The Protein Level of PGC-1α, a Key Metabolic Regulator, Is Controlled by NADH-NQO1

Yaarit Adamovich; Amir Shlomai; Peter Tsvetkov; Kfir B. Umansky; Nina Reuven; Jennifer L. Estall; Bruce M. Spiegelman; Yosef Shaul

doi:10.1128/MCB.01672-12

The Protein Level of PGC-1α, a Key Metabolic Regulator, Is Controlled by NADH-NQO1

Yaarit Adamovich
, Amir Shlomai
, Peter Tsvetkov
, Kfir B. Umansky
, Nina Reuven
, Jennifer L. Estall
, Bruce M. Spiegelman
, Yosef Shaul^*

^*Corresponding author for this work

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

86 Scopus citations

Abstract

PGC-1α is a key transcription coactivator regulating energy metabolism in a tissue-specific manner. PGC-1α expression is tightly regulated, it is a highly labile protein, and it interacts with various proteins-the known attributes of intrinsically disordered proteins (IDPs). In this study, we characterize PGC-1α as an IDP and demonstrate that it is susceptible to 20S proteasomal degradation by default. We further demonstrate that PGC-1α degradation is inhibited by NQO1, a 20S gatekeeper protein. NQO1 binds and protects PGC-1α from degradation in an NADH-dependent manner. Using different cellular physiological settings, we also demonstrate that NQO1-mediated PGC-1α protection plays an important role in controlling both basal and physiologically induced PGC-1α protein level and activity. Our findings link NQO1, a cellular redox sensor, to the metabolite-sensing network that tunes PGC-1α expression and activity in regulating energy metabolism.

Original language	English
Pages (from-to)	2603-2613
Number of pages	11
Journal	Molecular and Cellular Biology
Volume	33
Issue number	13
DOIs	https://doi.org/10.1128/MCB.01672-12
State	Published - Jul 2013
Externally published	Yes

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title = "The Protein Level of PGC-1α, a Key Metabolic Regulator, Is Controlled by NADH-NQO1",

abstract = "PGC-1α is a key transcription coactivator regulating energy metabolism in a tissue-specific manner. PGC-1α expression is tightly regulated, it is a highly labile protein, and it interacts with various proteins-the known attributes of intrinsically disordered proteins (IDPs). In this study, we characterize PGC-1α as an IDP and demonstrate that it is susceptible to 20S proteasomal degradation by default. We further demonstrate that PGC-1α degradation is inhibited by NQO1, a 20S gatekeeper protein. NQO1 binds and protects PGC-1α from degradation in an NADH-dependent manner. Using different cellular physiological settings, we also demonstrate that NQO1-mediated PGC-1α protection plays an important role in controlling both basal and physiologically induced PGC-1α protein level and activity. Our findings link NQO1, a cellular redox sensor, to the metabolite-sensing network that tunes PGC-1α expression and activity in regulating energy metabolism.",

author = "Yaarit Adamovich and Amir Shlomai and Peter Tsvetkov and Umansky, \{Kfir B.\} and Nina Reuven and Estall, \{Jennifer L.\} and Spiegelman, \{Bruce M.\} and Yosef Shaul",

year = "2013",

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doi = "10.1128/MCB.01672-12",

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AU - Adamovich, Yaarit

AU - Shlomai, Amir

AU - Tsvetkov, Peter

AU - Umansky, Kfir B.

AU - Reuven, Nina

AU - Estall, Jennifer L.

AU - Spiegelman, Bruce M.

AU - Shaul, Yosef

PY - 2013/7

Y1 - 2013/7

N2 - PGC-1α is a key transcription coactivator regulating energy metabolism in a tissue-specific manner. PGC-1α expression is tightly regulated, it is a highly labile protein, and it interacts with various proteins-the known attributes of intrinsically disordered proteins (IDPs). In this study, we characterize PGC-1α as an IDP and demonstrate that it is susceptible to 20S proteasomal degradation by default. We further demonstrate that PGC-1α degradation is inhibited by NQO1, a 20S gatekeeper protein. NQO1 binds and protects PGC-1α from degradation in an NADH-dependent manner. Using different cellular physiological settings, we also demonstrate that NQO1-mediated PGC-1α protection plays an important role in controlling both basal and physiologically induced PGC-1α protein level and activity. Our findings link NQO1, a cellular redox sensor, to the metabolite-sensing network that tunes PGC-1α expression and activity in regulating energy metabolism.

AB - PGC-1α is a key transcription coactivator regulating energy metabolism in a tissue-specific manner. PGC-1α expression is tightly regulated, it is a highly labile protein, and it interacts with various proteins-the known attributes of intrinsically disordered proteins (IDPs). In this study, we characterize PGC-1α as an IDP and demonstrate that it is susceptible to 20S proteasomal degradation by default. We further demonstrate that PGC-1α degradation is inhibited by NQO1, a 20S gatekeeper protein. NQO1 binds and protects PGC-1α from degradation in an NADH-dependent manner. Using different cellular physiological settings, we also demonstrate that NQO1-mediated PGC-1α protection plays an important role in controlling both basal and physiologically induced PGC-1α protein level and activity. Our findings link NQO1, a cellular redox sensor, to the metabolite-sensing network that tunes PGC-1α expression and activity in regulating energy metabolism.

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JO - Molecular and Cellular Biology

JF - Molecular and Cellular Biology

IS - 13

ER -

The Protein Level of PGC-1α, a Key Metabolic Regulator, Is Controlled by NADH-NQO1

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