Brown adipocytes (BAs) are a potential cell source for the treatment of metabolic disease, including type 2 diabetes. In this report, human pluripotent stem cells (hPSCs) are subject to directed differentiation through a paraxial mesoderm progenitor state that generates BAs at high efficiency. Molecular analysis identifies potential regulatory networks for BA development, giving insight into development along this lineage. hPSC-derived BAs undergo elevated rates of glycolysis, uncoupled respiration, and lipolysis that are responsive to changes in cyclic AMP (cAMP)-dependent signaling, consistent with metabolic activity in BA tissue depots. Transplanted human BAs engraft into the inter-scapular region of recipient mice and exhibit thermogenic activity. Recipient animals have elevated metabolic activity, respiratory exchange ratios, and whole-body energy expenditure. Finally, transplanted BAs reduce circulating glucose levels in hyperglycemic animals. These data provide a roadmap for brown adipocyte development and indicate that BAs generated from hPSCs have potential as a tool for therapeutic development.
Read full abstract