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Recalibration of path integration in hippocampal place cells
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Recalibration of path integration in hippocampal place cells
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Recalibration of path integration in hippocampal place cells
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Journal Article
Recalibration of path integration in hippocampal place cells
2019
Overview
Hippocampal place cells are spatially tuned neurons that serve as elements of a ‘cognitive map’ in the mammalian brain
1
. To detect the animal’s location, place cells are thought to rely upon two interacting mechanisms: sensing the position of the animal relative to familiar landmarks
2
,
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and measuring the distance and direction that the animal has travelled from previously occupied locations
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–
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. The latter mechanism—known as path integration—requires a finely tuned gain factor that relates the animal’s self-movement to the updating of position on the internal cognitive map, as well as external landmarks to correct the positional error that accumulates
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,
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. Models of hippocampal place cells and entorhinal grid cells based on path integration treat the path-integration gain as a constant
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–
14
, but behavioural evidence in humans suggests that the gain is modifiable
15
. Here we show, using physiological evidence from rat hippocampal place cells, that the path-integration gain is a highly plastic variable that can be altered by persistent conflict between self-motion cues and feedback from external landmarks. In an augmented-reality system, visual landmarks were moved in proportion to the movement of a rat on a circular track, creating continuous conflict with path integration. Sustained exposure to this cue conflict resulted in predictable and prolonged recalibration of the path-integration gain, as estimated from the place cells after the landmarks were turned off. We propose that this rapid plasticity keeps the positional update in register with the movement of the rat in the external world over behavioural timescales. These results also demonstrate that visual landmarks not only provide a signal to correct cumulative error in the path-integration system
4
,
8
,
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–
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, but also rapidly fine-tune the integration computation itself.
Evidence from hippocampal place cells shows that path-integration gain, previously thought to be a constant factor in the computation of location, is flexible and can be rapidly fine-tuned.
Publisher
Nature Publishing Group UK,Nature Publishing Group
Subject
