Neuronal signature of spatial decision-making during navigation by freely moving rats using calcium imaging

Francesco Gobbo; Rufus Mitchell-Heggs; Dorothy Tse; Meera Al-Omrani; Patrick Spooner; Simon R Shultz; Richard Morris

doi:10.1073/pnas.2212152119

Neuronal signature of spatial decision-making during navigation by freely moving rats using calcium imaging

Francesco Gobbo, Rufus Mitchell-Heggs, Dorothy Tse, Meera Al-Omrani, Patrick Spooner, Simon R Shultz, Richard Morris

Research output: Contribution to journal › Article › peer-review

Abstract

A challenge in spatial memory is understanding how place cell firing contributes to decision-making in navigation. A spatial recency task was created in which freely moving rats first became familiar with a spatial context over several days and thereafter were required to encode and then selectively recall one of three specific locations within it that was chosen to be rewarded that day. Calcium imaging was used to record from more than 1,000 cells in area CA1 of the hippocampus of five rats during the exploration, sample, and choice phases of the daily task. The key finding was that neural activity in the startbox rose steadily in the short period prior to entry to the arena and that this selective population cell firing was predictive of the daily changing goal on correct trials but not on trials in which the animals made errors. Single-cell and population activity measures converged on the idea that prospective coding of neural activity can be involved in navigational decision-making.

Original language	English
Article number	e2212152119
Number of pages	12
Journal	Proceedings of the National Academy of Sciences (PNAS)
Volume	119
Issue number	44
Early online date	24 Oct 2022
DOIs	https://doi.org/10.1073/pnas.2212152119
Publication status	Published - 24 Oct 2022

Keywords / Materials (for Non-textual outputs)

hippocampus
place cells
spatial navigation

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10.1073/pnas.2212152119

pnas.2212152119Final published version, 5.39 MBLicence: Creative Commons: Attribution (CC-BY)

Neuronal signature of spatial decision-making during navigation by freely moving rats by using calcium imaging
Mitchell-Heggs, R. (Creator), Tse, D. (Creator), Schultz, S. R. (Creator), Morris, R. (Creator), Morris, R. (Creator) & Gobbo, F. (Creator), Edinburgh DataShare, 28 Oct 2022
DOI: 10.7488/ds/3774
Dataset

Cite this

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title = "Neuronal signature of spatial decision-making during navigation by freely moving rats using calcium imaging",

abstract = "A challenge in spatial memory is understanding how place cell firing contributes to decision-making in navigation. A spatial recency task was created in which freely moving rats first became familiar with a spatial context over several days and thereafter were required to encode and then selectively recall one of three specific locations within it that was chosen to be rewarded that day. Calcium imaging was used to record from more than 1,000 cells in area CA1 of the hippocampus of five rats during the exploration, sample, and choice phases of the daily task. The key finding was that neural activity in the startbox rose steadily in the short period prior to entry to the arena and that this selective population cell firing was predictive of the daily changing goal on correct trials but not on trials in which the animals made errors. Single-cell and population activity measures converged on the idea that prospective coding of neural activity can be involved in navigational decision-making.",

keywords = "hippocampus, place cells, spatial navigation",

author = "Francesco Gobbo and Rufus Mitchell-Heggs and Dorothy Tse and Meera Al-Omrani and Patrick Spooner and Shultz, {Simon R} and Richard Morris",

note = "Funding Information: members were fantastic, in particular Diane Damez-Werno{\textquoteright}s insight during the initial phase of this project. Thanks also to Emma Wood and Matt Nolan (Edinburgh) and to Paul Dudchenko (Stirling) for useful insight and discussion. We also thank Giuseppe Gava (Imperial College, Oxford) for his expert guidance on PC identification. This work was financially supported by a Wellcome Trust Advanced Investigator Grant to R.G.M.M. (Grant 207481/Z/17/Z). For the purpose of open-access, the corresponding author has applied a CC BY public copyright license to the Authors Accepted Manuscript arising from this submission. Publisher Copyright: Copyright {\textcopyright} 2022 the Author(s). Published by PNAS.",

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AU - Gobbo, Francesco

AU - Mitchell-Heggs, Rufus

AU - Tse, Dorothy

AU - Al-Omrani, Meera

AU - Spooner, Patrick

AU - Shultz, Simon R

AU - Morris, Richard

N1 - Funding Information: members were fantastic, in particular Diane Damez-Werno’s insight during the initial phase of this project. Thanks also to Emma Wood and Matt Nolan (Edinburgh) and to Paul Dudchenko (Stirling) for useful insight and discussion. We also thank Giuseppe Gava (Imperial College, Oxford) for his expert guidance on PC identification. This work was financially supported by a Wellcome Trust Advanced Investigator Grant to R.G.M.M. (Grant 207481/Z/17/Z). For the purpose of open-access, the corresponding author has applied a CC BY public copyright license to the Authors Accepted Manuscript arising from this submission. Publisher Copyright: Copyright © 2022 the Author(s). Published by PNAS.

PY - 2022/10/24

Y1 - 2022/10/24

N2 - A challenge in spatial memory is understanding how place cell firing contributes to decision-making in navigation. A spatial recency task was created in which freely moving rats first became familiar with a spatial context over several days and thereafter were required to encode and then selectively recall one of three specific locations within it that was chosen to be rewarded that day. Calcium imaging was used to record from more than 1,000 cells in area CA1 of the hippocampus of five rats during the exploration, sample, and choice phases of the daily task. The key finding was that neural activity in the startbox rose steadily in the short period prior to entry to the arena and that this selective population cell firing was predictive of the daily changing goal on correct trials but not on trials in which the animals made errors. Single-cell and population activity measures converged on the idea that prospective coding of neural activity can be involved in navigational decision-making.

AB - A challenge in spatial memory is understanding how place cell firing contributes to decision-making in navigation. A spatial recency task was created in which freely moving rats first became familiar with a spatial context over several days and thereafter were required to encode and then selectively recall one of three specific locations within it that was chosen to be rewarded that day. Calcium imaging was used to record from more than 1,000 cells in area CA1 of the hippocampus of five rats during the exploration, sample, and choice phases of the daily task. The key finding was that neural activity in the startbox rose steadily in the short period prior to entry to the arena and that this selective population cell firing was predictive of the daily changing goal on correct trials but not on trials in which the animals made errors. Single-cell and population activity measures converged on the idea that prospective coding of neural activity can be involved in navigational decision-making.

KW - hippocampus

KW - place cells

KW - spatial navigation

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DO - 10.1073/pnas.2212152119

M3 - Article

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JO - Proceedings of the National Academy of Sciences (PNAS)

JF - Proceedings of the National Academy of Sciences (PNAS)

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ER -

Neuronal signature of spatial decision-making during navigation by freely moving rats using calcium imaging

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Neuronal signature of spatial decision-making during navigation by freely moving rats by using calcium imaging

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