Vectorial representation of spatial goals in the hippocampus of bats

Ayelet Sarel; Arseny Finkelstein; Liora Las; Nachum Ulanovsky

doi:10.1126/science.aak9589

Vectorial representation of spatial goals in the hippocampus of bats

Ayelet Sarel, Arseny Finkelstein, Liora Las, Nachum Ulanovsky

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

Abstract

To navigate, animals need to represent not only their own position and orientation, but also the location of their goal. Neural representations of an animal's own position and orientation have been extensively studied. However, it is unknown how navigational goals are encoded in the brain.We recorded from hippocampal CA1 neurons of bats flying in complex trajectories toward a spatial goal.We discovered a subpopulation of neurons with angular tuning to the goal direction. Many of these neurons were tuned to an occluded goal, suggesting that goal-direction representation is memory-based. We also found cells that encoded the distance to the goal, often in conjunction with goal direction. The goaldirection and goal-distance signals make up a vectorial representation of spatial goals, suggesting a previously unrecognized neuronal mechanism for goal-directed navigation.

Original language	English
Article number	6321
Journal	Science
Volume	355
Issue number	6321
DOIs	https://doi.org/10.1126/science.aak9589
State	Published - 13 Jan 2017
Externally published	Yes

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title = "Vectorial representation of spatial goals in the hippocampus of bats",

abstract = "To navigate, animals need to represent not only their own position and orientation, but also the location of their goal. Neural representations of an animal's own position and orientation have been extensively studied. However, it is unknown how navigational goals are encoded in the brain.We recorded from hippocampal CA1 neurons of bats flying in complex trajectories toward a spatial goal.We discovered a subpopulation of neurons with angular tuning to the goal direction. Many of these neurons were tuned to an occluded goal, suggesting that goal-direction representation is memory-based. We also found cells that encoded the distance to the goal, often in conjunction with goal direction. The goaldirection and goal-distance signals make up a vectorial representation of spatial goals, suggesting a previously unrecognized neuronal mechanism for goal-directed navigation.",

author = "Ayelet Sarel and Arseny Finkelstein and Liora Las and Nachum Ulanovsky",

note = "Funding Information: This study was supported by research grants to N.U. from the European Research Council (ERC-StG NEUROBAT and ERC-CoG NATURAL-BAT-NAV), the Israel Science Foundation (ISF 1319/13), and the Minerva Foundation. Equipment support was provided by the Krenter Institute at the Weizmann Institute of Science.",

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doi = "10.1126/science.aak9589",

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AU - Finkelstein, Arseny

AU - Las, Liora

AU - Ulanovsky, Nachum

N1 - Funding Information: This study was supported by research grants to N.U. from the European Research Council (ERC-StG NEUROBAT and ERC-CoG NATURAL-BAT-NAV), the Israel Science Foundation (ISF 1319/13), and the Minerva Foundation. Equipment support was provided by the Krenter Institute at the Weizmann Institute of Science.

PY - 2017/1/13

Y1 - 2017/1/13

N2 - To navigate, animals need to represent not only their own position and orientation, but also the location of their goal. Neural representations of an animal's own position and orientation have been extensively studied. However, it is unknown how navigational goals are encoded in the brain.We recorded from hippocampal CA1 neurons of bats flying in complex trajectories toward a spatial goal.We discovered a subpopulation of neurons with angular tuning to the goal direction. Many of these neurons were tuned to an occluded goal, suggesting that goal-direction representation is memory-based. We also found cells that encoded the distance to the goal, often in conjunction with goal direction. The goaldirection and goal-distance signals make up a vectorial representation of spatial goals, suggesting a previously unrecognized neuronal mechanism for goal-directed navigation.

AB - To navigate, animals need to represent not only their own position and orientation, but also the location of their goal. Neural representations of an animal's own position and orientation have been extensively studied. However, it is unknown how navigational goals are encoded in the brain.We recorded from hippocampal CA1 neurons of bats flying in complex trajectories toward a spatial goal.We discovered a subpopulation of neurons with angular tuning to the goal direction. Many of these neurons were tuned to an occluded goal, suggesting that goal-direction representation is memory-based. We also found cells that encoded the distance to the goal, often in conjunction with goal direction. The goaldirection and goal-distance signals make up a vectorial representation of spatial goals, suggesting a previously unrecognized neuronal mechanism for goal-directed navigation.

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Vectorial representation of spatial goals in the hippocampus of bats

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