Alzheimer's disease (AD) is the third leading cause of death among older adults with nearly 6 million diagnosed annually. In the race for a cure, one thing is certain-exercise can reduce your risk. However, the mechanisms responsible for this reduced risk are unknown. Several studies have linked exercise to improved memory, reduced amyloid beta plaques, and tau hyperphosphorylation in AD. Background/Objectives: By utilizing a novel rat model of AD, TgF344-AD, we evaluated the time course of behavioral shifts as well as the protective effect of exercise. Methods: TgF344-AD animals (61 total, 31 females and 30 males) were assessed every 3 months from 3 to 12 months of age and then assessments were increased to monthly until they reached 18 months of age. A progressive treadmill protocol was administered at 12 months of age and continued until 18 months. Pre-intervention and post-intervention data were analyzed. Results: Females had greater grip strength relative to body mass compared to males and exercise attenuated the age-related and AD-induced decline. Also, female AD-impaired memory was rescued with exercise, while males had no exercise-induced improvements. Conclusions: There is a sex difference present in the TgF344-AD rat model of Alzheimer's disease and this should be studied further; in addition, sex differences across all models of AD and the human pathology need to be evaluated. Exercise neuroprotection, while more prominent in females, is an important factor in AD research, and further work to understand the mechanisms of neuroprotection is warranted.
Keywords: Alzheimer’s disease; TgF344-AD; exercise; memory; motor coordination; muscular strength.