Review

. 2024 Oct 1;16(10):a041359.

doi: 10.1101/cshperspect.a041359.

Oligodendrocytes: Myelination, Plasticity, and Axonal Support

Mikael Simons^{1

2}, Erin M Gibson³, Klaus-Armin Nave⁴

Affiliations

¹ Institute of Neuronal Cell Biology, Technical University Munich, Munich 80802, Germany mikael.simons@dzne.de egibson1@stanford.edu nave@mpinat.mpg.de.
² German Center for Neurodegenerative Diseases, Munich Cluster of Systems Neurology (SyNergy), Institute for Stroke and Dementia Research, Munich 81377, Germany.
³ Department of Psychiatry and Behavioral Sciences, Stanford University School of Medicine, Stanford 94305, California, USA mikael.simons@dzne.de egibson1@stanford.edu nave@mpinat.mpg.de.
⁴ Department of Neurogenetics, Max Planck Institute for Multidisciplinary Sciences, Göttingen 37075, Germany mikael.simons@dzne.de egibson1@stanford.edu nave@mpinat.mpg.de.

PMID: 38621824
PMCID: PMC11444305 (available on 2026-10-01)
DOI: 10.1101/cshperspect.a041359

Review

Oligodendrocytes: Myelination, Plasticity, and Axonal Support

Mikael Simons et al. Cold Spring Harb Perspect Biol. 2024.

. 2024 Oct 1;16(10):a041359.

doi: 10.1101/cshperspect.a041359.

Authors

Mikael Simons^{1

2}, Erin M Gibson³, Klaus-Armin Nave⁴

Affiliations

¹ Institute of Neuronal Cell Biology, Technical University Munich, Munich 80802, Germany mikael.simons@dzne.de egibson1@stanford.edu nave@mpinat.mpg.de.
² German Center for Neurodegenerative Diseases, Munich Cluster of Systems Neurology (SyNergy), Institute for Stroke and Dementia Research, Munich 81377, Germany.
³ Department of Psychiatry and Behavioral Sciences, Stanford University School of Medicine, Stanford 94305, California, USA mikael.simons@dzne.de egibson1@stanford.edu nave@mpinat.mpg.de.
⁴ Department of Neurogenetics, Max Planck Institute for Multidisciplinary Sciences, Göttingen 37075, Germany mikael.simons@dzne.de egibson1@stanford.edu nave@mpinat.mpg.de.

PMID: 38621824
PMCID: PMC11444305 (available on 2026-10-01)
DOI: 10.1101/cshperspect.a041359

Abstract

The myelination of axons has evolved to enable fast and efficient transduction of electrical signals in the vertebrate nervous system. Acting as an electric insulator, the myelin sheath is a multilamellar membrane structure around axonal segments generated by the spiral wrapping and subsequent compaction of oligodendroglial plasma membranes. These oligodendrocytes are metabolically active and remain functionally connected to the subjacent axon via cytoplasmic-rich myelinic channels for movement of metabolites and macromolecules to and from the internodal periaxonal space under the myelin sheath. Increasing evidence indicates that oligodendrocyte numbers, specifically in the forebrain, and myelin as a dynamic cellular compartment can both respond to physiological demands, collectively referred to as adaptive myelination. This review summarizes our current understanding of how myelin is generated, how its function is dynamically regulated, and how oligodendrocytes support the long-term integrity of myelinated axons.

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Oligodendrocytes: Myelination, Plasticity, and Axonal Support

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