MicroRNA-26 family is required for human adipogenesis and drives brown adipocytes characteristics

Michael Karbiener; Didier Pisani; Andrea Frontini; Lisa Maria Oberreiter; Eleonore Lang; Alexandros Vegiopoulos; Karin Mössenböck; Gerwin Bernhardt; Torsten Mayr; Florian Hildner; Johannes Grillari; Gerard Ailhaud; Stephan Herzig; Saverio Cinti; Ez-Zoubir Amri; Marcel Scheideler

doi:10.1002/stem.1603

MicroRNA-26 family is required for human adipogenesis and drives brown adipocytes characteristics

Michael Karbiener^*, Didier Pisani, Andrea Frontini, Lisa Maria Oberreiter, Eleonore Lang, Alexandros Vegiopoulos, Karin Mössenböck, Gerwin Bernhardt, Torsten Mayr, Florian Hildner, Johannes Grillari, Gerard Ailhaud, Stephan Herzig, Saverio Cinti, Ez-Zoubir Amri, Marcel Scheideler

^*Corresponding author for this work

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

Abstract

Adipose tissue contains thermogenic adipocytes (i.e., brown and brite/beige) that oxidize nutrients at exceptionally high rates via nonshivering thermogenesis. Its recent discovery in adult humans has opened up new avenues to fight obesity and related disorders such as diabetes. Here, we identified miR-26a and -26b as key regulators of human white and brite adipocyte differentiation. Both microRNAs are upregulated in early adipogenesis, and their inhibition prevented lipid accumulation while their overexpression accelerated it. Intriguingly, miR-26a significantly induced pathways related to energy dissipation, shifted mitochondrial morphology toward that seen in brown adipocytes, and promoted uncoupled respiration by markedly increasing the hallmark protein of brown fat, uncoupling protein 1. By combining in silico target prediction, transcriptomics, and an RNA interference screen, we identified the sheddase ADAM metallopeptidase domain 17 (ADAM17) as a direct target of miR-26 that mediated the observed effects on white and brite adipogenesis. These results point to a novel, critical role for the miR-26 family and its downstream effector ADAM17 in human adipocyte differentiation by promoting characteristics of energy-dissipating thermogenic adipocytes

Original language	English
Pages (from-to)	1578-1590
Journal	Stem Cells
Volume	32
Issue number	6
DOIs	https://doi.org/10.1002/stem.1603
Publication status	Published - 2014

Fields of Expertise

Human- & Biotechnology

Treatment code (Nähere Zuordnung)

Basic - Fundamental (Grundlagenforschung)
Experimental

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1002/stem.1603

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Karbiener, M., Pisani, D., Frontini, A., Oberreiter, L. M., Lang, E., Vegiopoulos, A., Mössenböck, K., Bernhardt, G., Mayr, T., Hildner, F., Grillari, J., Ailhaud, G., Herzig, S., Cinti, S., Amri, E.-Z., & Scheideler, M. (2014). MicroRNA-26 family is required for human adipogenesis and drives brown adipocytes characteristics. Stem Cells, 32(6), 1578-1590. https://doi.org/10.1002/stem.1603

Karbiener, M, Pisani, D, Frontini, A, Oberreiter, LM, Lang, E, Vegiopoulos, A, Mössenböck, K, Bernhardt, G, Mayr, T, Hildner, F, Grillari, J, Ailhaud, G, Herzig, S, Cinti, S, Amri, E-Z & Scheideler, M 2014, 'MicroRNA-26 family is required for human adipogenesis and drives brown adipocytes characteristics', Stem Cells, vol. 32, no. 6, pp. 1578-1590. https://doi.org/10.1002/stem.1603

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title = "MicroRNA-26 family is required for human adipogenesis and drives brown adipocytes characteristics",

abstract = "Adipose tissue contains thermogenic adipocytes (i.e., brown and brite/beige) that oxidize nutrients at exceptionally high rates via nonshivering thermogenesis. Its recent discovery in adult humans has opened up new avenues to fight obesity and related disorders such as diabetes. Here, we identified miR-26a and -26b as key regulators of human white and brite adipocyte differentiation. Both microRNAs are upregulated in early adipogenesis, and their inhibition prevented lipid accumulation while their overexpression accelerated it. Intriguingly, miR-26a significantly induced pathways related to energy dissipation, shifted mitochondrial morphology toward that seen in brown adipocytes, and promoted uncoupled respiration by markedly increasing the hallmark protein of brown fat, uncoupling protein 1. By combining in silico target prediction, transcriptomics, and an RNA interference screen, we identified the sheddase ADAM metallopeptidase domain 17 (ADAM17) as a direct target of miR-26 that mediated the observed effects on white and brite adipogenesis. These results point to a novel, critical role for the miR-26 family and its downstream effector ADAM17 in human adipocyte differentiation by promoting characteristics of energy-dissipating thermogenic adipocytes",

author = "Michael Karbiener and Didier Pisani and Andrea Frontini and Oberreiter, {Lisa Maria} and Eleonore Lang and Alexandros Vegiopoulos and Karin M{\"o}ssenb{\"o}ck and Gerwin Bernhardt and Torsten Mayr and Florian Hildner and Johannes Grillari and Gerard Ailhaud and Stephan Herzig and Saverio Cinti and Ez-Zoubir Amri and Marcel Scheideler",

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AU - Karbiener, Michael

AU - Pisani, Didier

AU - Frontini, Andrea

AU - Oberreiter, Lisa Maria

AU - Lang, Eleonore

AU - Vegiopoulos, Alexandros

AU - Mössenböck, Karin

AU - Bernhardt, Gerwin

AU - Mayr, Torsten

AU - Hildner, Florian

AU - Grillari, Johannes

AU - Ailhaud, Gerard

AU - Herzig, Stephan

AU - Cinti, Saverio

AU - Amri, Ez-Zoubir

AU - Scheideler, Marcel

PY - 2014

Y1 - 2014

N2 - Adipose tissue contains thermogenic adipocytes (i.e., brown and brite/beige) that oxidize nutrients at exceptionally high rates via nonshivering thermogenesis. Its recent discovery in adult humans has opened up new avenues to fight obesity and related disorders such as diabetes. Here, we identified miR-26a and -26b as key regulators of human white and brite adipocyte differentiation. Both microRNAs are upregulated in early adipogenesis, and their inhibition prevented lipid accumulation while their overexpression accelerated it. Intriguingly, miR-26a significantly induced pathways related to energy dissipation, shifted mitochondrial morphology toward that seen in brown adipocytes, and promoted uncoupled respiration by markedly increasing the hallmark protein of brown fat, uncoupling protein 1. By combining in silico target prediction, transcriptomics, and an RNA interference screen, we identified the sheddase ADAM metallopeptidase domain 17 (ADAM17) as a direct target of miR-26 that mediated the observed effects on white and brite adipogenesis. These results point to a novel, critical role for the miR-26 family and its downstream effector ADAM17 in human adipocyte differentiation by promoting characteristics of energy-dissipating thermogenic adipocytes

AB - Adipose tissue contains thermogenic adipocytes (i.e., brown and brite/beige) that oxidize nutrients at exceptionally high rates via nonshivering thermogenesis. Its recent discovery in adult humans has opened up new avenues to fight obesity and related disorders such as diabetes. Here, we identified miR-26a and -26b as key regulators of human white and brite adipocyte differentiation. Both microRNAs are upregulated in early adipogenesis, and their inhibition prevented lipid accumulation while their overexpression accelerated it. Intriguingly, miR-26a significantly induced pathways related to energy dissipation, shifted mitochondrial morphology toward that seen in brown adipocytes, and promoted uncoupled respiration by markedly increasing the hallmark protein of brown fat, uncoupling protein 1. By combining in silico target prediction, transcriptomics, and an RNA interference screen, we identified the sheddase ADAM metallopeptidase domain 17 (ADAM17) as a direct target of miR-26 that mediated the observed effects on white and brite adipogenesis. These results point to a novel, critical role for the miR-26 family and its downstream effector ADAM17 in human adipocyte differentiation by promoting characteristics of energy-dissipating thermogenic adipocytes

UR - http://onlinelibrary.wiley.com/journal/10.1002/%28ISSN%291549-4918

UR - http://onlinelibrary.wiley.com/doi/10.1002/stem.1603/abstract

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VL - 32

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JF - Stem Cells

IS - 6

ER -

MicroRNA-26 family is required for human adipogenesis and drives brown adipocytes characteristics

Abstract

Fields of Expertise

Treatment code (Nähere Zuordnung)

UN SDGs

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