Wilm’s tumor 1 promotes memory flexibility

Chiara Mariottini; Leonardo Munari; Ellen Gunzel; Joseph M. Seco; Nikos Tzavaras; Jens Hansen; Sarah A. Stern; Virginia Gao; Hossein Aleyasin; Ali Sharma; Evren U. Azeloglu; Georgia E. Hodes; Scott J. Russo; Vicki Huff; Marc R. Birtwistle; Robert D. Blitzer; Cristina M. Alberini; Ravi Iyengar

doi:10.1038/s41467-019-11781-x

Wilm’s tumor 1 promotes memory flexibility

Chiara Mariottini, Leonardo Munari, Ellen Gunzel, Joseph M. Seco, Nikos Tzavaras, Jens Hansen, Sarah A. Stern, Virginia Gao, Hossein Aleyasin, Ali Sharma, Evren U. Azeloglu, Georgia E. Hodes, Scott J. Russo, Vicki Huff, Marc R. Birtwistle, Robert D. Blitzer, Cristina M. Alberini, Ravi Iyengar

Genetics

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

13 Scopus citations

Abstract

Under physiological conditions, strength and persistence of memory must be regulated in order to produce behavioral flexibility. In fact, impairments in memory flexibility are associated with pathologies such as post-traumatic stress disorder or autism; however, the underlying mechanisms that enable memory flexibility are still poorly understood. Here, we identify transcriptional repressor Wilm’s Tumor 1 (WT1) as a critical synaptic plasticity regulator that decreases memory strength, promoting memory flexibility. WT1 is activated in the hippocampus following induction of long-term potentiation (LTP) or learning. WT1 knockdown enhances CA1 neuronal excitability, LTP and long-term memory whereas its overexpression weakens memory retention. Moreover, forebrain WT1-deficient mice show deficits in both reversal, sequential learning tasks and contextual fear extinction, exhibiting impaired memory flexibility. We conclude that WT1 limits memory strength or promotes memory weakening, thus enabling memory flexibility, a process that is critical for learning from new experiences.

Original language	English (US)
Article number	3756
Journal	Nature communications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-11781-x
State	Published - Dec 1 2019

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General Physics and Astronomy

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Mariottini, C., Munari, L., Gunzel, E., Seco, J. M., Tzavaras, N., Hansen, J., Stern, S. A., Gao, V., Aleyasin, H., Sharma, A., Azeloglu, E. U., Hodes, G. E., Russo, S. J., Huff, V., Birtwistle, M. R., Blitzer, R. D., Alberini, C. M., & Iyengar, R. (2019). Wilm’s tumor 1 promotes memory flexibility. Nature communications, 10(1), Article 3756. https://doi.org/10.1038/s41467-019-11781-x

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abstract = "Under physiological conditions, strength and persistence of memory must be regulated in order to produce behavioral flexibility. In fact, impairments in memory flexibility are associated with pathologies such as post-traumatic stress disorder or autism; however, the underlying mechanisms that enable memory flexibility are still poorly understood. Here, we identify transcriptional repressor Wilm{\textquoteright}s Tumor 1 (WT1) as a critical synaptic plasticity regulator that decreases memory strength, promoting memory flexibility. WT1 is activated in the hippocampus following induction of long-term potentiation (LTP) or learning. WT1 knockdown enhances CA1 neuronal excitability, LTP and long-term memory whereas its overexpression weakens memory retention. Moreover, forebrain WT1-deficient mice show deficits in both reversal, sequential learning tasks and contextual fear extinction, exhibiting impaired memory flexibility. We conclude that WT1 limits memory strength or promotes memory weakening, thus enabling memory flexibility, a process that is critical for learning from new experiences.",

author = "Chiara Mariottini and Leonardo Munari and Ellen Gunzel and Seco, {Joseph M.} and Nikos Tzavaras and Jens Hansen and Stern, {Sarah A.} and Virginia Gao and Hossein Aleyasin and Ali Sharma and Azeloglu, {Evren U.} and Hodes, {Georgia E.} and Russo, {Scott J.} and Vicki Huff and Birtwistle, {Marc R.} and Blitzer, {Robert D.} and Alberini, {Cristina M.} and Ravi Iyengar",

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AU - Mariottini, Chiara

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AU - Gunzel, Ellen

AU - Seco, Joseph M.

AU - Tzavaras, Nikos

AU - Hansen, Jens

AU - Stern, Sarah A.

AU - Gao, Virginia

AU - Aleyasin, Hossein

AU - Sharma, Ali

AU - Azeloglu, Evren U.

AU - Hodes, Georgia E.

AU - Russo, Scott J.

AU - Huff, Vicki

AU - Birtwistle, Marc R.

AU - Blitzer, Robert D.

AU - Alberini, Cristina M.

AU - Iyengar, Ravi

PY - 2019/12/1

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N2 - Under physiological conditions, strength and persistence of memory must be regulated in order to produce behavioral flexibility. In fact, impairments in memory flexibility are associated with pathologies such as post-traumatic stress disorder or autism; however, the underlying mechanisms that enable memory flexibility are still poorly understood. Here, we identify transcriptional repressor Wilm’s Tumor 1 (WT1) as a critical synaptic plasticity regulator that decreases memory strength, promoting memory flexibility. WT1 is activated in the hippocampus following induction of long-term potentiation (LTP) or learning. WT1 knockdown enhances CA1 neuronal excitability, LTP and long-term memory whereas its overexpression weakens memory retention. Moreover, forebrain WT1-deficient mice show deficits in both reversal, sequential learning tasks and contextual fear extinction, exhibiting impaired memory flexibility. We conclude that WT1 limits memory strength or promotes memory weakening, thus enabling memory flexibility, a process that is critical for learning from new experiences.

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Wilm’s tumor 1 promotes memory flexibility

Abstract

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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