Cysteine 253 of UCP1 regulates energy expenditure and sex-dependent adipose tissue inflammation

Evanna L. Mills; Cathal Harmon; Mark P. Jedrychowski; Haopeng Xiao; Anja V. Gruszczyk; Gary A. Bradshaw; Nhien Tran; Ryan Garrity; Dina Laznik-Bogoslavski; John Szpyt; Hannah Prendeville; Lydia Lynch; Michael P. Murphy; Steven P. Gygi; Bruce M. Spiegelman; Edward T. Chouchani

doi:10.1016/j.cmet.2021.11.003

Cysteine 253 of UCP1 regulates energy expenditure and sex-dependent adipose tissue inflammation

Evanna L. Mills, Cathal Harmon, Mark P. Jedrychowski, Haopeng Xiao, Anja V. Gruszczyk, Gary A. Bradshaw, Nhien Tran, Ryan Garrity, Dina Laznik-Bogoslavski, John Szpyt, Hannah Prendeville, Lydia Lynch, Michael P. Murphy, Steven P. Gygi, Bruce M. Spiegelman, Edward T. Chouchani

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

42 Citations (Scopus)

Abstract

Uncoupling protein 1 (UCP1) is a major regulator of brown and beige adipocyte energy expenditure and metabolic homeostasis. However, the widely employed UCP1 loss-of-function model has recently been shown to have a severe deficiency in the entire electron transport chain of thermogenic fat. As such, the role of UCP1 in metabolic regulation in vivo remains unclear. We recently identified cysteine-253 as a regulatory site on UCP1 that elevates protein activity upon covalent modification. Here, we examine the physiological importance of this site through the generation of a UCP1 cysteine-253-null (UCP1 C253A) mouse, a precise genetic model for selective disruption of UCP1 in vivo. UCP1 C253A mice exhibit significantly compromised thermogenic responses in both males and females but display no measurable effect on fat accumulation in an obesogenic environment. Unexpectedly, we find that a lack of C253 results in adipose tissue redox stress, which drives substantial immune cell infiltration and systemic inflammatory pathology in adipose tissues and liver of male, but not female, mice. Elevation of systemic estrogen reverses this male-specific pathology, providing a basis for protection from inflammation due to loss of UCP1 C253 in females. Together, our results establish the UCP1 C253 activation site as a regulator of acute thermogenesis and sex-dependent tissue inflammation.

Original language	English
Pages (from-to)	140-157.e8
Journal	Cell Metabolism
Volume	34
Issue number	1
DOIs	https://doi.org/10.1016/j.cmet.2021.11.003
Publication status	Published - 4 Jan 2022
Externally published	Yes

Keywords

UCP1
cysteine
inflammation
metabolism
reactive oxygen species
sex differences

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10.1016/j.cmet.2021.11.003

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Mills, E. L., Harmon, C., Jedrychowski, M. P., Xiao, H., Gruszczyk, A. V., Bradshaw, G. A., Tran, N., Garrity, R., Laznik-Bogoslavski, D., Szpyt, J., Prendeville, H., Lynch, L., Murphy, M. P., Gygi, S. P., Spiegelman, B. M., & Chouchani, E. T. (2022). Cysteine 253 of UCP1 regulates energy expenditure and sex-dependent adipose tissue inflammation. Cell Metabolism, 34(1), 140-157.e8. https://doi.org/10.1016/j.cmet.2021.11.003

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title = "Cysteine 253 of UCP1 regulates energy expenditure and sex-dependent adipose tissue inflammation",

abstract = "Uncoupling protein 1 (UCP1) is a major regulator of brown and beige adipocyte energy expenditure and metabolic homeostasis. However, the widely employed UCP1 loss-of-function model has recently been shown to have a severe deficiency in the entire electron transport chain of thermogenic fat. As such, the role of UCP1 in metabolic regulation in vivo remains unclear. We recently identified cysteine-253 as a regulatory site on UCP1 that elevates protein activity upon covalent modification. Here, we examine the physiological importance of this site through the generation of a UCP1 cysteine-253-null (UCP1 C253A) mouse, a precise genetic model for selective disruption of UCP1 in vivo. UCP1 C253A mice exhibit significantly compromised thermogenic responses in both males and females but display no measurable effect on fat accumulation in an obesogenic environment. Unexpectedly, we find that a lack of C253 results in adipose tissue redox stress, which drives substantial immune cell infiltration and systemic inflammatory pathology in adipose tissues and liver of male, but not female, mice. Elevation of systemic estrogen reverses this male-specific pathology, providing a basis for protection from inflammation due to loss of UCP1 C253 in females. Together, our results establish the UCP1 C253 activation site as a regulator of acute thermogenesis and sex-dependent tissue inflammation.",

keywords = "UCP1, cysteine, inflammation, metabolism, reactive oxygen species, sex differences",

author = "Mills, {Evanna L.} and Cathal Harmon and Jedrychowski, {Mark P.} and Haopeng Xiao and Gruszczyk, {Anja V.} and Bradshaw, {Gary A.} and Nhien Tran and Ryan Garrity and Dina Laznik-Bogoslavski and John Szpyt and Hannah Prendeville and Lydia Lynch and Murphy, {Michael P.} and Gygi, {Steven P.} and Spiegelman, {Bruce M.} and Chouchani, {Edward T.}",

note = "Publisher Copyright: {\textcopyright} 2021 Elsevier Inc.",

year = "2022",

month = jan,

day = "4",

doi = "10.1016/j.cmet.2021.11.003",

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Mills, EL, Harmon, C, Jedrychowski, MP, Xiao, H, Gruszczyk, AV, Bradshaw, GA, Tran, N, Garrity, R, Laznik-Bogoslavski, D, Szpyt, J, Prendeville, H, Lynch, L, Murphy, MP, Gygi, SP, Spiegelman, BM & Chouchani, ET 2022, 'Cysteine 253 of UCP1 regulates energy expenditure and sex-dependent adipose tissue inflammation', Cell Metabolism, vol. 34, no. 1, pp. 140-157.e8. https://doi.org/10.1016/j.cmet.2021.11.003

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T1 - Cysteine 253 of UCP1 regulates energy expenditure and sex-dependent adipose tissue inflammation

AU - Mills, Evanna L.

AU - Harmon, Cathal

AU - Jedrychowski, Mark P.

AU - Xiao, Haopeng

AU - Gruszczyk, Anja V.

AU - Bradshaw, Gary A.

AU - Tran, Nhien

AU - Garrity, Ryan

AU - Laznik-Bogoslavski, Dina

AU - Szpyt, John

AU - Prendeville, Hannah

AU - Lynch, Lydia

AU - Murphy, Michael P.

AU - Gygi, Steven P.

AU - Spiegelman, Bruce M.

AU - Chouchani, Edward T.

PY - 2022/1/4

Y1 - 2022/1/4

N2 - Uncoupling protein 1 (UCP1) is a major regulator of brown and beige adipocyte energy expenditure and metabolic homeostasis. However, the widely employed UCP1 loss-of-function model has recently been shown to have a severe deficiency in the entire electron transport chain of thermogenic fat. As such, the role of UCP1 in metabolic regulation in vivo remains unclear. We recently identified cysteine-253 as a regulatory site on UCP1 that elevates protein activity upon covalent modification. Here, we examine the physiological importance of this site through the generation of a UCP1 cysteine-253-null (UCP1 C253A) mouse, a precise genetic model for selective disruption of UCP1 in vivo. UCP1 C253A mice exhibit significantly compromised thermogenic responses in both males and females but display no measurable effect on fat accumulation in an obesogenic environment. Unexpectedly, we find that a lack of C253 results in adipose tissue redox stress, which drives substantial immune cell infiltration and systemic inflammatory pathology in adipose tissues and liver of male, but not female, mice. Elevation of systemic estrogen reverses this male-specific pathology, providing a basis for protection from inflammation due to loss of UCP1 C253 in females. Together, our results establish the UCP1 C253 activation site as a regulator of acute thermogenesis and sex-dependent tissue inflammation.

AB - Uncoupling protein 1 (UCP1) is a major regulator of brown and beige adipocyte energy expenditure and metabolic homeostasis. However, the widely employed UCP1 loss-of-function model has recently been shown to have a severe deficiency in the entire electron transport chain of thermogenic fat. As such, the role of UCP1 in metabolic regulation in vivo remains unclear. We recently identified cysteine-253 as a regulatory site on UCP1 that elevates protein activity upon covalent modification. Here, we examine the physiological importance of this site through the generation of a UCP1 cysteine-253-null (UCP1 C253A) mouse, a precise genetic model for selective disruption of UCP1 in vivo. UCP1 C253A mice exhibit significantly compromised thermogenic responses in both males and females but display no measurable effect on fat accumulation in an obesogenic environment. Unexpectedly, we find that a lack of C253 results in adipose tissue redox stress, which drives substantial immune cell infiltration and systemic inflammatory pathology in adipose tissues and liver of male, but not female, mice. Elevation of systemic estrogen reverses this male-specific pathology, providing a basis for protection from inflammation due to loss of UCP1 C253 in females. Together, our results establish the UCP1 C253 activation site as a regulator of acute thermogenesis and sex-dependent tissue inflammation.

KW - UCP1

KW - cysteine

KW - inflammation

KW - metabolism

KW - reactive oxygen species

KW - sex differences

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U2 - 10.1016/j.cmet.2021.11.003

DO - 10.1016/j.cmet.2021.11.003

M3 - Article

SN - 1550-4131

VL - 34

SP - 140-157.e8

JO - Cell Metabolism

JF - Cell Metabolism

IS - 1

ER -

Cysteine 253 of UCP1 regulates energy expenditure and sex-dependent adipose tissue inflammation

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Keywords

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