Abstract
Adipocytes exhibit different morphological and functional characteristics, depending on their anatomical location, developmental origin, and stimulus. While white adipocytes tend to accumulate energy as triglycerides, brown and beige adipocytes tend to direct carbon sources to fuel thermogenesis. White and beige adipocytes originate from common progenitor cells, which are distinct from brown adipocyte precursors. Having a method to study white vs. beige vs. brown adipocyte differentiation may help to unveil the mechanisms driving distinct adipogenic programs. Preadipocytes can be cultured and differentiated in vitro using a combination of compounds to stimulate adipogenesis. Here, we describe and compare protocols designed to stimulate adipocyte differentiation and induce brown/beige-like or white-like characteristics in differentiating adipocytes. The protocols consist in exposing murine preadipocytes to pharmacological stimuli aimed at triggering adipogenesis and inducing (or not) a thermogenic gene expression program. After 8 days of differentiation with a pro-browning cocktail, immortalized preadipocytes isolated from interscapular brown fat (9B cells) or inguinal white fat (9W cells) from the same mouse expressed higher levels of brown/beige adipocyte markers (e.g., Ucp1) and pan-adipocyte differentiation markers (e.g., Pparg, Cebpa and aP2) when compared to the same cells differentiated with a cocktail that lacked brown/beige adipogenic inducers (i.e., rosiglitazone, T3, and indomethacin). Consistent with a higher thermogenic potential of brown vs. beige adipocytes, differentiated 9B cells expressed higher Ucp1 levels than differentiated 9W cells. This simple protocol may help researchers to understand mechanisms of adipogenesis and how adipocytes become thermogenic.