Molecular mechanisms within the dentate gyrus and the perirhinal cortex interact during discrimination of similar nonspatial memories.

Hippocampus

Laboratorio de Memoria y Cognición Molecular, Instituto de Neurociencia Cognitiva y Traslacional, CONICET-Fundación INECO-Universidad Favaloro, Solís 453, Buenos Aires, 1071, Argentina.

Published: February 2021

Differentiating between similar memories is a crucial cognitive function that enables correct episodic memory formation. The ability to separate the components of memories into distinct representations is thought to rely on a computational process known as pattern separation, by which differences are amplified to disambiguate similar events. Although pattern separation has been localized to the dentate gyrus (DG) of the hippocampus and shown to occur in a spatial domain, this cognitive function takes place also during processing of other types of information. In particular, there is some debate on whether the DG participates in pattern separation of nonspatial representations. Considering the classic role of the Prh in the acquisition and storage of object memories in general and tasks with similar features in particular, this cognitive function could rely more heavily on perirhinal regions when object-related information is processed. Here we show that two plasticity-related proteins, BDNF, and Arc, are required in the DG for nonspatial mnemonic differentiation. Moreover, we found that the crucial role of the DG is transient since activity of AMPAR is only required in the Prh but not the DG during differentiated object memory retrieval. Additionally, this memory is not modifiable by postacquisition rhBDNF infusions in the DG that are known to improve memory when given in the Prh. This highlights a differential role of Prh and DG during differentiated object memory consolidation. Additionally, we found that these molecular mechanisms actively interact in the DG and Prh for the formation of distinguishable memories, with infusions of rhBDNF in the Prh being able to rescue mnemonic deficits caused by reduced Arc expression in the DG. These results reveal a complex interaction between plasticity mechanisms in the Prh and DG for nonspatial pattern separation and posit the Prh as the key structure where unique object representations are stored.

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Source
http://dx.doi.org/10.1002/hipo.23269DOI Listing

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