Cell Reports (Aug 2020)

Atrial Natriuretic Peptide Orchestrates a Coordinated Physiological Response to Fuel Non-shivering Thermogenesis

  • Deborah Carper,
  • Marine Coué,
  • Emmani B.M. Nascimento,
  • Valentin Barquissau,
  • Damien Lagarde,
  • Carine Pestourie,
  • Claire Laurens,
  • Justine Vily Petit,
  • Maud Soty,
  • Laurent Monbrun,
  • Marie-Adeline Marques,
  • Yannick Jeanson,
  • Yannis Sainte-Marie,
  • Aline Mairal,
  • Sébastien Déjean,
  • Geneviève Tavernier,
  • Nathalie Viguerie,
  • Virginie Bourlier,
  • Frank Lezoualc’h,
  • Audrey Carrière,
  • Wim H.M. Saris,
  • Arne Astrup,
  • Louis Casteilla,
  • Gilles Mithieux,
  • Wouter van Marken Lichtenbelt,
  • Dominique Langin,
  • Patrick Schrauwen,
  • Cedric Moro

Journal volume & issue
Vol. 32, no. 8
p. 108075

Abstract

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Summary: Atrial natriuretic peptide (ANP) is a cardiac hormone controlling blood volume and pressure in mammals. It is still unclear whether ANP controls cold-induced thermogenesis in vivo. Here, we show that acute cold exposure induces cardiac ANP secretion in mice and humans. Genetic inactivation of ANP promotes cold intolerance and suppresses half of cold-induced brown adipose tissue (BAT) activation in mice. While white adipocytes are resistant to ANP-mediated lipolysis at thermoneutral temperature in mice, cold exposure renders white adipocytes fully responsive to ANP to activate lipolysis and a thermogenic program, a physiological response that is dramatically suppressed in ANP null mice. ANP deficiency also blunts liver triglycerides and glycogen metabolism, thus impairing fuel availability for BAT thermogenesis. ANP directly increases mitochondrial uncoupling and thermogenic gene expression in human white and brown adipocytes. Together, these results indicate that ANP is a major physiological trigger of BAT thermogenesis upon cold exposure in mammals.

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