Hexokinases link DJ-1 to the PINK1/parkin pathway

David N. Hauser; Adamantios Mamais; Melissa M. Conti; Christopher T. Primiani; Ravindran Kumaran; Allissa A. Dillman; Rebekah G. Langston; Alexandra Beilina; Joseph H. Garcia; Alberto Diaz-Ruiz; Michel Bernier; Fabienne C. Fiesel; Xu Hou; Wolfdieter Springer; Yan Li; Rafael De Cabo; Mark R. Cookson

doi:10.1186/s13024-017-0212-x

Hexokinases link DJ-1 to the PINK1/parkin pathway

David N. Hauser, Adamantios Mamais, Melissa M. Conti, Christopher T. Primiani, Ravindran Kumaran, Allissa A. Dillman, Rebekah G. Langston, Alexandra Beilina, Joseph H. Garcia, Alberto Diaz-Ruiz, Michel Bernier, Fabienne C. Fiesel, Xu Hou, Wolfdieter Springer, Yan Li, Rafael De Cabo, Mark R. Cookson

Neuroscience

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

23 Scopus citations

Abstract

Background: Early onset Parkinson's disease is caused by variants in PINK1, parkin, and DJ-1. PINK1 and parkin operate in pathways that preserve mitochondrial integrity, but the function of DJ-1 and how it relates to PINK1 and parkin is poorly understood. Methods: A series of unbiased high-content screens were used to analyze changes at the protein, RNA, and metabolite level in rodent brains lacking DJ-1. Results were validated using targeted approaches, and cellular assays were performed to probe the mechanisms involved. Results: We find that in both rat and mouse brains, DJ-1 knockout results in an age-dependent accumulation of hexokinase 1 in the cytosol, away from its usual location at the mitochondria, with subsequent activation of the polyol pathway of glucose metabolism in vivo. Both in the brain and in cultured cells, DJ-1 deficiency is associated with accumulation of the phosphatase PTEN that antagonizes the kinase AKT. In cells, addition of an inhibitor of AKT (MK2206) or addition of a peptide to dissociate association of hexokinases from mitochondria both inhibit the PINK1/parkin pathway, which works to maintain mitochondrial integrity. Conclusion: Hexokinases are an important link between three major genetic causes of early onset Parkinson's disease. Because aging is associated with deregulated nutrient sensing, these results help explain why DJ-1 is associated with age-dependent disease.

Original language	English (US)
Article number	212
Journal	Molecular neurodegeneration
Volume	12
Issue number	1
DOIs	https://doi.org/10.1186/s13024-017-0212-x
State	Published - Sep 29 2017

Keywords

AKT
DJ-1
Hexokinase
Metabolomics
Mitophagy
PINK1
Parkin
Parkinson's disease
Proteomics
RNA-Seq
Systems biology

ASJC Scopus subject areas

Molecular Biology
Clinical Neurology
Cellular and Molecular Neuroscience

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Hauser, D. N., Mamais, A., Conti, M. M., Primiani, C. T., Kumaran, R., Dillman, A. A., Langston, R. G., Beilina, A., Garcia, J. H., Diaz-Ruiz, A., Bernier, M., Fiesel, F. C., Hou, X., Springer, W., Li, Y., De Cabo, R., & Cookson, M. R. (2017). Hexokinases link DJ-1 to the PINK1/parkin pathway. Molecular neurodegeneration, 12(1), Article 212. https://doi.org/10.1186/s13024-017-0212-x

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title = "Hexokinases link DJ-1 to the PINK1/parkin pathway",

abstract = "Background: Early onset Parkinson's disease is caused by variants in PINK1, parkin, and DJ-1. PINK1 and parkin operate in pathways that preserve mitochondrial integrity, but the function of DJ-1 and how it relates to PINK1 and parkin is poorly understood. Methods: A series of unbiased high-content screens were used to analyze changes at the protein, RNA, and metabolite level in rodent brains lacking DJ-1. Results were validated using targeted approaches, and cellular assays were performed to probe the mechanisms involved. Results: We find that in both rat and mouse brains, DJ-1 knockout results in an age-dependent accumulation of hexokinase 1 in the cytosol, away from its usual location at the mitochondria, with subsequent activation of the polyol pathway of glucose metabolism in vivo. Both in the brain and in cultured cells, DJ-1 deficiency is associated with accumulation of the phosphatase PTEN that antagonizes the kinase AKT. In cells, addition of an inhibitor of AKT (MK2206) or addition of a peptide to dissociate association of hexokinases from mitochondria both inhibit the PINK1/parkin pathway, which works to maintain mitochondrial integrity. Conclusion: Hexokinases are an important link between three major genetic causes of early onset Parkinson's disease. Because aging is associated with deregulated nutrient sensing, these results help explain why DJ-1 is associated with age-dependent disease.",

keywords = "AKT, DJ-1, Hexokinase, Metabolomics, Mitophagy, PINK1, Parkin, Parkinson's disease, Proteomics, RNA-Seq, Systems biology",

author = "Hauser, {David N.} and Adamantios Mamais and Conti, {Melissa M.} and Primiani, {Christopher T.} and Ravindran Kumaran and Dillman, {Allissa A.} and Langston, {Rebekah G.} and Alexandra Beilina and Garcia, {Joseph H.} and Alberto Diaz-Ruiz and Michel Bernier and Fiesel, {Fabienne C.} and Xu Hou and Wolfdieter Springer and Yan Li and {De Cabo}, Rafael and Cookson, {Mark R.}",

note = "Publisher Copyright: {\textcopyright} 2017 The Author(s).",

year = "2017",

month = sep,

day = "29",

doi = "10.1186/s13024-017-0212-x",

language = "English (US)",

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T1 - Hexokinases link DJ-1 to the PINK1/parkin pathway

AU - Hauser, David N.

AU - Mamais, Adamantios

AU - Conti, Melissa M.

AU - Primiani, Christopher T.

AU - Kumaran, Ravindran

AU - Dillman, Allissa A.

AU - Langston, Rebekah G.

AU - Beilina, Alexandra

AU - Garcia, Joseph H.

AU - Diaz-Ruiz, Alberto

AU - Bernier, Michel

AU - Fiesel, Fabienne C.

AU - Hou, Xu

AU - Springer, Wolfdieter

AU - Li, Yan

AU - De Cabo, Rafael

AU - Cookson, Mark R.

PY - 2017/9/29

Y1 - 2017/9/29

N2 - Background: Early onset Parkinson's disease is caused by variants in PINK1, parkin, and DJ-1. PINK1 and parkin operate in pathways that preserve mitochondrial integrity, but the function of DJ-1 and how it relates to PINK1 and parkin is poorly understood. Methods: A series of unbiased high-content screens were used to analyze changes at the protein, RNA, and metabolite level in rodent brains lacking DJ-1. Results were validated using targeted approaches, and cellular assays were performed to probe the mechanisms involved. Results: We find that in both rat and mouse brains, DJ-1 knockout results in an age-dependent accumulation of hexokinase 1 in the cytosol, away from its usual location at the mitochondria, with subsequent activation of the polyol pathway of glucose metabolism in vivo. Both in the brain and in cultured cells, DJ-1 deficiency is associated with accumulation of the phosphatase PTEN that antagonizes the kinase AKT. In cells, addition of an inhibitor of AKT (MK2206) or addition of a peptide to dissociate association of hexokinases from mitochondria both inhibit the PINK1/parkin pathway, which works to maintain mitochondrial integrity. Conclusion: Hexokinases are an important link between three major genetic causes of early onset Parkinson's disease. Because aging is associated with deregulated nutrient sensing, these results help explain why DJ-1 is associated with age-dependent disease.

AB - Background: Early onset Parkinson's disease is caused by variants in PINK1, parkin, and DJ-1. PINK1 and parkin operate in pathways that preserve mitochondrial integrity, but the function of DJ-1 and how it relates to PINK1 and parkin is poorly understood. Methods: A series of unbiased high-content screens were used to analyze changes at the protein, RNA, and metabolite level in rodent brains lacking DJ-1. Results were validated using targeted approaches, and cellular assays were performed to probe the mechanisms involved. Results: We find that in both rat and mouse brains, DJ-1 knockout results in an age-dependent accumulation of hexokinase 1 in the cytosol, away from its usual location at the mitochondria, with subsequent activation of the polyol pathway of glucose metabolism in vivo. Both in the brain and in cultured cells, DJ-1 deficiency is associated with accumulation of the phosphatase PTEN that antagonizes the kinase AKT. In cells, addition of an inhibitor of AKT (MK2206) or addition of a peptide to dissociate association of hexokinases from mitochondria both inhibit the PINK1/parkin pathway, which works to maintain mitochondrial integrity. Conclusion: Hexokinases are an important link between three major genetic causes of early onset Parkinson's disease. Because aging is associated with deregulated nutrient sensing, these results help explain why DJ-1 is associated with age-dependent disease.

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KW - DJ-1

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KW - Mitophagy

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KW - Parkinson's disease

KW - Proteomics

KW - RNA-Seq

KW - Systems biology

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DO - 10.1186/s13024-017-0212-x

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C2 - 28962651

AN - SCOPUS:85030183832

SN - 1750-1326

VL - 12

JO - Molecular neurodegeneration

JF - Molecular neurodegeneration

IS - 1

M1 - 212

ER -

Hexokinases link DJ-1 to the PINK1/parkin pathway

Abstract

Keywords

ASJC Scopus subject areas

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