Prenatal stress (PS) significantly influences the neurodevelopment of offsprings, potentially resulting in deficits in learning and memory. Mangiferin (MGF) is a naturally occurring flavonoid compound Show more
Prenatal stress (PS) significantly influences the neurodevelopment of offsprings, potentially resulting in deficits in learning and memory. Mangiferin (MGF) is a naturally occurring flavonoid compound found in many plants, exhibits various pharmacological effects. The study investigates the potential molecular mechanisms of MGF in improving learning and memory deficits in offspring exposed to PS. Animal model of PS offspring and ACR-induced PC12 cell model were used to investigate the effects of MGF. Synaptic plasticity-related proteins and the BDNF signaling pathway were studied, as well as MGF's potential to alleviate endoplasmic reticulum stress (ERS). MGF can mitigate learning and memory impairments and enhance the density of hippocampal neurons, as well as increase the expression of neuronal markers Neurogranin (Ng), DLG4 and activity marker c-fos in the offspring of PS mice. Meanwhile, MGF significantly increased BDNF signaling pathway and synaptic plasticity-related proteins in PS offspring. MGF also efficiently alleviated ERS. Additionally, MGF significantly up-regulated the reduced viability, DLG4 protein expression and synaptic plasticity-related proteins in ACR-induced PC12 cells. MGF can improve endoplasmic reticulum morphology and down regulated the expression of key molecular proteins in the endoplasmic reticulum signaling pathway. MGF could improve the cognitive and memory impairments in the PS offspring mice. The underlying mechanisms involved the alleviation of ERS and improvement of synaptic plasticity-related proteins. The study indicated that MGF holds promise as an effective intervention for ameliorating learning and memory deficits associated with PS, and it offers potential therapeutic effect for neurological disorders linked to ACR dysfunction. Show less
Exposure to a Western diet during gestation and lactation adversely impacts offspring mood, learning, and memory. We determined if high dose maternal methyl donor nutrient (MDN) supplementation amelio Show more
Exposure to a Western diet during gestation and lactation adversely impacts offspring mood, learning, and memory. We determined if high dose maternal methyl donor nutrient (MDN) supplementation ameliorated the effects of a high fat/high sucrose (HFS) diet during gestation and lactation on the behavior of young, adult offspring. Rat dams consumed the following diets through gestation and lactation: [1] AIN93G control (CON) diet, [2] 45% fat diet with sucrose (HFS), [3] CON diet supplemented with folic acid, B MDN supplementation increased depression-related behavior regardless of maternal base diet (P = 0.003). Learning under stress was reduced in offspring of MDN supplemented dams evidenced by fewer SBET escapes (P = 0.042) and increased escape latency in FR1 trials (P = 0.037). MDNs did not alter novelty reactivity, anxiety-related behavior, or working memory but improved reference memory (P = 0.023). MDNs did not affect corticosterone, reduced BDNF when dams consumed the HFS diet (P = 0.025), and tended to increase DNA methylation (P = 0.065). Maternal MDN supplementation increased depression-related behavior and decreased learning under stress, indicating high dose MDN supplementation may not be warranted. Show less