Cells (Nov 2022)

Normal Cortical Myelination in Galectin-4-Deficient Mice

  • María Elvira Brocca,
  • Arancha Mora-Rubio,
  • Elena Alonso-Calviño,
  • Elena Fernández-López,
  • Natalia Díez-Revuelta,
  • David Martos-Puñal,
  • Juan Aguilar,
  • Alonso M. Higuero,
  • José Abad-Rodríguez

DOI
https://doi.org/10.3390/cells11213485
Journal volume & issue
Vol. 11, no. 21
p. 3485

Abstract

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Myelin, critical for the correct function of the nervous system, is organized in different patterns that can include long non-myelinated axonal segments. How myelin patterning is regulated remains unexplained. The carbohydrate-binding protein galectin-4 (Gal-4) influences oligodendrocyte differentiation in vitro and is associated with non-myelinable axon segments (NMS) in cultured neurons. In consequence, Gal-4 has been proposed as a myelin patterning regulator, although no in vivo studies have corroborated this hypothesis. We used Gal-4-deficient mice (Lgals4-KO) to study the role of Gal-4 in cortical myelination in vivo. We show that cultured neurons of Lgals4-KO mice form NMS that are regulated as in control neurons. In addition, oligodendrocyte/myelin markers expression measured by biochemical and immunochemical means, and cortical myelin microstructure studied by in-depth image analysis appear unaltered in these animals. Consistently, myelin displays an essentially normal function assessed by in vivo electrophysiology and locomotion analyses. In conclusion, cortical myelin of Lgals4-KO mice does not show any significant defect in composition, organization or function, pointing to a negligible role of Gal-4 in myelination in vivo or, as discussed, to unknown mechanisms that compensate its absence.

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