Molecular Metabolism (May 2024)

Scd1 and monounsaturated lipids are required for autophagy and survival of adipocytes

  • Hiroyuki Mori,
  • Sydney K. Peterson,
  • Rachel C. Simmermon,
  • Katherine A. Overmyer,
  • Akira Nishii,
  • Emma Paulsson,
  • Ziru Li,
  • Annie Jen,
  • Romina M. Uranga,
  • Jessica N. Maung,
  • Warren T. Yacawych,
  • Kenneth T. Lewis,
  • Rebecca L. Schill,
  • Taryn Hetrick,
  • Ryo Seino,
  • Ken Inoki,
  • Joshua J. Coon,
  • Ormond A. MacDougald

Journal volume & issue
Vol. 83
p. 101916

Abstract

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Objective: Exposure of adipocytes to ‘cool’ temperatures often found in the periphery of the body induces expression of Stearoyl-CoA Desaturase-1 (Scd1), an enzyme that converts saturated fatty acids to monounsaturated fatty acids. The goal of this study is to further investigate the roles of Scd in adipocytes. Method: In this study, we employed Scd1 knockout cells and mouse models, along with pharmacological Scd1 inhibition to dissect the enzyme's function in adipocyte physiology. Results: Our study reveals that production of monounsaturated lipids by Scd1 is necessary for fusion of autophagosomes to lysosomes and that with a Scd1-deficiency, autophagosomes accumulate. In addition, Scd1-deficiency impairs lysosomal and autolysosomal acidification resulting in vacuole accumulation and eventual cell death. Blocking autophagosome formation or supplementation with monounsaturated fatty acids maintains vitality of Scd1-deficient adipocytes. Conclusion: This study demonstrates the indispensable role of Scd1 in adipocyte survival, with its inhibition in vivo triggering autophagy-dependent cell death and its depletion in vivo leading to the loss of bone marrow adipocytes.

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