Cardiolipin Synthesis in Brown and Beige Fat Mitochondria Is Essential for Systemic Energy Homeostasis

Activation of energy expenditure in thermogenic fat is a promising strategy to improve metabolic health, yet the dynamic processes that evoke this response are poorly understood. Here we show that synthesis of the mitochondrial phospholipid cardiolipin is indispensable for stimulating and sustaining...

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Autores principales: Sustarsic, Elahu G., Ma, Tao, Lynes, Matthew D., Larsen, Michael, Karavaeva, Iuliia, Havelund, Jesper F., Nielsen, Carsten H., Jedrychowski, Mark P., Moreno-Torres, Marta, Lundh, Morten, Plucinska, Kaja, Jespersen, Naja Z., Grevengoed, Trisha J., Kramar, Barbara, Peics, Julia, Hansen, Jakob B., Shamsi, Farnaz, Forss, Isabel, Neess, Ditte, Keipert, Susanne, Wang, Jianing, Stohlmann, Katharina, Brandslund, Ivan, Christensen, Cramer, Jørgensen, Marit E., Linneberg, Allan, Pedersen, Oluf, Kiebish, Michael A., Qvortrup, Klaus, Han, Xianlin, Pedersen, Bente Klarlund, Jastroch, Martin, Mandrup, Susanne, Kjær, Andreas, Gygi, Steven P., Hansen, Torben, Gillum, Matthew P., Grarup, Niels, Emanuelli, Brice, Nielsen, Søren, Scheele, Camilla, Tseng, Yu-Hua, Færgeman, Nils J., Gerhart-Hines, Zachary
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Cell Press 2018
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6038052/
https://www.ncbi.nlm.nih.gov/pubmed/29861389
http://dx.doi.org/10.1016/j.cmet.2018.05.003
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author Sustarsic, Elahu G.
Ma, Tao
Lynes, Matthew D.
Larsen, Michael
Karavaeva, Iuliia
Havelund, Jesper F.
Nielsen, Carsten H.
Jedrychowski, Mark P.
Moreno-Torres, Marta
Lundh, Morten
Plucinska, Kaja
Jespersen, Naja Z.
Grevengoed, Trisha J.
Kramar, Barbara
Peics, Julia
Hansen, Jakob B.
Shamsi, Farnaz
Forss, Isabel
Neess, Ditte
Keipert, Susanne
Wang, Jianing
Stohlmann, Katharina
Brandslund, Ivan
Christensen, Cramer
Jørgensen, Marit E.
Linneberg, Allan
Pedersen, Oluf
Kiebish, Michael A.
Qvortrup, Klaus
Han, Xianlin
Pedersen, Bente Klarlund
Jastroch, Martin
Mandrup, Susanne
Kjær, Andreas
Gygi, Steven P.
Hansen, Torben
Gillum, Matthew P.
Grarup, Niels
Emanuelli, Brice
Nielsen, Søren
Scheele, Camilla
Tseng, Yu-Hua
Færgeman, Nils J.
Gerhart-Hines, Zachary
author_facet Sustarsic, Elahu G.
Ma, Tao
Lynes, Matthew D.
Larsen, Michael
Karavaeva, Iuliia
Havelund, Jesper F.
Nielsen, Carsten H.
Jedrychowski, Mark P.
Moreno-Torres, Marta
Lundh, Morten
Plucinska, Kaja
Jespersen, Naja Z.
Grevengoed, Trisha J.
Kramar, Barbara
Peics, Julia
Hansen, Jakob B.
Shamsi, Farnaz
Forss, Isabel
Neess, Ditte
Keipert, Susanne
Wang, Jianing
Stohlmann, Katharina
Brandslund, Ivan
Christensen, Cramer
Jørgensen, Marit E.
Linneberg, Allan
Pedersen, Oluf
Kiebish, Michael A.
Qvortrup, Klaus
Han, Xianlin
Pedersen, Bente Klarlund
Jastroch, Martin
Mandrup, Susanne
Kjær, Andreas
Gygi, Steven P.
Hansen, Torben
Gillum, Matthew P.
Grarup, Niels
Emanuelli, Brice
Nielsen, Søren
Scheele, Camilla
Tseng, Yu-Hua
Færgeman, Nils J.
Gerhart-Hines, Zachary
author_sort Sustarsic, Elahu G.
collection PubMed
description Activation of energy expenditure in thermogenic fat is a promising strategy to improve metabolic health, yet the dynamic processes that evoke this response are poorly understood. Here we show that synthesis of the mitochondrial phospholipid cardiolipin is indispensable for stimulating and sustaining thermogenic fat function. Cardiolipin biosynthesis is robustly induced in brown and beige adipose upon cold exposure. Mimicking this response through overexpression of cardiolipin synthase (Crls1) enhances energy consumption in mouse and human adipocytes. Crls1 deficiency in thermogenic adipocytes diminishes inducible mitochondrial uncoupling and elicits a nuclear transcriptional response through endoplasmic reticulum stress-mediated retrograde communication. Cardiolipin depletion in brown and beige fat abolishes adipose thermogenesis and glucose uptake, which renders animals insulin resistant. We further identify a rare human CRLS1 variant associated with insulin resistance and show that adipose CRLS1 levels positively correlate with insulin sensitivity. Thus, adipose cardiolipin has a powerful impact on organismal energy homeostasis through thermogenic fat bioenergetics.
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spelling pubmed-60380522018-07-12 Cardiolipin Synthesis in Brown and Beige Fat Mitochondria Is Essential for Systemic Energy Homeostasis Sustarsic, Elahu G. Ma, Tao Lynes, Matthew D. Larsen, Michael Karavaeva, Iuliia Havelund, Jesper F. Nielsen, Carsten H. Jedrychowski, Mark P. Moreno-Torres, Marta Lundh, Morten Plucinska, Kaja Jespersen, Naja Z. Grevengoed, Trisha J. Kramar, Barbara Peics, Julia Hansen, Jakob B. Shamsi, Farnaz Forss, Isabel Neess, Ditte Keipert, Susanne Wang, Jianing Stohlmann, Katharina Brandslund, Ivan Christensen, Cramer Jørgensen, Marit E. Linneberg, Allan Pedersen, Oluf Kiebish, Michael A. Qvortrup, Klaus Han, Xianlin Pedersen, Bente Klarlund Jastroch, Martin Mandrup, Susanne Kjær, Andreas Gygi, Steven P. Hansen, Torben Gillum, Matthew P. Grarup, Niels Emanuelli, Brice Nielsen, Søren Scheele, Camilla Tseng, Yu-Hua Færgeman, Nils J. Gerhart-Hines, Zachary Cell Metab Article Activation of energy expenditure in thermogenic fat is a promising strategy to improve metabolic health, yet the dynamic processes that evoke this response are poorly understood. Here we show that synthesis of the mitochondrial phospholipid cardiolipin is indispensable for stimulating and sustaining thermogenic fat function. Cardiolipin biosynthesis is robustly induced in brown and beige adipose upon cold exposure. Mimicking this response through overexpression of cardiolipin synthase (Crls1) enhances energy consumption in mouse and human adipocytes. Crls1 deficiency in thermogenic adipocytes diminishes inducible mitochondrial uncoupling and elicits a nuclear transcriptional response through endoplasmic reticulum stress-mediated retrograde communication. Cardiolipin depletion in brown and beige fat abolishes adipose thermogenesis and glucose uptake, which renders animals insulin resistant. We further identify a rare human CRLS1 variant associated with insulin resistance and show that adipose CRLS1 levels positively correlate with insulin sensitivity. Thus, adipose cardiolipin has a powerful impact on organismal energy homeostasis through thermogenic fat bioenergetics. Cell Press 2018-07-03 /pmc/articles/PMC6038052/ /pubmed/29861389 http://dx.doi.org/10.1016/j.cmet.2018.05.003 Text en © 2018 The Author(s) http://creativecommons.org/licenses/by/4.0/ This is an open access article under the CC BY license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Sustarsic, Elahu G.
Ma, Tao
Lynes, Matthew D.
Larsen, Michael
Karavaeva, Iuliia
Havelund, Jesper F.
Nielsen, Carsten H.
Jedrychowski, Mark P.
Moreno-Torres, Marta
Lundh, Morten
Plucinska, Kaja
Jespersen, Naja Z.
Grevengoed, Trisha J.
Kramar, Barbara
Peics, Julia
Hansen, Jakob B.
Shamsi, Farnaz
Forss, Isabel
Neess, Ditte
Keipert, Susanne
Wang, Jianing
Stohlmann, Katharina
Brandslund, Ivan
Christensen, Cramer
Jørgensen, Marit E.
Linneberg, Allan
Pedersen, Oluf
Kiebish, Michael A.
Qvortrup, Klaus
Han, Xianlin
Pedersen, Bente Klarlund
Jastroch, Martin
Mandrup, Susanne
Kjær, Andreas
Gygi, Steven P.
Hansen, Torben
Gillum, Matthew P.
Grarup, Niels
Emanuelli, Brice
Nielsen, Søren
Scheele, Camilla
Tseng, Yu-Hua
Færgeman, Nils J.
Gerhart-Hines, Zachary
Cardiolipin Synthesis in Brown and Beige Fat Mitochondria Is Essential for Systemic Energy Homeostasis
title Cardiolipin Synthesis in Brown and Beige Fat Mitochondria Is Essential for Systemic Energy Homeostasis
title_full Cardiolipin Synthesis in Brown and Beige Fat Mitochondria Is Essential for Systemic Energy Homeostasis
title_fullStr Cardiolipin Synthesis in Brown and Beige Fat Mitochondria Is Essential for Systemic Energy Homeostasis
title_full_unstemmed Cardiolipin Synthesis in Brown and Beige Fat Mitochondria Is Essential for Systemic Energy Homeostasis
title_short Cardiolipin Synthesis in Brown and Beige Fat Mitochondria Is Essential for Systemic Energy Homeostasis
title_sort cardiolipin synthesis in brown and beige fat mitochondria is essential for systemic energy homeostasis
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6038052/
https://www.ncbi.nlm.nih.gov/pubmed/29861389
http://dx.doi.org/10.1016/j.cmet.2018.05.003
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