TGF-ß receptor 1 regulates progenitors that promote browning of white fat.

OBJECTIVE: Beige/brite adipose tissue displays morphological characteristics and beneficial metabolic traits of brown adipose tissue. Previously, we showed that TGF-ß signaling regulates the browning of white adipose tissue. Here, we inquired whether TGF-ß signals regulated presumptive beige progenitors in white fat and investigated the TGF-ß regulated mechanisms involved in beige adipogenesis. METHODS: We deleted TGF-ß receptor 1 (TßRI) in adipose tissue (TßRIAdKO mice) and, using flow-cytometry based assays, identified and isolated presumptive beige progenitors located in the stromal vascular cells of white fat. These cells were molecularly characterized to examine beige/brown marker expression and to investigate TGF-ß dependent mechanisms. Further, the cells were transplanted into athymic nude mice to examine their adipogenesis potential. RESULTS: Deletion of TßRI promotes beige adipogenesis while reducing the detrimental effects of high fat diet feeding. Interaction of TGF-ß signaling with the prostaglandin pathway regulated the appearance of beige adipocytes in white fat. Using flow cytometry techniques and stromal vascular fraction from white fat, we isolated presumptive beige stem/progenitor cells (iBSCs). Upon genetic or pharmacologic inhibition of TGF-ß signaling, these cells express high levels of predominantly beige markers. Transplantation of TßRI-deficient stromal vascular cells or iBSCs into athymic nude mice followed by high fat diet feeding and stimulation of ß-adrenergic signaling via CL316,243 injection or cold exposure promoted robust beige adipogenesis in vivo. CONCLUSIONS: TßRI signals target the prostaglandin network to regulate presumptive beige progenitors in white fat capable of developing into beige adipocytes with functional attributes. Controlled inhibition of TßRI signaling and concomitant PGE2 stimulation has the potential to promote beige adipogenesis and improve metabolism.