Critical Role of Maternal Selenium Nutrition in Neurodevelopment: Effects on Offspring Behavior and Neuroinflammatory Profile

Research in both animals and humans shows that some nutrients are important in pregnancy and during the first years of life to support brain and cognitive development. Our aim was to evaluate the role of selenium (Se) in supporting brain and behavioral plasticity and maturation. Pregnant and lactati...

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Bibliographic Details
Published in:Nutrients 2022-04, Vol.14 (9), p.1850
Main Authors: Ajmone-Cat, Maria Antonietta, De Simone, Roberta, Tartaglione, Anna Maria, Di Biase, Antonella, Di Benedetto, Rita, D'Archivio, Massimo, Varì, Rosaria, Ricceri, Laura, Aureli, Federica, Iacoponi, Francesca, Raggi, Andrea, Cubadda, Francesco, Fairweather-Tait, Susan J, Calamandrei, Gemma, Minghetti, Luisa
Format: Article
Language:English
Subjects:
Animal cognition
Animals
Antioxidants
Antioxidants - pharmacology
Behavioral plasticity
Brain
Cognitive ability
Diet
Female
Females
Fetuses
Glutathione peroxidase
Glutathione Peroxidase - metabolism
Homeostasis
Humans
Inflammation
Lactation
Liver
Liver - metabolism
Male
Males
Mass spectrometry
Maternal Nutritional Physiological Phenomena
Metabolism
Neurodevelopment
Neuroplasticity
Nutrient deficiency
Nutrients
Nutrition
Offspring
Oxidants
Oxidative stress
Oxidizing agents
Peroxidase
Plasma
Pregnancy
Rats
Rodents
Scientific imaging
Selenium
Weaning
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Summary:Research in both animals and humans shows that some nutrients are important in pregnancy and during the first years of life to support brain and cognitive development. Our aim was to evaluate the role of selenium (Se) in supporting brain and behavioral plasticity and maturation. Pregnant and lactating female rats and their offspring up to postnatal day 40 were fed isocaloric diets differing in Se content-i.e., optimal, sub-optimal, and deficient-and neurodevelopmental, neuroinflammatory, and anti-oxidant markers were analyzed. We observed early adverse behavioral changes in juvenile rats only in sub-optimal offspring. In addition, sub-optimal, more than deficient supply, reduced basal glial reactivity in sex dimorphic and brain-area specific fashion. In female offspring, deficient and sub-optimal diets reduced the antioxidant Glutathione peroxidase (GPx) activity in the cortex and in the liver, the latter being the key organ regulating Se metabolism and homeostasis. The finding that the Se sub-optimal was more detrimental than Se deficient diet may suggest that maternal Se deficient diet, leading to a lower Se supply at earlier stages of fetal development, stimulated homeostatic mechanisms in the offspring that were not initiated by sub-optimal Se. Our observations demonstrate that even moderate Se deficiency during early life negatively may affect, in a sex-specific manner, optimal brain development.
ISSN:2072-6643
2072-6643
DOI:10.3390/nu14091850