1. Academic Validation
  2. Sphingomyelin in Brain and Cognitive Development: Preliminary Data

Sphingomyelin in Brain and Cognitive Development: Preliminary Data

  • eNeuro. 2019 Aug 6;6(4):ENEURO.0421-18.2019. doi: 10.1523/ENEURO.0421-18.2019.
Nora Schneider 1 Jonas Hauser 1 Manuel Oliveira 1 Elise Cazaubon 1 Sara Colombo Mottaz 1 Barry V O'Neill 2 Pascal Steiner 1 Sean C L Deoni 3 4
Affiliations

Affiliations

  • 1 Société des Produits Nestlé SA, Nestlé Research, 1000 Lausanne, Switzerland.
  • 2 Société des Produits Nestlé SA, Nestlé Research, 1000 Lausanne, Switzerland barryvincent.oneill@rd.nestle.com.
  • 3 Department of Pediatrics, Brown University, Providence, RI 02912.
  • 4 Memorial Hospital of Rhode Island, Pawtucket, RI 02860.
Abstract

Sphingomyelin (SM) supports brain myelination, a process closely associated with cognitive maturation. The presence of SM in breast milk suggests a role in infant nutrition; however, little is known about SM contribution to healthy cognitive development. We investigated the link between early life dietary SM, later cognitive development and myelination using an exploratory observational study of neurotypical children. SM levels were quantified in infant nutrition products fed in the first three months of life and associated with myelin content (brain MRI) as well as cognitive development (Mullen scales of early learning; MSEL). Higher levels of SM were significantly associated with higher rates of change in verbal development in the first two years of life (r = 0.65, p < 0.001), as well as, higher levels of myelin content at 12-24 months, delayed onset and/or more prolonged rates of myelination in different brain areas. Second, we explored mechanisms of action using in vitro models (Sprague Dawley rat pups). In vitro data showed SM treatment resulted in increased proliferation [p = 0.0133 and p = 0.0434 at 4 and 10 d in vitro (DIV)], maturation (p = 0.467 at 4 d DIV) and differentiation (p = 0.0123 and p = 0.0369 at 4 and 10 DIV) of oligodendrocyte precursor cells (OPCs), as well as increased axon myelination (p = 0.0005 at 32 DIV). These findings indicate an impact of dietary SM on cognitive development in healthy children, potentially modulated by oligodendrocytes and increased axon myelination. Future research should include randomized controlled trials to substantiate efficacy of SM for cognitive benefits together with preclinical studies examining SM bioavailability and brain uptake.

Keywords

brain development; cognitive development; infants; myelination; oligodendrocytes; sphingomyelin.

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