Ventral hippocampus-lateral septum circuitry promotes foraging-related memory

Abstract

ABSTRACTRemembering the location of a food or water source is essential for survival. Here we demonstrate that spatial memory for food location is reflected in ventral hippocampus (HPCv) neuron activity and is impaired by HPCv lesion. HPCv mediation of foraging-related memory involves downstream lateral septum (LS) signaling, as both reversible and chronic disconnection of HPCv (field CA1) to LS signaling impairs spatial memory retention for the location of either food or water reinforcement. This neural pathway selectively encodes appetitive spatial memory, as HPCv-LS disconnection does not affect aversive reinforcement-based spatial memory in an escape task using the same apparatus. The selectivity of this pathway in promoting foraging-related memory is further supported by results showing that CA1v-LS disconnection does not affect food intake, anxiety-like behavior, locomotor activity, or social and olfactory-based appetitive learning. Fluorescent in situ hybridization reveals that LS neurons recruited during the appetitive spatial memory task are primarily GABAergic. Multisynaptic anterograde neural pathway tracing and immediate early gene mapping identify the lateral hypothalamic area as a functional downstream target of this pathway. Collective results reveal a novel neural circuit through which the hippocampus selectively mediates memory for the location of appetitive (food or water) but not aversive (escape) reinforcement.