A Model of Tight Junction Function in Central Nervous System Myelinated Axons

Overview

Journal Neuron Glia Biol

Publisher Cambridge University Press

Specialty Neurology

Date 2010 Jan 28

PMID 20102674

Citations 20

Authors

Alexander Gow

Jerome Devaux

Affiliations

Soon will be listed here.

Abstract

The insulative properties of myelin sheaths in the central and peripheral nervous systems (CNS and PNS) are widely thought to derive from the high resistance and low capacitance of the constituent membranes. Although this view adequately accounts for myelin function in large diameter fibers, it poorly reflects the behavior of small fibers that are prominent in many regions of the CNS. Herein, we develop a computational model to more accurately represent conduction in small fibers. By incorporating structural features that, hitherto, have not been simulated, we demonstrate that myelin tight junctions (TJs) improve saltatory conduction by reducing current flow through the myelin, limiting axonal membrane depolarization and restraining the activation of ion channels beneath the myelin sheath. Accordingly, our simulations provide a novel view of myelin by which TJs minimize charging of the membrane capacitance and lower the membrane time constant to improve the speed and accuracy of transmission in small diameter fibers. This study establishes possible mechanisms whereby TJs affect conduction in the absence of overt perturbations to myelin architecture and may in part explain the tremor and gait abnormalities observed in Claudin 11-null mice.

Citing Articles

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Myelin dystrophy impairs signal transmission and working memory in a multiscale model of the aging prefrontal cortex.

Ibanez S, Sengupta N, Luebke J, Wimmer K, Weaver C Elife. 2024; 12.

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Claudin-11 in health and disease: implications for myelin disorders, hearing, and fertility.

Gjervan S, Ozgoren O, Gow A, Stockler-Ipsiroglu S, Pouladi M Front Cell Neurosci. 2024; 17:1344090.

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Filtering property of myelinated internode can change neural information representability and might trigger a compensatory action during demyelination.

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Myelin dystrophy in the aging prefrontal cortex leads to impaired signal transmission and working memory decline: a multiscale computational study.

Ibanez S, Sengupta N, Luebke J, Wimmer K, Weaver C bioRxiv. 2023; .

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