Abstract
The parahippocampal region is organized into different areas, with the medial entorhinal cortex (MEC), presubiculum and parasubiculum prominent in spatial memory. Here, we also describe a region at the extremity of the MEC and bordering the subicular complex, the medial-most part of the entorhinal cortex. While the subdivisions of hippocampus proper form more or less continuous cell sheets, the superficial layers of the parahippocampal region have a distinct modular architecture. We investigate the spatial distribution, laminar position, and putative connectivity of zinc-positive modules in layer 2 of the MEC of rats and relate them to the calbindin-positive patches previously described in the entorhinal cortex. We found that the zinc-positive modules are complementary to the previously described calbindin-positive patches. We also found that inputs from the presubiculum are directed toward the zinc-positive modules while the calbindin-positive patches received inputs from the parasubiculum. Notably, the dendrites of neurons from layers 3 and 5, positive for Purkinje Cell Protein 4 expression, overlap with the zinc modules. Our data thus indicate that these two complementary modular systems, the calbindin patches and zinc modules, are part of parallel information streams in the hippocampal formation.
Highlights
One of the most important functions which the brain performs, is the ability to remember
A tangential view of the parahippocampal region shows the position of the medial entorhinal cortex (MEC), which is flanked rostromedially by the presubiculum (PrS) and parasubiculum (PaS)
We found that the border between parasubiculum and MEC is marked by a narrow band of cells expressing both calbindin and Wfs1 (Figures 2A,B) in contrast to cells in superficial layers of the parasubiculum which express only Wfs1
Summary
One of the most important functions which the brain performs, is the ability to remember. The medial entorhinal cortex (MEC) has recently emerged as a central hub in the circuits for spatial memory through the discovery of grid cells (Hafting et al, 2005). These are neurons which increase their activity in certain locations, tiling space in a hexagonal grid pattern. Layer 2 of the MEC contains the largest density of pure grid cells (Hafting et al, 2005; Boccara et al, 2010) and contains other spatial cells like border and head direction cells
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