Alzheimer’s Disease (AD) is the most prevalent form of dementia and is the sixth leading cause of death in the elderly. Evidence suggests that forms of stress, including prenatal maternal stress (PMS), could exacerbate AD development. To better understand the mechanism linking PMS and AD, we investigated behavior and specific epigenetic markers of the 3xTg-AD mouse model compared to aged-controls in offspring of stressed mothers and non-stressed mothers.

Stress and stress-related disorders increase the risk of Alzheimer’s Disease (AD) later in life. Some evidence suggests that prenatal maternal stress (PMS) can exacerbate AD. However, the effects of PMS on AD have not been as well studied. Epigenetic changes have been shown to contribute to AD and this is a possible mechanism by which PMS could accelerate AD. Thus, the present study aimed to investigate the effects of PMS on histone modifications, which change gene expression through alterations made to chromatin structure and thereby DNA accessibility. We utilized female 3xTG-AD mice and performed spatial and learning memory assessments between 5 and 6 months of age. Tissue was analyzed for AD pathology and epigenetic markers at 6 months of age were assessed PMS was shown to influence histone modifications H3K4me3 and H3K27me3 in a manner known to promote the expression of genes associated with neurodegeneration. Further, PMS impaired spatial memory, and, interestingly, the data resembled the pattern of H3K4me3 expression across groups, suggesting that this epigenetic modification could modulate the learning and memory effects of PMS. While the presence of hallmark AD pathologies were not accelerated by PMS, PMS did increase early tau phosphorylation events. Thus, this evidence suggests that PMS impairs spatial memory through epigenetic modifications and may potentially exacerbate AD later in life.