Impaired Recall of Positional Memory following Chemogenetic Disruption of Place Field Stability

Rong Zhao; Stacy D. Grunke; Madhusudhanan M. Keralapurath; Michael J. Yetman; Alexander Lam; Tang Cheng Lee; Konstantinos Sousounis; Yongying Jiang; Deborah A. Swing; Lino Tessarollo; Daoyun Ji; Joanna L. Jankowsky

doi:10.1016/j.celrep.2016.06.032

Impaired Recall of Positional Memory following Chemogenetic Disruption of Place Field Stability

Rong Zhao, Stacy D. Grunke, Madhusudhanan M. Keralapurath, Michael J. Yetman, Alexander Lam, Tang Cheng Lee, Konstantinos Sousounis, Yongying Jiang, Deborah A. Swing, Lino Tessarollo, Daoyun Ji, Joanna L. Jankowsky

Institute for Applied Cancer Science (IACS)

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

18 Scopus citations

Abstract

The neural network of the temporal lobe is thought to provide a cognitive map of our surroundings. Functional analysis of this network has been hampered by coarse tools that often result in collateral damage to other circuits. We developed a chemogenetic system to temporally control electrical input into the hippocampus. When entorhinal input to the perforant path was acutely silenced, hippocampal firing patterns became destabilized and underwent extensive remapping. We also found that spatial memory acquired prior to neural silencing was impaired by loss of input through the perforant path. Together, our experiments show that manipulation of entorhinal activity destabilizes spatial coding and disrupts spatial memory. Moreover, we introduce a chemogenetic model for non-invasive neuronal silencing that offers multiple advantages over existing strategies in this setting.

Original language	English (US)
Pages (from-to)	793-804
Number of pages	12
Journal	Cell Reports
Volume	16
Issue number	3
DOIs	https://doi.org/10.1016/j.celrep.2016.06.032
State	Published - Jul 19 2016

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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title = "Impaired Recall of Positional Memory following Chemogenetic Disruption of Place Field Stability",

abstract = "The neural network of the temporal lobe is thought to provide a cognitive map of our surroundings. Functional analysis of this network has been hampered by coarse tools that often result in collateral damage to other circuits. We developed a chemogenetic system to temporally control electrical input into the hippocampus. When entorhinal input to the perforant path was acutely silenced, hippocampal firing patterns became destabilized and underwent extensive remapping. We also found that spatial memory acquired prior to neural silencing was impaired by loss of input through the perforant path. Together, our experiments show that manipulation of entorhinal activity destabilizes spatial coding and disrupts spatial memory. Moreover, we introduce a chemogenetic model for non-invasive neuronal silencing that offers multiple advantages over existing strategies in this setting.",

author = "Rong Zhao and Grunke, {Stacy D.} and Keralapurath, {Madhusudhanan M.} and Yetman, {Michael J.} and Alexander Lam and Lee, {Tang Cheng} and Konstantinos Sousounis and Yongying Jiang and Swing, {Deborah A.} and Lino Tessarollo and Daoyun Ji and Jankowsky, {Joanna L.}",

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AU - Zhao, Rong

AU - Grunke, Stacy D.

AU - Keralapurath, Madhusudhanan M.

AU - Yetman, Michael J.

AU - Lam, Alexander

AU - Lee, Tang Cheng

AU - Sousounis, Konstantinos

AU - Jiang, Yongying

AU - Swing, Deborah A.

AU - Tessarollo, Lino

AU - Ji, Daoyun

AU - Jankowsky, Joanna L.

PY - 2016/7/19

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AB - The neural network of the temporal lobe is thought to provide a cognitive map of our surroundings. Functional analysis of this network has been hampered by coarse tools that often result in collateral damage to other circuits. We developed a chemogenetic system to temporally control electrical input into the hippocampus. When entorhinal input to the perforant path was acutely silenced, hippocampal firing patterns became destabilized and underwent extensive remapping. We also found that spatial memory acquired prior to neural silencing was impaired by loss of input through the perforant path. Together, our experiments show that manipulation of entorhinal activity destabilizes spatial coding and disrupts spatial memory. Moreover, we introduce a chemogenetic model for non-invasive neuronal silencing that offers multiple advantages over existing strategies in this setting.

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Impaired Recall of Positional Memory following Chemogenetic Disruption of Place Field Stability

Abstract

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