<p>Lipids can be considered a water reservoir used to offset dehydration stress as their oxidation by the mitochondria generates water. However, whether dehydration and the ensuing hypertonic stress directly regulate lipid synthesis is unknown. We show that hypertonic stress decreases cellular oxygen consumption, increases intracellular lipid synthesis, and favors glutamine oxidation as a carbon precursor for lipid synthesis via remodeling mitochondrial metabolism. These findings provide a mechanism whereby cellular dehydration leads to intracellular lipid accumulation, functionally linking water availability to lipid storage.</p>

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Dehydration promotes intracellular lipid synthesis and accumulation

  • Joshua S. Carty,
  • Jazlyn Selvasingh,
  • Yvonne Zuchowski,
  • Hyuck-Jin Nam,
  • Clothilde Pénalva,
  • Gayani Nanayakkara,
  • Erin Q. Jennings,
  • Kelsey Voss,
  • Edith T. Adame,
  • John T. Tossberg,
  • Wei Sheng Yap,
  • Meiling Melzer,
  • Olga Viquez,
  • A. Scott McCall,
  • Elizabeth R. Piotrowski,
  • Ryoichi Bessho,
  • Shirong Cao,
  • Katrina L. Leaptrot,
  • Alexandra C. Schrimpe-Rutledge,
  • Simona G. Codreanu,
  • Stacy D. Sherrod,
  • John A. McLean,
  • Jonathan B. Trapani,
  • Matthew A. Cottam,
  • Ma Wan,
  • Deepti Shrivastava,
  • Don A. Delker,
  • Matthew H. Wilson,
  • Clinton M. Hasenour,
  • Louise Lantier,
  • Irene Chernova,
  • Jamey D. Young,
  • Volker H. Haase,
  • Jose Pablo Vazquez-Medina,
  • Dylan K. Kosma,
  • Peter K. Kim,
  • Jean-Philippe Cartailler,
  • Mingzhi Zhang,
  • Roy Zent,
  • Raymond C. Harris,
  • Jason A. Watts,
  • Andrew S. Terker,
  • Fabian Bock,
  • Jeffrey C. Rathmell,
  • Aylin R. Rodan,
  • Juan P. Arroyo

摘要

Lipids can be considered a water reservoir used to offset dehydration stress as their oxidation by the mitochondria generates water. However, whether dehydration and the ensuing hypertonic stress directly regulate lipid synthesis is unknown. We show that hypertonic stress decreases cellular oxygen consumption, increases intracellular lipid synthesis, and favors glutamine oxidation as a carbon precursor for lipid synthesis via remodeling mitochondrial metabolism. These findings provide a mechanism whereby cellular dehydration leads to intracellular lipid accumulation, functionally linking water availability to lipid storage.