Hippocampal place cells have goal-oriented vector fields during navigation

The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments 1 . Although much is known about how the hippocampus encodes location in world-centred coordinates, how it supports flexible navigation is less well understood. We recorded CA1 place c...

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Vydáno v:	Nature (London) Ročník 607; číslo 7920; s. 741 - 746
Hlavní autoři:	Ormond, Jake, O’Keefe, John
Médium:	Journal Article
Jazyk:	angličtina
Vydáno:	London Nature Publishing Group UK 28.07.2022 Nature Publishing Group
Témata:	631/378/1595/1554 631/378/1595/3922 9/30 Animals CA1 Region, Hippocampal - cytology CA1 Region, Hippocampal - physiology Cognitive ability Cognitive maps Convergence Fields (mathematics) Goals Hippocampus Humanities and Social Sciences Maze Learning multidisciplinary Navigation Navigation behavior Place Cells - physiology Population Rats Science Science (multidisciplinary) Spatial Navigation - physiology Variables
ISSN:	0028-0836, 1476-4687, 1476-4687
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Abstract	The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments 1 . Although much is known about how the hippocampus encodes location in world-centred coordinates, how it supports flexible navigation is less well understood. We recorded CA1 place cells while rats navigated to a goal on the honeycomb maze 2 . The maze tests navigation via direct and indirect paths to the goal and allows the directionality of place cells to be assessed at each choice point. Place fields showed strong directional polarization characterized by vector fields that converged to sinks distributed throughout the environment. The distribution of these ‘convergence sinks’ (ConSinks) was centred near the goal location and the population vector field converged on the goal, providing a strong navigational signal. Changing the goal location led to movement of ConSinks and vector fields towards the new goal. The honeycomb maze allows independent assessment of spatial representation and spatial action in place cell activity and shows how the latter relates to the former. The results suggest that the hippocampus creates a vector-based model to support flexible navigation, allowing animals to select optimal paths to destinations from any location in the environment. A vector-based model for flexible navigation in the hippocampus allows animals to optimally navigate to any location in their environment.
AbstractList	The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments . Although much is known about how the hippocampus encodes location in world-centred coordinates, how it supports flexible navigation is less well understood. We recorded CA1 place cells while rats navigated to a goal on the honeycomb maze . The maze tests navigation via direct and indirect paths to the goal and allows the directionality of place cells to be assessed at each choice point. Place fields showed strong directional polarization characterized by vector fields that converged to sinks distributed throughout the environment. The distribution of these 'convergence sinks' (ConSinks) was centred near the goal location and the population vector field converged on the goal, providing a strong navigational signal. Changing the goal location led to movement of ConSinks and vector fields towards the new goal. The honeycomb maze allows independent assessment of spatial representation and spatial action in place cell activity and shows how the latter relates to the former. The results suggest that the hippocampus creates a vector-based model to support flexible navigation, allowing animals to select optimal paths to destinations from any location in the environment. The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments1. Although much is known about how the hippocampus encodes location in world-centred coordinates, how it supports flexible navigation is less well understood. We recorded CA1 place cells while rats navigated to a goal on the honeycomb maze2. The maze tests navigation via direct and indirect paths to the goal and allows the directionality of place cells to be assessed at each choice point. Place fields showed strong directional polarization characterized by vector fields that converged to sinks distributed throughout the environment. The distribution of these ‘convergence sinks’ (ConSinks) was centred near the goal location and the population vector field converged on the goal, providing a strong navigational signal. Changing the goal location led to movement of ConSinks and vector fields towards the new goal. The honeycomb maze allows independent assessment of spatial representation and spatial action in place cell activity and shows how the latter relates to the former. The results suggest that the hippocampus creates a vector-based model to support flexible navigation, allowing animals to select optimal paths to destinations from any location in the environment. A vector-based model for flexible navigation in the hippocampus allows animals to optimally navigate to any location in their environment. The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments1. Although much is known about how the hippocampus encodes location in world-centred coordinates, how it supports flexible navigation is less well understood. We recorded CA1 place cells while rats navigated to a goal on the honeycomb maze2. The maze tests navigation via direct and indirect paths to the goal and allows the directionality of place cells to be assessed at each choice point. Place fields showed strong directional polarization characterized by vector fields that converged to sinks distributed throughout the environment. The distribution ofthese 'convergence sinks' (ConSinks) was centred near the goal location and the population vector field converged on the goal, providing a strong navigational signal. Changing the goal location led to movement of ConSinks and vector fields towards the new goal. The honeycomb maze allows independent assessment of spatial representation and spatial action in place cell activity and shows how the latter relates to the former. The results suggest that the hippocampus creates a vector-based model to support flexible navigation, allowing animals to select optimal paths to destinations from any location in the environment. The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments 1 . Although much is known about how the hippocampus encodes location in world-centred coordinates, how it supports flexible navigation is less well understood. We recorded CA1 place cells while rats navigated to a goal on the honeycomb maze 2 . The maze tests navigation via direct and indirect paths to the goal and allows the directionality of place cells to be assessed at each choice point. Place fields showed strong directional polarization characterized by vector fields that converged to sinks distributed throughout the environment. The distribution of these ‘convergence sinks’ (ConSinks) was centred near the goal location and the population vector field converged on the goal, providing a strong navigational signal. Changing the goal location led to movement of ConSinks and vector fields towards the new goal. The honeycomb maze allows independent assessment of spatial representation and spatial action in place cell activity and shows how the latter relates to the former. The results suggest that the hippocampus creates a vector-based model to support flexible navigation, allowing animals to select optimal paths to destinations from any location in the environment. A vector-based model for flexible navigation in the hippocampus allows animals to optimally navigate to any location in their environment. The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments 1 . Although much is known about how the hippocampus encodes location in world-centred coordinates, how it supports flexible navigation is less well understood. We recorded CA1 place cells while rats navigated to a goal on the honeycomb maze 2 . The maze tests navigation via direct and indirect paths to the goal and allows the directionality of place cells to be assessed at each choice point. Place fields showed strong directional polarization characterized by vector fields that converged to sinks distributed throughout the environment. The distribution of these ‘convergence sinks’ (ConSinks) was centred near the goal location and the population vector field converged on the goal, providing a strong navigational signal. Changing the goal location led to movement of ConSinks and vector fields towards the new goal. The honeycomb maze allows independent assessment of spatial representation and spatial action in place cell activity and shows how the latter relates to the former. The results suggest that the hippocampus creates a vector-based model to support flexible navigation, allowing animals to select optimal paths to destinations from any location in the environment. The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments1. Although much is known about how the hippocampus encodes location in world-centred coordinates, how it supports flexible navigation is less well understood. We recorded CA1 place cells while rats navigated to a goal on the honeycomb maze2. The maze tests navigation via direct and indirect paths to the goal and allows the directionality of place cells to be assessed at each choice point. Place fields showed strong directional polarization characterized by vector fields that converged to sinks distributed throughout the environment. The distribution of these 'convergence sinks' (ConSinks) was centred near the goal location and the population vector field converged on the goal, providing a strong navigational signal. Changing the goal location led to movement of ConSinks and vector fields towards the new goal. The honeycomb maze allows independent assessment of spatial representation and spatial action in place cell activity and shows how the latter relates to the former. The results suggest that the hippocampus creates a vector-based model to support flexible navigation, allowing animals to select optimal paths to destinations from any location in the environment.The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments1. Although much is known about how the hippocampus encodes location in world-centred coordinates, how it supports flexible navigation is less well understood. We recorded CA1 place cells while rats navigated to a goal on the honeycomb maze2. The maze tests navigation via direct and indirect paths to the goal and allows the directionality of place cells to be assessed at each choice point. Place fields showed strong directional polarization characterized by vector fields that converged to sinks distributed throughout the environment. The distribution of these 'convergence sinks' (ConSinks) was centred near the goal location and the population vector field converged on the goal, providing a strong navigational signal. Changing the goal location led to movement of ConSinks and vector fields towards the new goal. The honeycomb maze allows independent assessment of spatial representation and spatial action in place cell activity and shows how the latter relates to the former. The results suggest that the hippocampus creates a vector-based model to support flexible navigation, allowing animals to select optimal paths to destinations from any location in the environment.
Author	O’Keefe, John Ormond, Jake
Author_xml	– sequence: 1 givenname: Jake orcidid: 0000-0001-6728-3576 surname: Ormond fullname: Ormond, Jake email: j.ormond@ucl.ac.uk organization: Sainsbury Wellcome Centre – sequence: 2 givenname: John orcidid: 0000-0001-5697-4881 surname: O’Keefe fullname: O’Keefe, John email: j.okeefe@ucl.ac.uk organization: Sainsbury Wellcome Centre, Cell and Developmental Biology Department, University College London
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References	GauthierJLTankDWA dedicated population for reward coding in the hippocampusNeuron2018991791931:CAS:528:DC%2BC1cXht1Cju7%2FE10.1016/j.neuron.2018.06.008 RollsETO’MaraSMView-responsive neurons in the primate hippocampal complexHippocampus199554094241:STN:280:DyaK28zmvFanug%3D%3D10.1002/hipo.450050504 LaChancePAToddTPTaubeJSA sense of space in postrhinal cortexScience2019365eaax41922019Sci...365.4192L1:CAS:528:DC%2BC1MXhtlKqsrvI10.1126/science.aax4192 MullerRUKubieJLThe firing of hippocampal place cells predicts the future position of freely moving ratsJ. Neurosci.19899410141101:STN:280:DyaK3c%2FnvFGhug%3D%3D10.1523/JNEUROSCI.09-12-04101.1989 O’KeefeJRecceMLPhase relationship between hippocampal place units and the EEG theta rhythmHippocampus1993331733010.1002/hipo.450030307 TolmanEPrediction of vicarious trial and error by means of the schematic sowbugPsychol. 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Snippet	The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments 1 . Although much is known about how the... The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments . Although much is known about how the... The hippocampal cognitive map supports navigation towards, or away from, salient locations in familiar environments1. Although much is known about how the...
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SubjectTerms	631/378/1595/1554 631/378/1595/3922 9/30 Animals CA1 Region, Hippocampal - cytology CA1 Region, Hippocampal - physiology Cognitive ability Cognitive maps Convergence Fields (mathematics) Goals Hippocampus Humanities and Social Sciences Maze Learning multidisciplinary Navigation Navigation behavior Place Cells - physiology Population Rats Science Science (multidisciplinary) Spatial Navigation - physiology Variables
Title	Hippocampal place cells have goal-oriented vector fields during navigation
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