Author:
Ormond Jake,Serka Simon A.,Johansen Joshua P.
Abstract
ABSTRACTStudy of the hippocampal place cell system has greatly enhanced our understanding of memory encoding for distinct places, but how episodic memories for distinct experiences occurring within familiar environments are encoded is not clear. One possibility is that different place cell populations encode details of the novel experience or maintain the representation of the unchanged environment. We developed an aversive spatial decision making task which induced partial remapping in CA1, allowing us to identify both remapping and stable cell populations. We found that remapping cells exhibited distinct features not present in stable cells. During memory encoding, their theta phase preferences shifted to earlier phases, when CA3 inputs are strongest. Further, their recruitment into replay events increased during learning, unlike that of stable cells. Our demonstration of a sub-population of place cells identified on the basis of their degree of remapping and exhibiting unique changes in their spike firing properties with learning lend support to a model in which novel and familiar spatial/contextual information is encoded and maintained, respectively, by separate place cell populations.
Publisher
Cold Spring Harbor Laboratory
Cited by
1 articles.
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