N-3 PUFA deficiency disrupts oligodendrocyte maturation and myelin integrity during brain development.
Quentin LeyrolleFanny DecoeurCyril DejeanGaladriel BrièreStephane LeonIoannis BakoyiannisEmilie BarouxTony-Lee SterleyClémentine Bosch-BoujuLydie MorelCamille AmadieuCynthia LecoursMarie-Kim St-PierreMaude BordeleauVéronique De Smedt-PeyrusseAlexandran SéréLeslie SchwendimannStephane GrégoireLionel BretillonNiyazi AcarCorinne JoffreGuillaume FerreiraRaluca UricaruPatricia ThebaultPierre GressensMarie-Eve TremblaySophie LayéAgnès NadjarPublished in: Glia (2021)
Westernization of dietary habits has led to a progressive reduction in dietary intake of n-3 polyunsaturated fatty acids (n-3 PUFAs). Low maternal intake of n-3 PUFAs has been linked to neurodevelopmental disorders, conditions in which myelination processes are abnormal, leading to defects in brain functional connectivity. Only little is known about the role of n-3 PUFAs in oligodendrocyte physiology and white matter development. Here, we show that lifelong n-3 PUFA deficiency disrupts oligodendrocytes maturation and myelination processes during the postnatal period in mice. This has long-term deleterious consequences on white matter organization and hippocampus-prefrontal functional connectivity in adults, associated with cognitive and emotional disorders. Promoting developmental myelination with clemastine, a first-generation histamine antagonist and enhancer of oligodendrocyte precursor cell differentiation, rescues memory deficits in n-3 PUFA deficient animals. Our findings identify a novel mechanism through which n-3 PUFA deficiency alters brain functions by disrupting oligodendrocyte maturation and brain myelination during the neurodevelopmental period.