Lipid peroxidation and neuroinflammation: a possible link between maternal fructose intake and delay of acquisition of neonatal reflexes in Wistar female rats

PRADO SPALM FACUNDO; CUERVO SANCHEZ MARIÉ; FURLAND NATALIA EDITH; VALLÉS, A.S.

DEVELOPMENTAL NEUROBIOLOGY

JOHN WILEY & SONS INC

Lugar: New York; Año: 2023

1932-8451

ABSTRACT Fructose is a common sweetener found in the daily diet supplemented to many processed and ultra-processed foods and beverages. Consumption of fructose-sweetened beverages has drastically increased in the last decades and is widely associated with metabolic disease, systemic proinflammatory status and adverse transgenerational effects. To date, the impact of maternal fructose intake in brain function of the offspring is less explored. Therefore, the aim of this study was first, to investigate adverse effects in developmental milestones of the progeny of mothers with Metabolic Syndrome (MetS), induced by ad libitum consumption of a 20% fructose solution, and secondly to identify possible molecular changes in the nervous system of the newborns associated with maternal fructose intake. Wistar rats were randomly separated into two groups with access to water or fructose (20% w/v in water) for 10 weeks. After MetS was confirmed, dams were mated with control males and continued drinking water or fructose solution during gestation. At postnatal day (PN) 1, a subgroup of offspring of each sex was sacrificed and brains were dissected for oxidative stress and inflammatory status analysis. Changes in the developmental milestones due to maternal fructose consumption was studied (PN3-PN21) in another subgroup of offspring. Sexually dimorphic effects were found on the progeny´s acquisition of neurodevelopmental milestones, in brain lipid peroxidation, neuroinflammation and antioxidative defensive response. Our results suggest that dams´ MetS, induced by fructose intake, disrupts brain redox homeostasis in female offspring and affects sensorimotor brain circuitry which may have a translational value for studying neurodevelopmental diseases.