REST overexpression in mice causes deficits in spontaneous locomotion

Li Lu; Anantha Marisetty; Bin Liu; Mohamed Mostafa Kamal; Joy Gumin; Bethany Veo; You Qing Cai; Dina Hamada Kassem; Connie Weng; Mark E. Maynard; Kimberly N. Hood; Gregory N. Fuller; Zhizhong Z. Pan; Matthew D. Cykowski; Pramod K. Dash; Sadhan Majumder

doi:10.1038/s41598-018-29441-3

REST overexpression in mice causes deficits in spontaneous locomotion

Li Lu, Anantha Marisetty, Bin Liu, Mohamed Mostafa Kamal, Joy Gumin, Bethany Veo, You Qing Cai, Dina Hamada Kassem, Connie Weng, Mark E. Maynard, Kimberly N. Hood, Gregory N. Fuller, Zhizhong Z. Pan, Matthew D. Cykowski, Pramod K. Dash, Sadhan Majumder

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Abstract

Overexpression of REST has been implicated in brain tumors, ischemic insults, epilepsy, and movement disorders such as Huntington’s disease. However, owing to the lack of a conditional REST overexpression animal model, the mechanism of action of REST overexpression in these disorders has not been established in vivo. We created a REST overexpression mouse model using the human REST (hREST) gene. Our results using these mice confirm that hREST expression parallels endogenous REST expression in embryonic mouse brains. Further analyses indicate that REST represses the dopamine receptor 2 (Drd2) gene, which encodes a critical nigrostriatal receptor involved in regulating movement, in vivo. Overexpression of REST using Drd2-Cre in adult mice results in increased REST and decreased DRD2 expression in the striatum, a major site of DRD2 expression, and phenocopies the spontaneous locomotion deficits seen upon global DRD2 deletion or specific DRD2 deletion from indirect-pathway medium spiny neurons. Thus, our studies using this mouse model not only reveal a new function of REST in regulating spontaneous locomotion but also suggest that REST overexpression in DRD2-expressing cells results in spontaneous locomotion deficits.

Original language	English (US)
Article number	12083
Journal	Scientific reports
Volume	8
Issue number	1
DOIs	https://doi.org/10.1038/s41598-018-29441-3
State	Published - Dec 1 2018

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title = "REST overexpression in mice causes deficits in spontaneous locomotion",

abstract = "Overexpression of REST has been implicated in brain tumors, ischemic insults, epilepsy, and movement disorders such as Huntington{\textquoteright}s disease. However, owing to the lack of a conditional REST overexpression animal model, the mechanism of action of REST overexpression in these disorders has not been established in vivo. We created a REST overexpression mouse model using the human REST (hREST) gene. Our results using these mice confirm that hREST expression parallels endogenous REST expression in embryonic mouse brains. Further analyses indicate that REST represses the dopamine receptor 2 (Drd2) gene, which encodes a critical nigrostriatal receptor involved in regulating movement, in vivo. Overexpression of REST using Drd2-Cre in adult mice results in increased REST and decreased DRD2 expression in the striatum, a major site of DRD2 expression, and phenocopies the spontaneous locomotion deficits seen upon global DRD2 deletion or specific DRD2 deletion from indirect-pathway medium spiny neurons. Thus, our studies using this mouse model not only reveal a new function of REST in regulating spontaneous locomotion but also suggest that REST overexpression in DRD2-expressing cells results in spontaneous locomotion deficits.",

author = "Li Lu and Anantha Marisetty and Bin Liu and Kamal, {Mohamed Mostafa} and Joy Gumin and Bethany Veo and Cai, {You Qing} and Kassem, {Dina Hamada} and Connie Weng and Maynard, {Mark E.} and Hood, {Kimberly N.} and Fuller, {Gregory N.} and Pan, {Zhizhong Z.} and Cykowski, {Matthew D.} and Dash, {Pramod K.} and Sadhan Majumder",

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year = "2018",

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doi = "10.1038/s41598-018-29441-3",

language = "English (US)",

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AU - Lu, Li

AU - Marisetty, Anantha

AU - Liu, Bin

AU - Kamal, Mohamed Mostafa

AU - Gumin, Joy

AU - Veo, Bethany

AU - Cai, You Qing

AU - Kassem, Dina Hamada

AU - Weng, Connie

AU - Maynard, Mark E.

AU - Hood, Kimberly N.

AU - Fuller, Gregory N.

AU - Pan, Zhizhong Z.

AU - Cykowski, Matthew D.

AU - Dash, Pramod K.

AU - Majumder, Sadhan

PY - 2018/12/1

Y1 - 2018/12/1

N2 - Overexpression of REST has been implicated in brain tumors, ischemic insults, epilepsy, and movement disorders such as Huntington’s disease. However, owing to the lack of a conditional REST overexpression animal model, the mechanism of action of REST overexpression in these disorders has not been established in vivo. We created a REST overexpression mouse model using the human REST (hREST) gene. Our results using these mice confirm that hREST expression parallels endogenous REST expression in embryonic mouse brains. Further analyses indicate that REST represses the dopamine receptor 2 (Drd2) gene, which encodes a critical nigrostriatal receptor involved in regulating movement, in vivo. Overexpression of REST using Drd2-Cre in adult mice results in increased REST and decreased DRD2 expression in the striatum, a major site of DRD2 expression, and phenocopies the spontaneous locomotion deficits seen upon global DRD2 deletion or specific DRD2 deletion from indirect-pathway medium spiny neurons. Thus, our studies using this mouse model not only reveal a new function of REST in regulating spontaneous locomotion but also suggest that REST overexpression in DRD2-expressing cells results in spontaneous locomotion deficits.

AB - Overexpression of REST has been implicated in brain tumors, ischemic insults, epilepsy, and movement disorders such as Huntington’s disease. However, owing to the lack of a conditional REST overexpression animal model, the mechanism of action of REST overexpression in these disorders has not been established in vivo. We created a REST overexpression mouse model using the human REST (hREST) gene. Our results using these mice confirm that hREST expression parallels endogenous REST expression in embryonic mouse brains. Further analyses indicate that REST represses the dopamine receptor 2 (Drd2) gene, which encodes a critical nigrostriatal receptor involved in regulating movement, in vivo. Overexpression of REST using Drd2-Cre in adult mice results in increased REST and decreased DRD2 expression in the striatum, a major site of DRD2 expression, and phenocopies the spontaneous locomotion deficits seen upon global DRD2 deletion or specific DRD2 deletion from indirect-pathway medium spiny neurons. Thus, our studies using this mouse model not only reveal a new function of REST in regulating spontaneous locomotion but also suggest that REST overexpression in DRD2-expressing cells results in spontaneous locomotion deficits.

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REST overexpression in mice causes deficits in spontaneous locomotion

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