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The colorful versatility of adipocytes: white‐to‐brown transdifferentiation and its therapeutic potential in humans

Stefanie Maurer, Matthew Harms, Jérémie Boucher

2020FEBS Journal61 citationsDOIOpen Access PDF

Abstract

Brown and brite adipocytes contribute to energy expenditure through nonshivering thermogenesis. Though these cell types are thought to arise primarily from the de novo differentiation of precursor cells, their abundance is also controlled through the transdifferentiation of mature white adipocytes. Here, we review recent advances in our understanding of the regulation of white-to-brown transdifferentiation, as well as the conversion of brown and brite adipocytes to dormant, white-like fat cells. Converting mature white adipocytes into brite cells or reactivating dormant brown and brite adipocytes has emerged as a strategy to ameliorate human metabolic disorders. We analyze the evidence of learning from mice and how they translate to humans to ultimately scrutinize the relevance of this concept. Moreover, we estimate that converting a small percentage of existing white fat mass in obese subjects into active brite adipocytes could be sufficient to achieve meaningful benefits in metabolism. In conclusion, novel browning agents have to be identified before adipocyte transdifferentiation can be realized as a safe and efficacious therapy.

Topics & Concepts

TransdifferentiationWhite (mutation)BiologyCell biologyStem cellGeneticsGeneAdipose Tissue and MetabolismAdipokines, Inflammation, and Metabolic DiseasesRetinoids in leukemia and cellular processes
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