MDT-15/MED15 permits longevity at low temperature via enhancing lipidostasis and proteostasis

Dongyeop Lee; Seon Woo A. An; Yoonji Jung; Yasuyo Yamaoka; Youngjae Ryu; Grace Ying Shyen Goh; Arshia Beigi; Jae Seong Yang; Gyoo Yeol Jung; Dengke K. Ma; Chang Man Ha; Stefan Taubert; Youngsook Lee; Seung Jae V. Lee

doi:10.1371/journal.pbio.3000415

MDT-15/MED15 permits longevity at low temperature via enhancing lipidostasis and proteostasis

Dongyeop Lee
, Seon Woo A. An
, Yoonji Jung
, Yasuyo Yamaoka
, Youngjae Ryu
, Grace Ying Shyen Goh
, Arshia Beigi
, Jae Seong Yang
, Gyoo Yeol Jung
, Dengke K. Ma
, Chang Man Ha
, Stefan Taubert
, Youngsook Lee
, Seung Jae V. Lee

Pohang University of Science and Technology
Massachusetts Institute of Technology
Korea Advanced Institute of Science and Technology
Korea Brain Research Institute
BC Children's Hospital Research Institute
University of California at San Francisco

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

60 Scopus citations

Abstract

Low temperatures delay aging and promote longevity in many organisms. However, the metabolic and homeostatic aspects of lowerature-induced longevity remain poorly understood. Here, we show that lipid homeostasis regulated by Caenorhabditis elegans Mediator 15 (MDT-15 or MED15), a transcriptional coregulator, is essential for lowerature-induced longevity and proteostasis. We find that inhibition of mdt-15 prevents animals from living long at low temperatures. We show that MDT-15 up-regulates fat-7, a fatty acid desaturase that converts saturated fatty acids (SFAs) to unsaturated fatty acids (UFAs), at low temperatures. We then demonstrate that maintaining a high UFA/SFA ratio is essential for proteostasis at low temperatures. We show that dietary supplementation with a monounsaturated fatty acid, oleic acid (OA), substantially mitigates the short life span and proteotoxicity in mdt-15(-) animals at low temperatures. Thus, lipidostasis regulated by MDT-15 appears to be a limiting factor for proteostasis and longevity at low temperatures. Our findings highlight the crucial roles of lipid regulation in maintaining normal organismal physiology under different environmental conditions.

Original language	English
Article number	e3000415
Journal	PLoS Biology
Volume	17
Issue number	8
DOIs	https://doi.org/10.1371/journal.pbio.3000415
State	Published - 13 Aug 2019

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© 2019 Lee et al.

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title = "MDT-15/MED15 permits longevity at low temperature via enhancing lipidostasis and proteostasis",

abstract = "Low temperatures delay aging and promote longevity in many organisms. However, the metabolic and homeostatic aspects of lowerature-induced longevity remain poorly understood. Here, we show that lipid homeostasis regulated by Caenorhabditis elegans Mediator 15 (MDT-15 or MED15), a transcriptional coregulator, is essential for lowerature-induced longevity and proteostasis. We find that inhibition of mdt-15 prevents animals from living long at low temperatures. We show that MDT-15 up-regulates fat-7, a fatty acid desaturase that converts saturated fatty acids (SFAs) to unsaturated fatty acids (UFAs), at low temperatures. We then demonstrate that maintaining a high UFA/SFA ratio is essential for proteostasis at low temperatures. We show that dietary supplementation with a monounsaturated fatty acid, oleic acid (OA), substantially mitigates the short life span and proteotoxicity in mdt-15(-) animals at low temperatures. Thus, lipidostasis regulated by MDT-15 appears to be a limiting factor for proteostasis and longevity at low temperatures. Our findings highlight the crucial roles of lipid regulation in maintaining normal organismal physiology under different environmental conditions.",

author = "Dongyeop Lee and An, \{Seon Woo A.\} and Yoonji Jung and Yasuyo Yamaoka and Youngjae Ryu and Goh, \{Grace Ying Shyen\} and Arshia Beigi and Yang, \{Jae Seong\} and Jung, \{Gyoo Yeol\} and Ma, \{Dengke K.\} and Ha, \{Chang Man\} and Stefan Taubert and Youngsook Lee and Lee, \{Seung Jae V.\}",

note = "Publisher Copyright: {\textcopyright} 2019 Lee et al.",

year = "2019",

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doi = "10.1371/journal.pbio.3000415",

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AU - Lee, Dongyeop

AU - An, Seon Woo A.

AU - Jung, Yoonji

AU - Yamaoka, Yasuyo

AU - Ryu, Youngjae

AU - Goh, Grace Ying Shyen

AU - Beigi, Arshia

AU - Yang, Jae Seong

AU - Jung, Gyoo Yeol

AU - Ma, Dengke K.

AU - Ha, Chang Man

AU - Taubert, Stefan

AU - Lee, Youngsook

AU - Lee, Seung Jae V.

PY - 2019/8/13

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N2 - Low temperatures delay aging and promote longevity in many organisms. However, the metabolic and homeostatic aspects of lowerature-induced longevity remain poorly understood. Here, we show that lipid homeostasis regulated by Caenorhabditis elegans Mediator 15 (MDT-15 or MED15), a transcriptional coregulator, is essential for lowerature-induced longevity and proteostasis. We find that inhibition of mdt-15 prevents animals from living long at low temperatures. We show that MDT-15 up-regulates fat-7, a fatty acid desaturase that converts saturated fatty acids (SFAs) to unsaturated fatty acids (UFAs), at low temperatures. We then demonstrate that maintaining a high UFA/SFA ratio is essential for proteostasis at low temperatures. We show that dietary supplementation with a monounsaturated fatty acid, oleic acid (OA), substantially mitigates the short life span and proteotoxicity in mdt-15(-) animals at low temperatures. Thus, lipidostasis regulated by MDT-15 appears to be a limiting factor for proteostasis and longevity at low temperatures. Our findings highlight the crucial roles of lipid regulation in maintaining normal organismal physiology under different environmental conditions.

AB - Low temperatures delay aging and promote longevity in many organisms. However, the metabolic and homeostatic aspects of lowerature-induced longevity remain poorly understood. Here, we show that lipid homeostasis regulated by Caenorhabditis elegans Mediator 15 (MDT-15 or MED15), a transcriptional coregulator, is essential for lowerature-induced longevity and proteostasis. We find that inhibition of mdt-15 prevents animals from living long at low temperatures. We show that MDT-15 up-regulates fat-7, a fatty acid desaturase that converts saturated fatty acids (SFAs) to unsaturated fatty acids (UFAs), at low temperatures. We then demonstrate that maintaining a high UFA/SFA ratio is essential for proteostasis at low temperatures. We show that dietary supplementation with a monounsaturated fatty acid, oleic acid (OA), substantially mitigates the short life span and proteotoxicity in mdt-15(-) animals at low temperatures. Thus, lipidostasis regulated by MDT-15 appears to be a limiting factor for proteostasis and longevity at low temperatures. Our findings highlight the crucial roles of lipid regulation in maintaining normal organismal physiology under different environmental conditions.

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JF - PLoS Biology

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ER -

MDT-15/MED15 permits longevity at low temperature via enhancing lipidostasis and proteostasis

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