Navigation using global or local reference frames in rats with medial and lateral entorhinal cortex lesions.

The medial (MEC) and the lateral (LEC) regions of the entorhinal cortex send a major input to the hippocampus and have been proposed to play a foremost role in combining spatial and non-spatial attributes of episodic memory. In addition, it has been recently suggested that the MEC is involved in the processing of information in a global reference frame and the LEC in the processing of information in a local reference frame. Whether these putative functions could be generalized to navigation contexts has not been established yet.

Medial entorhinal cortex lesions induce degradation of CA1 place cell firing stability when self-motion information is used.

The entorhinal-hippocampus network plays a central role in navigation and episodic memory formation. To investigate these interactions, we examined the effect of medial entorhinal cortex lesions on hippocampal place cell activity. Since the medial entorhinal cortex is suggested to play a role in the processing of self-motion information, we hypothesised that such processing would be necessary for maintaining stable place fields in the absence of environmental cues.

Time as the fourth dimension in the hippocampus.

Experiences of animal and human beings are structured by the continuity of space and time coupled with the uni-directionality of time. In addition to its pivotal position in spatial processing and navigation, the hippocampal system also plays a central, multiform role in several types of temporal processing. These include timing and sequence learning, at scales ranging from meso-scales of seconds to macro-scales of minutes, hours, days and beyond, encompassing the classical functions of short term memory, working memory, long term memory, and episodic memories (comprised of information about when, what, and where).

Dorsal, but not ventral, hippocampal inactivation alters deliberation in rats.

When facing a choice at a decision point in a maze, rats often display hesitations, pauses and reorientations. Such "vicarious trial and error" (VTE) behavior is thought to reflect decision making about which choice option is best, and thus a deliberation process. Although deliberation relies on a wide neural network, the dorsal hippocampus appears to play a prominent role through both its neural activity and its dynamic interplay with other brain areas.

Path integration maintains spatial periodicity of grid cell firing in a 1D circular track.

Entorhinal grid cells are thought to provide a 2D spatial metric of the environment. In this study we demonstrate that in a familiar 1D circular track (i.e.