Early-life exposure to high-fat diet influences brain health in aging mice.
Antonio Di MecoDomenico PraticoPublished in: Aging cell (2019)
Epidemiological studies have suggested a link between exposure to environmental factors early in life and susceptibility to neurodegenerative diseases in adulthood. In the short term, maternal diet is important for the growth and development of the fetus; however, it may also have long-term effects on the health status of the offspring. Here, we investigate the effect that maternal high-fat diet during gestation has on brain health of the offspring later in life. B6129SF2/J dams were fed a high-fat diet during the 3 weeks' gestation, then switched to standard chow diet after delivery. Offspring were always fed regular diet for the entire study and assessed in learning, memory, and brain pathology when 18 months old. Compared with offspring from control mothers, the ones from mothers exposed to high-fat diet had significant better performance in learning and memory tests, which associated with an amelioration of synaptic integrity. Additionally, they had a significant reduction in total tau, a decrease in its pathological conformational changes and lower levels of caspase-3-cleaved isoforms. Our findings demonstrate that in utero exposure to high-fat diet plays a protective role for offspring brain health later in life. They support the novel hypothesis that targeted dietary intervention specifically restricted to the gestation period could be implemented as preventative strategy for the age-dependent decline in brain health.
Keyphrases
- high fat diet
- insulin resistance
- adipose tissue
- resting state
- healthcare
- public health
- white matter
- early life
- health information
- functional connectivity
- mental health
- preterm infants
- physical activity
- weight loss
- gestational age
- cerebral ischemia
- birth weight
- randomized controlled trial
- health promotion
- type diabetes
- metabolic syndrome
- human health
- signaling pathway
- induced apoptosis
- endoplasmic reticulum stress
- cancer therapy
- molecular dynamics
- weight gain