Lateral Septum Has Role in Linking Reward Information to Memory

According to researchers at Picower Institute at MIT, the lateral septum (LS), which is innervated by the hippocampus and is known to represent spatial information, likely also plays a pivotal role in formulating goal-directed behavior.

"It appears that the lateral septum is, in a sense, 'prioritizing' reward-related spatial information," said Hannah Wirtshafter, lead author of a study published last week in eLife.

Last year, Wirtshafter and Matthew Wilson, senior author of the paper, analyzed measurements of the electrical activity of hundreds of neurons in the LS and the hippocampus as rats navigated a maze toward a reward. In Current Biology they reported that the LS directly encodes information about the speed and acceleration of the rats as they navigated through the environment.

The new study continued this analysis, finding that while the LS dedicates a much smaller proportion of its cells to encoding location than does the hippocampus, a much larger proportion of those cells respond when the rat is proximate to where the reward lies. Moreover, as rats scurried toward the reward point and back again within the H-shaped maze, the pace of their neural activity peaked closest to those reward locations, skewing the curve of their activity in association with where they could find a chocolate treat. Finally, they found that neural activity between the hippocampus and the LS was most highly correlated among cells that represented reward locations.

"Understanding how reward information is linked to memory and space through the hippocampus is crucial for our understanding of how we learn from experience, and this finding points to the role the lateral septum may play in that process," Wilson said.

Specifically, Wilson and Wirtshafter interpret the results of the two studies to suggest that the LS plays a key role in helping to filter and convert raw information about location, speed and acceleration coming in from regions such as the hippocampus, into more reward-specific output for regions known to guide goal-directed behavior, such as the ventral tegmental area. In the paper they discuss ways in which the hippocampus and the LS might be wired together to do so. They theorize that the LS may dedicate neurons to receiving reward-related location information from the hippocampus and may blend non-reward location information within neurons also tasked for processing other information such as motion.