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. 2022 Mar;4(3):327-343.
doi: 10.1038/s42255-022-00544-6. Epub 2022 Mar 14.

Angiocrine polyamine production regulates adiposity

Erika Monelli  1 Pilar Villacampa  1 Amaia Zabala-Letona  2   3 Anabel Martinez-Romero  1 Judith Llena  1 Daniel Beiroa  4   5 Leonor Gouveia  1   6 Iñigo Chivite  7 Sebastián Zagmutt  8 Pau Gama-Perez  9 Oscar Osorio-Conles  10   11 Laia Muixi  1 Ainara Martinez-Gonzalez  2 Sandra D Castillo  1 Natalia Martín-Martín  2   3   12 Pau Castel  13 Lorea Valcarcel-Jimenez  2 Irene Garcia-Gonzalez  14 Josep A Villena  11   15 Sonia Fernandez-Ruiz  2 Dolors Serra  5   8 Laura Herrero  5   8 Rui Benedito  14 Pablo Garcia-Roves  5   9 Josep Vidal  10   11 Paul Cohen  16 Rubén Nogueiras  4   5   17 Marc Claret  7   11 Arkaitz Carracedo #  2   3   12   18   19 Mariona Graupera #  20   21
Affiliations

Angiocrine polyamine production regulates adiposity

Erika Monelli et al. Nat Metab. 2022 Mar.

Abstract

Reciprocal interactions between endothelial cells (ECs) and adipocytes are fundamental to maintain white adipose tissue (WAT) homeostasis, as illustrated by the activation of angiogenesis upon WAT expansion, a process that is impaired in obesity. However, the molecular mechanisms underlying the crosstalk between ECs and adipocytes remain poorly understood. Here, we show that local production of polyamines in ECs stimulates adipocyte lipolysis and regulates WAT homeostasis in mice. We promote enhanced cell-autonomous angiogenesis by deleting Pten in the murine endothelium. Endothelial Pten loss leads to a WAT-selective phenotype, characterized by reduced body weight and adiposity in pathophysiological conditions. This phenotype stems from enhanced fatty acid β-oxidation in ECs concomitant with a paracrine lipolytic action on adipocytes, accounting for reduced adiposity. Combined analysis of murine models, isolated ECs and human specimens reveals that WAT lipolysis is mediated by mTORC1-dependent production of polyamines by ECs. Our results indicate that angiocrine metabolic signals are important for WAT homeostasis and organismal metabolism.

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