PLoS Biology (Aug 2019)

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
https://doi.org/10.1371/journal.pbio.3000415
Journal volume & issue
Vol. 17, no. 8
p. e3000415

Abstract

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Low temperatures delay aging and promote longevity in many organisms. However, the metabolic and homeostatic aspects of low-temperature-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 low-temperature-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.