Authors
Swire, M., Nayar, S. G., Jiang, Y., Halko, A., Lloyd, M., Ogasawara, K., Tohyama, K., Phillips, T., Rothstein, J., Li, H., Richardson, W. D.
Abstract
Motor skill learning stimulates and requires generation of oligodendrocytes (OLs) from their precursors (OLPs) in the adult mouse brain, but the functional role(s) of the newly formed OLs is not known. We asked whether new compact myelin sheaths are required, by genetic block of myelin basic protein (MBP) synthesis in adult OLPs and their newly-differentiating OL progeny, using tamoxifen-inducible Cre-lox recombination. Newly-differentiating OLs in these Mbp-cKO mice are unable to assemble compact myelin or normal nodes of Ranvier. Despite this, Mbp cKOs learned a motor skill just as well as their wild type littermates. They also demonstrated normal contextual fear conditioning. Therefore, neither motor nor fear learning depends on rapid saltatory conduction in newly-myelinated circuits. Mbp cKOs also formed normal long-term motor and contextual fear memories. Moreover, OL lineage-specific knockout of Monocarboxylate transporter-1 (Mct1), believed to be responsible for transferring metabolic substrates from OLs into axons, did not affect learning or memory consolidation. Myelin regulatory factor (Myrf)-cKOs, in which newly-differentiating OLs die and are rapidly eliminated, confirmed that newly formed OLs are required for learning and memory. Together, the data suggest that learning and memory depends on a non-canonical property of pre-myelinating or myelinating OLs, distinct from myelins cardinal role in speeding action potentials.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 14 Jun 2026.
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