Abstract
BACKGROUND: Alzheimer's disease (AD) is the leading cause of dementia in the US, with over 80% of affected individuals experiencing comorbid metabolic disease. Along with age and sex, metabolic syndrome and prediabetes are known risk factors for developing dementia and AD, highlighting the complex nature of the disease. How these risk factors affect cerebral amyloid angiopathy (CAA) is less well studied. As such, we examined the effect of diet-induced metabolic syndrome and sex on cognition, neuroinflammation, and pathology in the Tg-SwDI mouse model of AD and CAA. METHODS: Male and female Tg-SwDI and WT mice were fed a low fat (LFD; 10% fat) or high fat (HFD; 60% fat) diet from 3 to 10 months of age. Metabolic, cognitive, and neuropathology outcomes were assessed. RESULTS: All HFD-fed mice gained weight and exhibited impaired glucose tolerance. Metabolic disturbances were most severe in AD females receiving HFD. In both males and females, HFD-fed AD mice showed increased anxiety-like behavior, decreased locomotor activity, and impaired recognition memory in the open field and novel object recognition tests, respectively. HFD-fed AD females specifically exhibited spatial memory deficits in the Barnes maze. Hippocampal microgliosis, activated microglia, and astrogliosis were more severe in AD mice, HFD decreased hippocampal microgliosis and astrogliosis but increased cytokine and chemokine expression in AD females. HFD-fed AD females had greater β-amyloid plaques and CAA in the thalamus compared to LFD-fed AD controls. All metrics of neuroinflammation significantly correlated with CAA pathology in the thalamus. CONCLUSION: AD females experienced greater metabolic, cognitive, and pathologic effects in response to a HFD compared to AD males and WT controls. These observations provide a better understanding of how metabolic disease may differentially affect the development of dementia in men and women.