RESUMEN
White adipose tissue (WAT) explants culture allows the study of this tissue ex vivo, maintaining its structure and properties. Concurrently, isolating mature adipocytes facilitates research into fat cell metabolism and hormonal regulation. Here, we present a protocol for obtaining, isolating, and processing mature adipocytes, alongside the cultivation of WAT explants from humans and mice. We describe steps for WAT retrieval, culturing of WAT explants, WAT digestion, and adipocytes separation. We then detail procedures for culturing isolated mature adipocytes. For complete details on the use and execution of this protocol, please refer to Villanueva-Carmona et al. (2023).1.
Asunto(s)
Adipocitos , Tejido Adiposo Blanco , Humanos , Ratones , AnimalesRESUMEN
Adipose tissue modulates energy homeostasis by secreting leptin, but little is known about the factors governing leptin production. We show that succinate, long perceived as a mediator of immune response and lipolysis, controls leptin expression via its receptor SUCNR1. Adipocyte-specific deletion of Sucnr1 influences metabolic health according to nutritional status. Adipocyte Sucnr1 deficiency impairs leptin response to feeding, whereas oral succinate mimics nutrient-related leptin dynamics via SUCNR1. SUCNR1 activation controls leptin expression via the circadian clock in an AMPK/JNK-C/EBPα-dependent manner. Although the anti-lipolytic role of SUCNR1 prevails in obesity, its function as a regulator of leptin signaling contributes to the metabolically favorable phenotype in adipocyte-specific Sucnr1 knockout mice under standard dietary conditions. Obesity-associated hyperleptinemia in humans is linked to SUCNR1 overexpression in adipocytes, which emerges as the major predictor of adipose tissue leptin expression. Our study establishes the succinate/SUCNR1 axis as a metabolite-sensing pathway mediating nutrient-related leptin dynamics to control whole-body homeostasis.
