Möbius; Christian Cordano; Anne Katrin Pröbstel; Marjan Gharagozloo; Amel Zulji; Venu Narayanan Naik; Anna Delank; Manuela Cerina; Thomas Müntefering; Celia Lerma-Martin; Jana K. Sonner; Jung Hyung Sin; Paul Disse; Nicole Rychlik; Khalida Sabeur; Manideep Chavali; Rajneesh Srivastava; Matthias Heidenreich; Kathryn C. Fitzgerald; Guiscard Seebohm; Christine Stadelmann; Bernhard Hemmer; Michael Platten; Thomas J. Jentsch; Maren Engelhardt; Thomas Budde; Klaus Armin Nave; Peter A. Calabresi; Manuel A. Friese; Ari J. Green; Claudio Acuna; David H. Rowitch; Sven G. Meuth; Lucas Schirmer

doi:10.1172/JCI164223

Neuron-oligodendrocyte potassium shuttling at nodes of Ranvier protects against inflammatory demyelination

Hannah Kapell, Luca Fazio, Julia Dyckow, Sophia Schwarz, Andrés Cruz-Herranz, Christina Mayer, Joaquin Campos, Elisa D’Este, Wiebke Möbius, Christian Cordano, Anne Katrin Pröbstel, Marjan Gharagozloo, Amel Zulji, Venu Narayanan Naik, Anna Delank, Manuela Cerina, Thomas Müntefering, Celia Lerma-Martin, Jana K. Sonner, Jung Hyung SinPaul Disse, Nicole Rychlik, Khalida Sabeur, Manideep Chavali, Rajneesh Srivastava, Matthias Heidenreich, Kathryn C. Fitzgerald, Guiscard Seebohm, Christine Stadelmann, Bernhard Hemmer, Michael Platten, Thomas J. Jentsch, Maren Engelhardt, Thomas Budde, Klaus Armin Nave, Peter A. Calabresi, Manuel A. Friese, Ari J. Green, Claudio Acuna, David H. Rowitch, Sven G. Meuth, Lucas Schirmer

Research output: Contribution to journal › Article › peer-review

4 Scopus citations

Abstract

Multiple sclerosis (MS) is a progressive inflammatory demyelinating disease of the CNS. Increasing evidence suggests that vulnerable neurons in MS exhibit fatal metabolic exhaustion over time, a phenomenon hypothesized to be caused by chronic hyperexcitability. Axonal Kv7 (outward-rectifying) and oligodendroglial Kir4.1 (inward-rectifying) potassium channels have important roles in regulating neuronal excitability at and around the nodes of Ranvier. Here, we studied the spatial and functional relationship between neuronal Kv7 and oligodendroglial Kir4.1 channels and assessed the transcriptional and functional signatures of cortical and retinal projection neurons under physiological and inflammatory demyelinating conditions. We found that both channels became dysregulated in MS and experimental autoimmune encephalomyelitis (EAE), with Kir4.1 channels being chronically downregulated and Kv7 channel subunits being transiently upregulated during inflammatory demyelination. Further, we observed that pharmacological Kv7 channel opening with retigabine reduced neuronal hyperexcitability in human and EAE neurons, improved clinical EAE signs, and rescued neuronal pathology in oligodendrocyte–Kir4.1–deficient (OL-Kir4.1–deficient) mice. In summary, our findings indicate that neuron-OL compensatory interactions promoted resilience through Kv7 and Kir4.1 channels and identify pharmacological activation of nodal Kv7 channels as a neuroprotective strategy against inflammatory demyelination.

Original language	English (US)
Article number	e164223
Journal	Journal of Clinical Investigation
Volume	133
Issue number	7
DOIs	https://doi.org/10.1172/JCI164223
State	Published - Apr 3 2023
Externally published	Yes

ASJC Scopus subject areas

General Medicine

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10.1172/JCI164223

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Kapell, H., Fazio, L., Dyckow, J., Schwarz, S., Cruz-Herranz, A., Mayer, C., Campos, J., D’Este, E., Möbius, W., Cordano, C., Pröbstel, A. K., Gharagozloo, M., Zulji, A., Naik, V. N., Delank, A., Cerina, M., Müntefering, T., Lerma-Martin, C., Sonner, J. K., ... Schirmer, L. (2023). Neuron-oligodendrocyte potassium shuttling at nodes of Ranvier protects against inflammatory demyelination. Journal of Clinical Investigation, 133(7), Article e164223. https://doi.org/10.1172/JCI164223

Kapell, H, Fazio, L, Dyckow, J, Schwarz, S, Cruz-Herranz, A, Mayer, C, Campos, J, D’Este, E, Möbius, W, Cordano, C, Pröbstel, AK, Gharagozloo, M, Zulji, A, Naik, VN, Delank, A, Cerina, M, Müntefering, T, Lerma-Martin, C, Sonner, JK, Sin, JH, Disse, P, Rychlik, N, Sabeur, K, Chavali, M, Srivastava, R, Heidenreich, M, Fitzgerald, KC, Seebohm, G, Stadelmann, C, Hemmer, B, Platten, M, Jentsch, TJ, Engelhardt, M, Budde, T, Nave, KA, Calabresi, PA, Friese, MA, Green, AJ, Acuna, C, Rowitch, DH, Meuth, SG & Schirmer, L 2023, 'Neuron-oligodendrocyte potassium shuttling at nodes of Ranvier protects against inflammatory demyelination', Journal of Clinical Investigation, vol. 133, no. 7, e164223. https://doi.org/10.1172/JCI164223

@article{4718e87f7ff449d681978cd51a78bdcd,

title = "Neuron-oligodendrocyte potassium shuttling at nodes of Ranvier protects against inflammatory demyelination",

abstract = "Multiple sclerosis (MS) is a progressive inflammatory demyelinating disease of the CNS. Increasing evidence suggests that vulnerable neurons in MS exhibit fatal metabolic exhaustion over time, a phenomenon hypothesized to be caused by chronic hyperexcitability. Axonal Kv7 (outward-rectifying) and oligodendroglial Kir4.1 (inward-rectifying) potassium channels have important roles in regulating neuronal excitability at and around the nodes of Ranvier. Here, we studied the spatial and functional relationship between neuronal Kv7 and oligodendroglial Kir4.1 channels and assessed the transcriptional and functional signatures of cortical and retinal projection neurons under physiological and inflammatory demyelinating conditions. We found that both channels became dysregulated in MS and experimental autoimmune encephalomyelitis (EAE), with Kir4.1 channels being chronically downregulated and Kv7 channel subunits being transiently upregulated during inflammatory demyelination. Further, we observed that pharmacological Kv7 channel opening with retigabine reduced neuronal hyperexcitability in human and EAE neurons, improved clinical EAE signs, and rescued neuronal pathology in oligodendrocyte–Kir4.1–deficient (OL-Kir4.1–deficient) mice. In summary, our findings indicate that neuron-OL compensatory interactions promoted resilience through Kv7 and Kir4.1 channels and identify pharmacological activation of nodal Kv7 channels as a neuroprotective strategy against inflammatory demyelination.",

author = "Hannah Kapell and Luca Fazio and Julia Dyckow and Sophia Schwarz and Andr{\'e}s Cruz-Herranz and Christina Mayer and Joaquin Campos and Elisa D{\textquoteright}Este and Wiebke M{\"o}bius and Christian Cordano and Pr{\"o}bstel, {Anne Katrin} and Marjan Gharagozloo and Amel Zulji and Naik, {Venu Narayanan} and Anna Delank and Manuela Cerina and Thomas M{\"u}ntefering and Celia Lerma-Martin and Sonner, {Jana K.} and Sin, {Jung Hyung} and Paul Disse and Nicole Rychlik and Khalida Sabeur and Manideep Chavali and Rajneesh Srivastava and Matthias Heidenreich and Fitzgerald, {Kathryn C.} and Guiscard Seebohm and Christine Stadelmann and Bernhard Hemmer and Michael Platten and Jentsch, {Thomas J.} and Maren Engelhardt and Thomas Budde and Nave, {Klaus Armin} and Calabresi, {Peter A.} and Friese, {Manuel A.} and Green, {Ari J.} and Claudio Acuna and Rowitch, {David H.} and Meuth, {Sven G.} and Lucas Schirmer",

note = "Publisher Copyright: {\textcopyright} 2023, Kapell et al. This is an open access article published under the terms of the Creative Commons Attribution 4.0 International License.",

year = "2023",

month = apr,

day = "3",

doi = "10.1172/JCI164223",

language = "English (US)",

volume = "133",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

publisher = "The American Society for Clinical Investigation",

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T1 - Neuron-oligodendrocyte potassium shuttling at nodes of Ranvier protects against inflammatory demyelination

AU - Kapell, Hannah

AU - Fazio, Luca

AU - Dyckow, Julia

AU - Schwarz, Sophia

AU - Cruz-Herranz, Andrés

AU - Mayer, Christina

AU - Campos, Joaquin

AU - D’Este, Elisa

AU - Möbius, Wiebke

AU - Cordano, Christian

AU - Pröbstel, Anne Katrin

AU - Gharagozloo, Marjan

AU - Zulji, Amel

AU - Naik, Venu Narayanan

AU - Delank, Anna

AU - Cerina, Manuela

AU - Müntefering, Thomas

AU - Lerma-Martin, Celia

AU - Sonner, Jana K.

AU - Sin, Jung Hyung

AU - Disse, Paul

AU - Rychlik, Nicole

AU - Sabeur, Khalida

AU - Chavali, Manideep

AU - Srivastava, Rajneesh

AU - Heidenreich, Matthias

AU - Fitzgerald, Kathryn C.

AU - Seebohm, Guiscard

AU - Stadelmann, Christine

AU - Hemmer, Bernhard

AU - Platten, Michael

AU - Jentsch, Thomas J.

AU - Engelhardt, Maren

AU - Budde, Thomas

AU - Nave, Klaus Armin

AU - Calabresi, Peter A.

AU - Friese, Manuel A.

AU - Green, Ari J.

AU - Acuna, Claudio

AU - Rowitch, David H.

AU - Meuth, Sven G.

AU - Schirmer, Lucas

PY - 2023/4/3

Y1 - 2023/4/3

N2 - Multiple sclerosis (MS) is a progressive inflammatory demyelinating disease of the CNS. Increasing evidence suggests that vulnerable neurons in MS exhibit fatal metabolic exhaustion over time, a phenomenon hypothesized to be caused by chronic hyperexcitability. Axonal Kv7 (outward-rectifying) and oligodendroglial Kir4.1 (inward-rectifying) potassium channels have important roles in regulating neuronal excitability at and around the nodes of Ranvier. Here, we studied the spatial and functional relationship between neuronal Kv7 and oligodendroglial Kir4.1 channels and assessed the transcriptional and functional signatures of cortical and retinal projection neurons under physiological and inflammatory demyelinating conditions. We found that both channels became dysregulated in MS and experimental autoimmune encephalomyelitis (EAE), with Kir4.1 channels being chronically downregulated and Kv7 channel subunits being transiently upregulated during inflammatory demyelination. Further, we observed that pharmacological Kv7 channel opening with retigabine reduced neuronal hyperexcitability in human and EAE neurons, improved clinical EAE signs, and rescued neuronal pathology in oligodendrocyte–Kir4.1–deficient (OL-Kir4.1–deficient) mice. In summary, our findings indicate that neuron-OL compensatory interactions promoted resilience through Kv7 and Kir4.1 channels and identify pharmacological activation of nodal Kv7 channels as a neuroprotective strategy against inflammatory demyelination.

AB - Multiple sclerosis (MS) is a progressive inflammatory demyelinating disease of the CNS. Increasing evidence suggests that vulnerable neurons in MS exhibit fatal metabolic exhaustion over time, a phenomenon hypothesized to be caused by chronic hyperexcitability. Axonal Kv7 (outward-rectifying) and oligodendroglial Kir4.1 (inward-rectifying) potassium channels have important roles in regulating neuronal excitability at and around the nodes of Ranvier. Here, we studied the spatial and functional relationship between neuronal Kv7 and oligodendroglial Kir4.1 channels and assessed the transcriptional and functional signatures of cortical and retinal projection neurons under physiological and inflammatory demyelinating conditions. We found that both channels became dysregulated in MS and experimental autoimmune encephalomyelitis (EAE), with Kir4.1 channels being chronically downregulated and Kv7 channel subunits being transiently upregulated during inflammatory demyelination. Further, we observed that pharmacological Kv7 channel opening with retigabine reduced neuronal hyperexcitability in human and EAE neurons, improved clinical EAE signs, and rescued neuronal pathology in oligodendrocyte–Kir4.1–deficient (OL-Kir4.1–deficient) mice. In summary, our findings indicate that neuron-OL compensatory interactions promoted resilience through Kv7 and Kir4.1 channels and identify pharmacological activation of nodal Kv7 channels as a neuroprotective strategy against inflammatory demyelination.

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U2 - 10.1172/JCI164223

DO - 10.1172/JCI164223

M3 - Article

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VL - 133

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 7

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ER -

Neuron-oligodendrocyte potassium shuttling at nodes of Ranvier protects against inflammatory demyelination

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