PPAR-δ is repressed in Huntington's disease, is required for normal neuronal function and can be targeted therapeutically

Audrey S. Dickey; Victor V. Pineda; Taiji Tsunemi; Patrick P. Liu; Helen C. Miranda; Stephen K. Gilmore-Hall; Nicole Lomas; Kunal R. Sampat; Anne Buttgereit; Mark Joseph Manalang Torres; April L. Flores; Martin Arreola; Nicolas Arbez; Sergey S. Akimov; Terry Gaasterland; Eduardo R. Lazarowski; Christopher A. Ross; Gene W. Yeo; Bryce L. Sopher; Gavin K. Magnuson; Anthony B. Pinkerton; Eliezer Masliah; Albert R. La Spada

doi:10.1038/nm.4003

PPAR-δ is repressed in Huntington's disease, is required for normal neuronal function and can be targeted therapeutically

Audrey S. Dickey, Victor V. Pineda, Taiji Tsunemi, Patrick P. Liu, Helen C. Miranda, Stephen K. Gilmore-Hall, Nicole Lomas, Kunal R. Sampat, Anne Buttgereit, Mark Joseph Manalang Torres, April L. Flores, Martin Arreola, Nicolas Arbez, Sergey S. Akimov, Terry Gaasterland, Eduardo R. Lazarowski, Christopher A. Ross, Gene W. Yeo, Bryce L. Sopher, Gavin K. MagnusonAnthony B. Pinkerton, Eliezer Masliah, Albert R. La Spada

School of Medicine

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

46 Scopus citations

Abstract

Huntington's disease (HD) is a progressive neurodegenerative disorder caused by a CAG trinucleotide repeat expansion in the huntingtin (HTT) gene, which encodes a polyglutamine tract in the HTT protein. We found that peroxisome proliferator-activated receptor delta (PPAR-δ) interacts with HTT and that mutant HTT represses PPAR-δ-mediated transactivation. Increased PPAR-δ transactivation ameliorated mitochondrial dysfunction and improved cell survival of neurons from mouse models of HD. Expression of dominant-negative PPAR-δ in the central nervous system of mice was sufficient to induce motor dysfunction, neurodegeneration, mitochondrial abnormalities and transcriptional alterations that recapitulated HD-like phenotypes. Expression of dominant-negative PPAR-δ specifically in the striatum of medium spiny neurons in mice yielded HD-like motor phenotypes, accompanied by striatal neuron loss. In mouse models of HD, pharmacologic activation of PPAR-δ using the agonist KD3010 improved motor function, reduced neurodegeneration and increased survival. PPAR-δ activation also reduced HTT-induced neurotoxicity in vitro and in medium spiny-like neurons generated from stem cells derived from individuals with HD, indicating that PPAR-δ activation may be beneficial in HD and related disorders.

Original language	English (US)
Pages (from-to)	37-45
Number of pages	9
Journal	Nature medicine
Volume	22
Issue number	1
DOIs	https://doi.org/10.1038/nm.4003
State	Published - Jan 1 2016

ASJC Scopus subject areas

General Biochemistry, Genetics and Molecular Biology

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10.1038/nm.4003

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Dickey, A. S., Pineda, V. V., Tsunemi, T., Liu, P. P., Miranda, H. C., Gilmore-Hall, S. K., Lomas, N., Sampat, K. R., Buttgereit, A., Torres, M. J. M., Flores, A. L., Arreola, M., Arbez, N., Akimov, S. S., Gaasterland, T., Lazarowski, E. R., Ross, C. A., Yeo, G. W., Sopher, B. L., ... La Spada, A. R. (2016). PPAR-δ is repressed in Huntington's disease, is required for normal neuronal function and can be targeted therapeutically. Nature medicine, 22(1), 37-45. https://doi.org/10.1038/nm.4003

Dickey, AS, Pineda, VV, Tsunemi, T, Liu, PP, Miranda, HC, Gilmore-Hall, SK, Lomas, N, Sampat, KR, Buttgereit, A, Torres, MJM, Flores, AL, Arreola, M, Arbez, N, Akimov, SS, Gaasterland, T, Lazarowski, ER, Ross, CA, Yeo, GW, Sopher, BL, Magnuson, GK, Pinkerton, AB, Masliah, E & La Spada, AR 2016, 'PPAR-δ is repressed in Huntington's disease, is required for normal neuronal function and can be targeted therapeutically', Nature medicine, vol. 22, no. 1, pp. 37-45. https://doi.org/10.1038/nm.4003

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title = "PPAR-δ is repressed in Huntington's disease, is required for normal neuronal function and can be targeted therapeutically",

abstract = "Huntington's disease (HD) is a progressive neurodegenerative disorder caused by a CAG trinucleotide repeat expansion in the huntingtin (HTT) gene, which encodes a polyglutamine tract in the HTT protein. We found that peroxisome proliferator-activated receptor delta (PPAR-δ) interacts with HTT and that mutant HTT represses PPAR-δ-mediated transactivation. Increased PPAR-δ transactivation ameliorated mitochondrial dysfunction and improved cell survival of neurons from mouse models of HD. Expression of dominant-negative PPAR-δ in the central nervous system of mice was sufficient to induce motor dysfunction, neurodegeneration, mitochondrial abnormalities and transcriptional alterations that recapitulated HD-like phenotypes. Expression of dominant-negative PPAR-δ specifically in the striatum of medium spiny neurons in mice yielded HD-like motor phenotypes, accompanied by striatal neuron loss. In mouse models of HD, pharmacologic activation of PPAR-δ using the agonist KD3010 improved motor function, reduced neurodegeneration and increased survival. PPAR-δ activation also reduced HTT-induced neurotoxicity in vitro and in medium spiny-like neurons generated from stem cells derived from individuals with HD, indicating that PPAR-δ activation may be beneficial in HD and related disorders.",

author = "Dickey, {Audrey S.} and Pineda, {Victor V.} and Taiji Tsunemi and Liu, {Patrick P.} and Miranda, {Helen C.} and Gilmore-Hall, {Stephen K.} and Nicole Lomas and Sampat, {Kunal R.} and Anne Buttgereit and Torres, {Mark Joseph Manalang} and Flores, {April L.} and Martin Arreola and Nicolas Arbez and Akimov, {Sergey S.} and Terry Gaasterland and Lazarowski, {Eduardo R.} and Ross, {Christopher A.} and Yeo, {Gene W.} and Sopher, {Bryce L.} and Magnuson, {Gavin K.} and Pinkerton, {Anthony B.} and Eliezer Masliah and {La Spada}, {Albert R.}",

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AU - Dickey, Audrey S.

AU - Pineda, Victor V.

AU - Tsunemi, Taiji

AU - Liu, Patrick P.

AU - Miranda, Helen C.

AU - Gilmore-Hall, Stephen K.

AU - Lomas, Nicole

AU - Sampat, Kunal R.

AU - Buttgereit, Anne

AU - Torres, Mark Joseph Manalang

AU - Flores, April L.

AU - Arreola, Martin

AU - Arbez, Nicolas

AU - Akimov, Sergey S.

AU - Gaasterland, Terry

AU - Lazarowski, Eduardo R.

AU - Ross, Christopher A.

AU - Yeo, Gene W.

AU - Sopher, Bryce L.

AU - Magnuson, Gavin K.

AU - Pinkerton, Anthony B.

AU - Masliah, Eliezer

AU - La Spada, Albert R.

PY - 2016/1/1

Y1 - 2016/1/1

N2 - Huntington's disease (HD) is a progressive neurodegenerative disorder caused by a CAG trinucleotide repeat expansion in the huntingtin (HTT) gene, which encodes a polyglutamine tract in the HTT protein. We found that peroxisome proliferator-activated receptor delta (PPAR-δ) interacts with HTT and that mutant HTT represses PPAR-δ-mediated transactivation. Increased PPAR-δ transactivation ameliorated mitochondrial dysfunction and improved cell survival of neurons from mouse models of HD. Expression of dominant-negative PPAR-δ in the central nervous system of mice was sufficient to induce motor dysfunction, neurodegeneration, mitochondrial abnormalities and transcriptional alterations that recapitulated HD-like phenotypes. Expression of dominant-negative PPAR-δ specifically in the striatum of medium spiny neurons in mice yielded HD-like motor phenotypes, accompanied by striatal neuron loss. In mouse models of HD, pharmacologic activation of PPAR-δ using the agonist KD3010 improved motor function, reduced neurodegeneration and increased survival. PPAR-δ activation also reduced HTT-induced neurotoxicity in vitro and in medium spiny-like neurons generated from stem cells derived from individuals with HD, indicating that PPAR-δ activation may be beneficial in HD and related disorders.

AB - Huntington's disease (HD) is a progressive neurodegenerative disorder caused by a CAG trinucleotide repeat expansion in the huntingtin (HTT) gene, which encodes a polyglutamine tract in the HTT protein. We found that peroxisome proliferator-activated receptor delta (PPAR-δ) interacts with HTT and that mutant HTT represses PPAR-δ-mediated transactivation. Increased PPAR-δ transactivation ameliorated mitochondrial dysfunction and improved cell survival of neurons from mouse models of HD. Expression of dominant-negative PPAR-δ in the central nervous system of mice was sufficient to induce motor dysfunction, neurodegeneration, mitochondrial abnormalities and transcriptional alterations that recapitulated HD-like phenotypes. Expression of dominant-negative PPAR-δ specifically in the striatum of medium spiny neurons in mice yielded HD-like motor phenotypes, accompanied by striatal neuron loss. In mouse models of HD, pharmacologic activation of PPAR-δ using the agonist KD3010 improved motor function, reduced neurodegeneration and increased survival. PPAR-δ activation also reduced HTT-induced neurotoxicity in vitro and in medium spiny-like neurons generated from stem cells derived from individuals with HD, indicating that PPAR-δ activation may be beneficial in HD and related disorders.

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PPAR-δ is repressed in Huntington's disease, is required for normal neuronal function and can be targeted therapeutically

Abstract

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