Mid-Adulthood Cognitive Training Improves Performance in a Spatial Task but Does Not Ameliorate Hippocampal Pathology in a Mouse Model of Alzheimer’s Disease

Abstract: Background: Prior experience in early life has been shown to improve performance in aging and mice with Alzheimer’s disease (AD) pathology. However, whether cognitive training at a later life stage would benefit subsequent cognition and reduce pathology in AD mice needs to be better understood. Objective: This study aimed to verify if behavioral training in mid-adulthood would improve subsequent cognition and reduce AD pathology and astrogliosis. Methods: Mixed-sex APP/PS1 and wildtype littermate mice received… Show more

“…For the group without prior training, the steady linear decrease of latencies in retrieval is comparable with what has been observed in young and middle-aged rats [ 15 , 26 ], indicating that aging did not affect the motor and learning capacity of the rats in this ADMP task. It is consistent with previous studies showing that sensorimotor abilities, exploration of a complex environment, or spontaneous locomotor activities during the light phase are intact in old rats [ 44 , 47 , 99 ]. Intact latencies also imply that motivation and motor in performing this task is intact in old rats as previously observed [ 47 ].…”

Cognitive rescue in aging through prior training in rats

“…For the group without prior training, the steady linear decrease of latencies in retrieval is comparable with what has been observed in young and middle-aged rats [ 15 , 26 ], indicating that aging did not affect the motor and learning capacity of the rats in this ADMP task. It is consistent with previous studies showing that sensorimotor abilities, exploration of a complex environment, or spontaneous locomotor activities during the light phase are intact in old rats [ 44 , 47 , 99 ]. Intact latencies also imply that motivation and motor in performing this task is intact in old rats as previously observed [ 47 ].…”

Cognitive rescue in aging through prior training in rats

Cognitive trajectories in longitudinally trained 3xTg-AD mice