P62 Links β-adrenergic input to mitochondrial function and thermogenesis

Timo D. Müller; Sang Jun Lee; Martin Jastroch; Dhiraj Kabra; Kerstin Stemmer; Michaela Aichler; Bill Abplanalp; Gayathri Ananthakrishnan; Nakul Bhardwaj; Sheila Collins; Senad Divanovic; Max Endele; Brian Finan; Yuanqing Gao; Kirk M. Habegger; Jazzmin Hembree; Kristy M. Heppner; Susanna Hofmann; Jenna Holland; Daniela Küchler; Maria Kutschke; Radha Krishna; Maarit Lehti; Rebecca Oelkrug; Nickki Ottaway; Diego Perez-Tilve; Christine Raver; Axel K. Walch; Sonja C. Schriever; John Speakman; Yu Hua Tseng; Maria Diaz-Meco; Paul T. Pfluger; Jorge Moscat; Matthias H. Tschöp

doi:10.1172/JCI64209

P62 Links β-adrenergic input to mitochondrial function and thermogenesis

Timo D. Müller, Sang Jun Lee, Martin Jastroch, Dhiraj Kabra, Kerstin Stemmer, Michaela Aichler, Bill Abplanalp, Gayathri Ananthakrishnan, Nakul Bhardwaj, Sheila Collins, Senad Divanovic, Max Endele, Brian Finan, Yuanqing Gao, Kirk M. Habegger, Jazzmin Hembree, Kristy M. Heppner, Susanna Hofmann, Jenna Holland, Daniela KüchlerMaria Kutschke, Radha Krishna, Maarit Lehti, Rebecca Oelkrug, Nickki Ottaway, Diego Perez-Tilve, Christine Raver, Axel K. Walch, Sonja C. Schriever, John Speakman, Yu Hua Tseng, Maria Diaz-Meco, Paul T. Pfluger, Jorge Moscat, Matthias H. Tschöp

Medizinische Klinik I

Abstract

The scaffold protein p62 (sequestosome 1; SQSTM1) is an emerging key molecular link among the metabolic, immune, and proliferative processes of the cell. Here, we report that adipocyte-specific, but not CNS-, liver-, muscle-, or myeloid-specific p62-deficient mice are obese and exhibit a decreased metabolic rate caused by impaired nonshivering thermogenesis. Our results show that p62 regulates energy metabolism via control of mitochondrial function in brown adipose tissue (BAT). Accordingly, adipocyte-specific p62 deficiency led to impaired mitochondrial function, causing BAT to become unresponsive to β-adrenergic stimuli. Ablation of p62 leads to decreased activation of p38 targets, affecting signaling molecules that control mitochondrial function, such as ATF2, CREB, PGC1α, DIO2, NRF1, CYTC, COX2, ATP5β, and UCP1. p62 ablation in HIB1B and BAT primary cells demonstrated that p62 controls thermogenesis in a cell-autonomous manner, independently of brown adipocyte development or differentiation. Together, our data identify p62 as a novel regulator of mitochondrial function and brown fat thermogenesis.

Originalsprache	Englisch
Zeitschrift	Journal of Clinical Investigation
Jahrgang	123
Ausgabenummer	1
Seiten (von - bis)	469-478
Seitenumfang	10
ISSN	0021-9738
DOIs	https://doi.org/10.1172/JCI64209
Publikationsstatus	Veröffentlicht - 02.01.2013

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10.1172/JCI64209

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Müller, T. D., Lee, S. J., Jastroch, M., Kabra, D., Stemmer, K., Aichler, M., Abplanalp, B., Ananthakrishnan, G., Bhardwaj, N., Collins, S., Divanovic, S., Endele, M., Finan, B., Gao, Y., Habegger, K. M., Hembree, J., Heppner, K. M., Hofmann, S., Holland, J., ... Tschöp, M. H. (2013). P62 Links β-adrenergic input to mitochondrial function and thermogenesis. Journal of Clinical Investigation, 123(1), 469-478. https://doi.org/10.1172/JCI64209

@article{0a329a33c9ac48308aabd03354476af3,

title = "P62 Links β-adrenergic input to mitochondrial function and thermogenesis",

abstract = "The scaffold protein p62 (sequestosome 1; SQSTM1) is an emerging key molecular link among the metabolic, immune, and proliferative processes of the cell. Here, we report that adipocyte-specific, but not CNS-, liver-, muscle-, or myeloid-specific p62-deficient mice are obese and exhibit a decreased metabolic rate caused by impaired nonshivering thermogenesis. Our results show that p62 regulates energy metabolism via control of mitochondrial function in brown adipose tissue (BAT). Accordingly, adipocyte-specific p62 deficiency led to impaired mitochondrial function, causing BAT to become unresponsive to β-adrenergic stimuli. Ablation of p62 leads to decreased activation of p38 targets, affecting signaling molecules that control mitochondrial function, such as ATF2, CREB, PGC1α, DIO2, NRF1, CYTC, COX2, ATP5β, and UCP1. p62 ablation in HIB1B and BAT primary cells demonstrated that p62 controls thermogenesis in a cell-autonomous manner, independently of brown adipocyte development or differentiation. Together, our data identify p62 as a novel regulator of mitochondrial function and brown fat thermogenesis.",

author = "M{\"u}ller, {Timo D.} and Lee, {Sang Jun} and Martin Jastroch and Dhiraj Kabra and Kerstin Stemmer and Michaela Aichler and Bill Abplanalp and Gayathri Ananthakrishnan and Nakul Bhardwaj and Sheila Collins and Senad Divanovic and Max Endele and Brian Finan and Yuanqing Gao and Habegger, {Kirk M.} and Jazzmin Hembree and Heppner, {Kristy M.} and Susanna Hofmann and Jenna Holland and Daniela K{\"u}chler and Maria Kutschke and Radha Krishna and Maarit Lehti and Rebecca Oelkrug and Nickki Ottaway and Diego Perez-Tilve and Christine Raver and Walch, {Axel K.} and Schriever, {Sonja C.} and John Speakman and Tseng, {Yu Hua} and Maria Diaz-Meco and Pfluger, {Paul T.} and Jorge Moscat and Tsch{\"o}p, {Matthias H.}",

year = "2013",

month = jan,

day = "2",

doi = "10.1172/JCI64209",

language = "English",

volume = "123",

pages = "469--478",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

number = "1",

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Müller, TD, Lee, SJ, Jastroch, M, Kabra, D, Stemmer, K, Aichler, M, Abplanalp, B, Ananthakrishnan, G, Bhardwaj, N, Collins, S, Divanovic, S, Endele, M, Finan, B, Gao, Y, Habegger, KM, Hembree, J, Heppner, KM, Hofmann, S, Holland, J, Küchler, D, Kutschke, M, Krishna, R, Lehti, M, Oelkrug, R, Ottaway, N, Perez-Tilve, D, Raver, C, Walch, AK, Schriever, SC, Speakman, J, Tseng, YH, Diaz-Meco, M, Pfluger, PT, Moscat, J & Tschöp, MH 2013, 'P62 Links β-adrenergic input to mitochondrial function and thermogenesis', Journal of Clinical Investigation, Jg. 123, Nr. 1, S. 469-478. https://doi.org/10.1172/JCI64209

TY - JOUR

T1 - P62 Links β-adrenergic input to mitochondrial function and thermogenesis

AU - Müller, Timo D.

AU - Lee, Sang Jun

AU - Jastroch, Martin

AU - Kabra, Dhiraj

AU - Stemmer, Kerstin

AU - Aichler, Michaela

AU - Abplanalp, Bill

AU - Ananthakrishnan, Gayathri

AU - Bhardwaj, Nakul

AU - Collins, Sheila

AU - Divanovic, Senad

AU - Endele, Max

AU - Finan, Brian

AU - Gao, Yuanqing

AU - Habegger, Kirk M.

AU - Hembree, Jazzmin

AU - Heppner, Kristy M.

AU - Hofmann, Susanna

AU - Holland, Jenna

AU - Küchler, Daniela

AU - Kutschke, Maria

AU - Krishna, Radha

AU - Lehti, Maarit

AU - Oelkrug, Rebecca

AU - Ottaway, Nickki

AU - Perez-Tilve, Diego

AU - Raver, Christine

AU - Walch, Axel K.

AU - Schriever, Sonja C.

AU - Speakman, John

AU - Tseng, Yu Hua

AU - Diaz-Meco, Maria

AU - Pfluger, Paul T.

AU - Moscat, Jorge

AU - Tschöp, Matthias H.

PY - 2013/1/2

Y1 - 2013/1/2

N2 - The scaffold protein p62 (sequestosome 1; SQSTM1) is an emerging key molecular link among the metabolic, immune, and proliferative processes of the cell. Here, we report that adipocyte-specific, but not CNS-, liver-, muscle-, or myeloid-specific p62-deficient mice are obese and exhibit a decreased metabolic rate caused by impaired nonshivering thermogenesis. Our results show that p62 regulates energy metabolism via control of mitochondrial function in brown adipose tissue (BAT). Accordingly, adipocyte-specific p62 deficiency led to impaired mitochondrial function, causing BAT to become unresponsive to β-adrenergic stimuli. Ablation of p62 leads to decreased activation of p38 targets, affecting signaling molecules that control mitochondrial function, such as ATF2, CREB, PGC1α, DIO2, NRF1, CYTC, COX2, ATP5β, and UCP1. p62 ablation in HIB1B and BAT primary cells demonstrated that p62 controls thermogenesis in a cell-autonomous manner, independently of brown adipocyte development or differentiation. Together, our data identify p62 as a novel regulator of mitochondrial function and brown fat thermogenesis.

AB - The scaffold protein p62 (sequestosome 1; SQSTM1) is an emerging key molecular link among the metabolic, immune, and proliferative processes of the cell. Here, we report that adipocyte-specific, but not CNS-, liver-, muscle-, or myeloid-specific p62-deficient mice are obese and exhibit a decreased metabolic rate caused by impaired nonshivering thermogenesis. Our results show that p62 regulates energy metabolism via control of mitochondrial function in brown adipose tissue (BAT). Accordingly, adipocyte-specific p62 deficiency led to impaired mitochondrial function, causing BAT to become unresponsive to β-adrenergic stimuli. Ablation of p62 leads to decreased activation of p38 targets, affecting signaling molecules that control mitochondrial function, such as ATF2, CREB, PGC1α, DIO2, NRF1, CYTC, COX2, ATP5β, and UCP1. p62 ablation in HIB1B and BAT primary cells demonstrated that p62 controls thermogenesis in a cell-autonomous manner, independently of brown adipocyte development or differentiation. Together, our data identify p62 as a novel regulator of mitochondrial function and brown fat thermogenesis.

UR - http://www.mendeley.com/research/p62-links-%CE%B2adrenergic-input-mitochondrial-function-thermogenesis

U2 - 10.1172/JCI64209

DO - 10.1172/JCI64209

M3 - Journal articles

SN - 0021-9738

VL - 123

SP - 469

EP - 478

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 1

ER -

P62 Links β-adrenergic input to mitochondrial function and thermogenesis

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