Elazar_2019_J.Cell.Biol_218_2887

Reference

Title : Coordinated internodal and paranodal adhesion controls accurate myelination by oligodendrocytes - Elazar_2019_J.Cell.Biol_218_2887
Author(s) : Elazar N , Vainshtein A , Rechav K , Tsoory M , Eshed-Eisenbach Y , Peles E
Ref : Journal of Cell Biology , 218 :2887 , 2019
Abstract :

Oligodendrocyte-axon contact is mediated by several cell adhesion molecules (CAMs) that are positioned at distinct sites along the myelin unit, yet their role during myelination remains unclear. Cadm4 and its axonal receptors, Cadm2 and Cadm3, as well as myelin-associated glycoprotein (MAG), are enriched at the internodes below the compact myelin, whereas NF155, which binds the axonal Caspr/contactin complex, is located at the paranodal junction that is formed between the axon and the terminal loops of the myelin sheath. Here we report that Cadm4-, MAG-, and Caspr-mediated adhesion cooperate during myelin membrane ensheathment. Genetic deletion of either Cadm4 and MAG or Cadm4 and Caspr resulted in the formation of multimyelinated axons due to overgrowth of the myelin away from the axon and the forming paranodal junction. Consequently, these mice displayed paranodal loops either above or underneath compact myelin. Our results demonstrate that accurate placement of the myelin sheath by oligodendrocytes requires the coordinated action of internodal and paranodal CAMs.

PubMedSearch : Elazar_2019_J.Cell.Biol_218_2887
PubMedID: 31451613

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Citations formats

Elazar N, Vainshtein A, Rechav K, Tsoory M, Eshed-Eisenbach Y, Peles E (2019)
Coordinated internodal and paranodal adhesion controls accurate myelination by oligodendrocytes
Journal of Cell Biology 218 :2887

Elazar N, Vainshtein A, Rechav K, Tsoory M, Eshed-Eisenbach Y, Peles E (2019)
Journal of Cell Biology 218 :2887