Age-related deficits in the ability to encode contextual change: A place cell analysis

Abstract

Aging is known to impair the formation of episodic memory, a process dependent upon the integrity of the hippocampal region. To investigate this issue, hippocampal place cells were recorded from middle-aged and old F-344 male rats while running on a “figure-8” track. The top and bottom arcs of the track were removed, converting it into a plus maze, and the animals were required to conduct a working memory task. Following this change in task, the arcs were replaced and the animals again ran the figure-8 task. Analysis of place fields across the recording session demonstrated that both middle-aged and old rats had reliable representations of the figure-8 task. A comparison of place fields between different behavioral tasks (figure-8 and plus maze) demonstrated a change in the hippocampal representation of the environment in both age groups, despite the fact that the animals remained on the maze throughout the recording session. Notably, place cells in old animals were less affected by the change in task than those in middle-aged animals. The results suggest that hippocampal neurons reflect significant behavioral events within a given environment. Furthermore, the data indicate that age-related episodic memory deficits may result from decreased sensitivity of the hippocampal network to respond to meaningful changes in the environment. Hippocampus 10:338–350, 2000