Title

The ventral hippocampus is necessary for expressing a spatial memory.

Authors

Loureiro, Michael; Lecourtier, Lucas; Engeln, Michel; Lopez, Joëlle; Cosquer, Brigitte; Geiger, Karin; Kelche, Christian; Cassel, Jean-Christophe; Pereira de Vasconcelos, Anne

Abstract

Current views posit the dorsal hippocampus (DHipp) as contributing to spatial memory processes. Conversely, the ventral hippocampus (VHipp) modulates stress, emotions and affects. Arguments supporting this segregation include differences in (i ) connectivity: the DHipp is connected with the entorhinal cortex which receives visuospatial neocortical inputs; the VHipp is connected with both the amygdala and hypothalamus, (ii) electrophysiological characteristics: there is a larger proportion of place cells in the DHipp than in the VHipp, and an increasing dorsoventral gradient in the size of place fields, suggesting less refined spatial coding in the VHipp, and (iii) consequences of lesions: spatial memory is altered after DHipp lesions, less dramatically, sometimes not, after VHipp lesions. Using reversible inactivation, we report in rats, that lidocaine infusions into the DHipp or VHipp right before a probe trial impair retrieval performance in a water-maze task. This impairment was found at two post-acquisition delays compatible with recent memory (1 and 5 days). Pre-training blockade of the VHipp did not prevent task acquisition and drug-free retrieval, on the contrary to pre-training blockade of DHipp, which altered performance in a subsequent drug-free probe trial. Complementary experiments excluded possible locomotor, sensorimotor, motivational or anxiety-related biases from data interpretation. Our conclusion is that a spatial memory can be acquired with the DHipp, less efficiently with the VHipp, and that the retrieval of such a memory and/or the expression of its representation engages the dorsoventral axis of the hippocampus when the task has been learnt with an entirely functional hippocampus.

Subjects

HIPPOCAMPUS physiology; SPATIAL ability; MEMORY; BRAIN function localization; ELECTROPHYSIOLOGY; ANXIETY disorders; MEDICAL informatics; CODING theory

Publication

Brain Structure & Function, 2012, Vol 217, Issue 1, p93

ISSN

1863-2653

Publication type

Academic Journal

DOI

10.1007/s00429-011-0332-y