Sex-specific effects of chronic alcohol consumption across the lifespan in the transgenic Alzheimer’s Disease (TgF344-AD) rat model

Abstract

Alcohol consumption across the lifespan contributes to mood fluctuations and cognitive dysfunction, two neurobehavioral features also associated with Alzheimer’s Disease and Related Dementias (ADRD). Yet, few studies have used rodent models to determine how a history of ethanol consumption across the lifespan might contribute to neurobehavioral and neuropathological features of ADRD. We exposed Wild Type (WT) and transgenic Fischer 344 CE rats (TgF344-AD) that have been genetically modified to express the human Amyloid Precursor Protein (APP) and presenilin-1 genes with mutations, to ethanol using a chronic, intermittent ethanol consumption model. Beginning at P28, rats were given a single bottle 10 % ethanol solution for 2 consecutive days, followed by 2 days of tap water. This pattern (2 days on, days off) was repeated for a total of 12 cycles until rats reached the age of ∼ 3 months, and repeated at 6 (Exp 1 and Exp 2) and 9 months of age (Exp 2). In experiment 1, ethanol consumption decreased alternations in a spontaneous alternation task in females, only at the 3-month time point, whereas TgF344-AD females showed increased contextual fear conditioning in the test of retention and reinstatement tests at 6 months of age. In experiment 2, a battery of anxiety-like behaviors (Elevated Plus Maze, Marble Burying, and Novelty Induced Hypophagia) were assessed following a 2-week abstinence period at 3, 6, and 9 months of age in ethanol-consuming rats. Data from the EPM and marble burying tasks revealed evidence of heightened anxiety-like behavior in Tg-F344-AD rats that varied by sex and age, with no significant effects of ethanol. In the novelty-induced hypophagia task, males with a history of ethanol consumption had a lower latency to approach a familiar, salient reward at 3 months old, but effects of ethanol were overall minimal. Examination of dorsal hippocampal gene expression at 6 months of age under basal conditions also revealed predominantly genotype and sex-specific effects on inflammation- and AD-related genes (App, Il-6, Bace1, Rage, Lrp-1). When examined at 9 months old following LPS challenge, ethanol increased inflammatory genes in males (Il-1β, Il-6) in the hippocampus, whereas ethanol decreased several inflammatory and AD-related genes (Hmgb1, Rage, Bace1, Lrp-1) in TgF344-AD females. Overall, these data provide further evidence that females are especially vulnerable to AD, and that a history of ethanol consumption had selective, rather than global, effects on AD- and inflammation-related genes following an inflammatory stimulus.