Abstract

Diabetes confers a high risk of developing poor health in later life in women. Based on the Developmental Origins of Health and Disease theory, the present study was undertaken to investigate the efficacy of perinatal fat restriction in maternal high-fat-exposed female offspring to maintain glucose homeostasis in later life between adulthood and aging. Low-fat dietary intervention during either gestation or lactation was performed using a high-fat diet-induced maternal obesity mouse model (HFD mice). Physiological metabolic parameters, including body weight and serum levels of total cholesterol and triglycerides, were monitored. Glucose tolerance test and insulin sensitivity test were performed in 12- and 70-week-old offspring. Insulin-positive islet cells were also observed using immunohistochemical staining. HFD significantly induced abnormal weight gain, hyperlipidemia and impairment of both glucose tolerance and insulin sensitivity in offspring. Standard diet intake after weaning improved weight gain, serum total cholesterol level and glucose tolerance, but not insulin sensitivity, in 70-week-old offspring. Only perinatal fat restriction during both gestation and lactation, followed by standard food intake for the rest of their life, provided adequate efficacy to restore insulin sensitivity in aging female progeny. Perinatal low-fat intervention may prevent deterioration of glucose metabolism. To improve the health status over a female's lifespan, appropriate nutritional intervention during the early developmental stage may reset the disease trajectory and prevent the onset and development of diabetes. Geriatr Gerontol Int 2022; 22: 441-448.

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