A maternal low-protein diet results in sex-specific differences in synaptophysin expression and milk fatty acid profiles in neonatal rats

J Nutr Sci. 2024 Oct 14:13:e64. doi: 10.1017/jns.2024.46. eCollection 2024.

Abstract

The developmental origins of health and disease hypothesis have highlighted the link between early life environment and long-term health outcomes in offspring. For example, maternal protein restriction during pregnancy and lactation can result in adverse metabolic and cognitive outcomes in offspring postnatal. Hence, in the present study, we assess whether an isocaloric low-protein diet (ILPD) affects the fatty acid profile in breast milk, the hippocampal synaptophysin (Syn) ratio, and the oxidative stress markers in the neonatal stage of male and female offspring. The aim of this work was to assess the effect of an ILPD on the fatty acid profile in breast milk, quantified the hippocampal synaptophysin (Syn) ratio and oxidative stress markers in neonatal stage of male and female offspring. Female Wistar rats were fed with either a control diet or an ILPD during gestation to day 10 of lactation. Oxidative stress markers were assessed in serum and liver. All quantifications were done at postnatal day 10. The results showed: ILPD led to decreases of 38.5% and 17.4% in breast milk volume and polyunsaturated fatty acids content. Significant decreases of hippocampal Syn ratio in male offspring (decreases of 98% in hippocampal CA1 pyramidal and CA1 oriens, 83%, stratum pyramidal in CA3, 80%, stratum lucidum in CA3, and 81% stratum oriens in CA3). Male offspring showed an increase in pro-oxidant status in serum and liver. Thus, the data suggest that male offspring are more vulnerable than females to an ILPD during gestation and lactation.

Keywords: Gestation; Hippocampus; Isocaloric low-protein diet (ILPD); Lactation; Metabolic markers; Synaptogenesis.

MeSH terms

  • Animals
  • Animals, Newborn
  • Diet, Protein-Restricted*
  • Fatty Acids* / metabolism
  • Female
  • Hippocampus* / metabolism
  • Lactation
  • Male
  • Maternal Nutritional Physiological Phenomena
  • Milk* / chemistry
  • Oxidative Stress
  • Pregnancy
  • Rats
  • Rats, Wistar
  • Sex Factors
  • Synaptophysin* / metabolism

Substances

  • Fatty Acids
  • Synaptophysin
  • Syp protein, rat