Navigating uncertainty: reward location variability induces reorganization of hippocampal spatial representations

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The paper studied how different kinds of uncertainty about reward location affect hippocampal place cell spatial representations during a virtual navigation task, comparing trial-by-trial reward location changes and unexpected reward shifts. The authors found that when reward location varied unpredictably yet in an expected way, a larger fraction of place cells tracked along, and the reward site and the track end served as anchors that warped the spatial metric; when reward moved unexpectedly, the proportion of reward-related place cells that followed depended on whether the animal had previously experienced expected versus low uncertainty. The key caveat is that the work was conducted in a virtual task with place-cell recordings, which may limit direct translation to naturalistic physical environments. This paper does not explicitly discuss endometriosis or adenomyosis; it was included in the corpus via a keyword match in the upstream search index.

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Abstract

Navigating uncertainty is crucial for survival, with the location and availability of reward varying in different and unsignalled ways. Hippocampal place cell populations over-represent salient locations in an animal’s environment, including those associated with rewards; however, how the spatial uncertainties impact the cognitive map is unclear. We report a virtual spatial navigation task designed to test the impact of different levels and types of uncertainty about reward on place cell populations. When the reward location changed on a trial-by-trial basis, inducing expected uncertainty, a greater proportion of place cells followed along, and the reward and the track end became anchors of a warped spatial metric. When the reward location then unexpectedly moved, the fraction of reward place cells that followed was greater when starting from a state of expected, compared to low, uncertainty. Overall, we show that different forms of potentially interacting uncertainty generate remapping in parallel, task-relevant, reference frames.
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Abstract Navigating uncertainty is crucial for survival, with the location and availability of reward varying in different and unsignalled ways. Hippocampal place cell populations over-represent salient locations in an animal’s environment, including those associated with rewards; however, how the spatial uncertainties impact the cognitive map is unclear. We report a virtual spatial navigation task designed to test the impact of different levels and types of uncertainty about reward on place cell populations. When the reward location changed on a trial-by-trial basis, inducing expected uncertainty, a greater proportion of place cells followed along, and the reward and the track end became anchors of a warped spatial metric. When the reward location then unexpectedly moved, the fraction of reward place cells that followed was greater when starting from a state of expected, compared to low, uncertainty. Overall, we show that different forms of potentially interacting uncertainty generate remapping in parallel, task-relevant, reference frames. Competing Interest Statement The authors have declared no competing interest. Footnotes Contributing authors: ZehuaChen2025{at}u.northwestern.edu Added a contributor to data collection as author.

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europepmc
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License: CC-BY-NC-ND-4.0