β-catenin mediates stress resilience through Dicer1/microRNA regulation

Caroline Dias; Jian Feng; Haosheng Sun; Ning Y.i. Shao; Michelle S. Mazei-Robison; Diane Damez-Werno; Kimberly Scobie; Rosemary Bagot; Benoit LaBonté; Efrain Ribeiro; Xiao Chuan Liu; Pamela Kennedy; Vincent Vialou; Deveroux Ferguson; Catherine Peña; Erin S. Calipari; Ja W.ook Koo; Ezekiell Mouzon; Subroto Ghose; Carol Tamminga; Rachael Neve; Li Shen; Eric J. Nestler

doi:10.1038/nature13976

β-catenin mediates stress resilience through Dicer1/microRNA regulation

Caroline Dias, Jian Feng, Haosheng Sun, Ning Y.i. Shao, Michelle S. Mazei-Robison, Diane Damez-Werno, Kimberly Scobie, Rosemary Bagot, Benoit LaBonté, Efrain Ribeiro, Xiao Chuan Liu, Pamela Kennedy, Vincent Vialou, Deveroux Ferguson, Catherine Peña, Erin S. Calipari, Ja W.ook Koo, Ezekiell Mouzon, Subroto Ghose, Carol TammingaRachael Neve, Li Shen, Eric J. Nestler

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187 Scopus citations

Abstract

β-catenin is a multi-functional protein that has an important role in the mature central nervous system; its dysfunction has been implicated in several neuropsychiatric disorders, including depression. Here we show that in mice β-catenin mediates pro-resilient and anxiolytic effects in the nucleus accumbens, a key brain reward region, an effect mediated by D2-type medium spiny neurons. Using genome-wide β-catenin enrichment mapping, we identify Dicer1-important in small RNA (for example, microRNA) biogenesis-as a β-catenin target gene that mediates resilience. Small RNA profiling after excising β-catenin from nucleus accumbens in the context of chronic stress reveals β-catenin-dependent microRNA regulation associated with resilience. Together, these findings establish β-catenin as a critical regulator in the development of behavioural resilience, activating a network that includes Dicer1 and downstream microRNAs. We thus present a foundation for the development of novel therapeutic targets to promote stress resilience.

Original language	English (US)
Pages (from-to)	S1-S5
Journal	Nature
Volume	516
Issue number	729
DOIs	https://doi.org/10.1038/nature13976
State	Published - Dec 4 2014

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Dias, C., Feng, J., Sun, H., Shao, N. Y. I., Mazei-Robison, M. S., Damez-Werno, D., Scobie, K., Bagot, R., LaBonté, B., Ribeiro, E., Liu, X. C., Kennedy, P., Vialou, V., Ferguson, D., Peña, C., Calipari, E. S., Koo, J. W. O., Mouzon, E., Ghose, S., ... Nestler, E. J. (2014). β-catenin mediates stress resilience through Dicer1/microRNA regulation. Nature, 516(729), S1-S5. https://doi.org/10.1038/nature13976

Dias, C, Feng, J, Sun, H, Shao, NYI, Mazei-Robison, MS, Damez-Werno, D, Scobie, K, Bagot, R, LaBonté, B, Ribeiro, E, Liu, XC, Kennedy, P, Vialou, V, Ferguson, D, Peña, C, Calipari, ES, Koo, JWO, Mouzon, E, Ghose, S , Tamminga, C, Neve, R, Shen, L & Nestler, EJ 2014, 'β-catenin mediates stress resilience through Dicer1/microRNA regulation', Nature, vol. 516, no. 729, pp. S1-S5. https://doi.org/10.1038/nature13976

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title = "β-catenin mediates stress resilience through Dicer1/microRNA regulation",

abstract = "β-catenin is a multi-functional protein that has an important role in the mature central nervous system; its dysfunction has been implicated in several neuropsychiatric disorders, including depression. Here we show that in mice β-catenin mediates pro-resilient and anxiolytic effects in the nucleus accumbens, a key brain reward region, an effect mediated by D2-type medium spiny neurons. Using genome-wide β-catenin enrichment mapping, we identify Dicer1-important in small RNA (for example, microRNA) biogenesis-as a β-catenin target gene that mediates resilience. Small RNA profiling after excising β-catenin from nucleus accumbens in the context of chronic stress reveals β-catenin-dependent microRNA regulation associated with resilience. Together, these findings establish β-catenin as a critical regulator in the development of behavioural resilience, activating a network that includes Dicer1 and downstream microRNAs. We thus present a foundation for the development of novel therapeutic targets to promote stress resilience.",

author = "Caroline Dias and Jian Feng and Haosheng Sun and Shao, {Ning Y.i.} and Mazei-Robison, {Michelle S.} and Diane Damez-Werno and Kimberly Scobie and Rosemary Bagot and Benoit LaBont{\'e} and Efrain Ribeiro and Liu, {Xiao Chuan} and Pamela Kennedy and Vincent Vialou and Deveroux Ferguson and Catherine Pe{\~n}a and Calipari, {Erin S.} and Koo, {Ja W.ook} and Ezekiell Mouzon and Subroto Ghose and Carol Tamminga and Rachael Neve and Li Shen and Nestler, {Eric J.}",

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doi = "10.1038/nature13976",

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AU - Dias, Caroline

AU - Feng, Jian

AU - Sun, Haosheng

AU - Shao, Ning Y.i.

AU - Mazei-Robison, Michelle S.

AU - Damez-Werno, Diane

AU - Scobie, Kimberly

AU - Bagot, Rosemary

AU - LaBonté, Benoit

AU - Ribeiro, Efrain

AU - Liu, Xiao Chuan

AU - Kennedy, Pamela

AU - Vialou, Vincent

AU - Ferguson, Deveroux

AU - Peña, Catherine

AU - Calipari, Erin S.

AU - Koo, Ja W.ook

AU - Mouzon, Ezekiell

AU - Ghose, Subroto

AU - Tamminga, Carol

AU - Neve, Rachael

AU - Shen, Li

AU - Nestler, Eric J.

PY - 2014/12/4

Y1 - 2014/12/4

N2 - β-catenin is a multi-functional protein that has an important role in the mature central nervous system; its dysfunction has been implicated in several neuropsychiatric disorders, including depression. Here we show that in mice β-catenin mediates pro-resilient and anxiolytic effects in the nucleus accumbens, a key brain reward region, an effect mediated by D2-type medium spiny neurons. Using genome-wide β-catenin enrichment mapping, we identify Dicer1-important in small RNA (for example, microRNA) biogenesis-as a β-catenin target gene that mediates resilience. Small RNA profiling after excising β-catenin from nucleus accumbens in the context of chronic stress reveals β-catenin-dependent microRNA regulation associated with resilience. Together, these findings establish β-catenin as a critical regulator in the development of behavioural resilience, activating a network that includes Dicer1 and downstream microRNAs. We thus present a foundation for the development of novel therapeutic targets to promote stress resilience.

AB - β-catenin is a multi-functional protein that has an important role in the mature central nervous system; its dysfunction has been implicated in several neuropsychiatric disorders, including depression. Here we show that in mice β-catenin mediates pro-resilient and anxiolytic effects in the nucleus accumbens, a key brain reward region, an effect mediated by D2-type medium spiny neurons. Using genome-wide β-catenin enrichment mapping, we identify Dicer1-important in small RNA (for example, microRNA) biogenesis-as a β-catenin target gene that mediates resilience. Small RNA profiling after excising β-catenin from nucleus accumbens in the context of chronic stress reveals β-catenin-dependent microRNA regulation associated with resilience. Together, these findings establish β-catenin as a critical regulator in the development of behavioural resilience, activating a network that includes Dicer1 and downstream microRNAs. We thus present a foundation for the development of novel therapeutic targets to promote stress resilience.

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β-catenin mediates stress resilience through Dicer1/microRNA regulation

Abstract

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