Leucine-rich repeat-containing G protein-coupled receptor 5 (Lgr5) and its homologs (e.g., Lgr6) mark adult stem cells in multiple tissues. Recently, we and others have shown that Lgr5 marks adult taste stem/progenitor cells in posterior tongue. However, the regenerative potential of Lgr5-expressing (Lgr5 + ) cells and the identity of adult taste stem/progenitor cells that regenerate taste tissue in anterior tongue remain elusive. In the present work, we describe a culture system in which single isolated Lgr5 + or Lgr6 + cells from taste tissue can generate continuously expanding 3D structures ("organoids"). Many cells within these taste organoids were cycling and positive for proliferative cell markers, cytokeratin K5 and Sox2, and incorporated 5-bromo-2'-deoxyuridine. Importantly, mature taste receptor cells that express gustducin, carbonic anhydrase 4, taste receptor type 1 member 3, nucleoside triphosphate diphosphohydrolase-2, or cytokeratin K8 were present in the taste organoids. Using calcium imaging assays, we found that cells grown out from taste organoids derived from isolated Lgr5 + cells were functional and responded to tastants in a dose-dependent manner. Genetic lineage tracing showed that Lgr6 + cells gave rise to taste bud cells in taste papillae in both anterior and posterior tongue. RT-PCR data demonstrated that Lgr5 and Lgr6 may mark the same subset of taste stem/progenitor cells both anteriorly and posteriorly. Together, our data demonstrate that functional taste cells can be generated ex vivo from single Lgr5 + or Lgr6 + cells, validating the use of this model for the study of taste cell generation. Lgr5 (leucine-rich repeat-containing G protein-coupled receptor 5), encoded by a Wnt (wingless-type MMTV integration site family) target gene, marks adult stem/progenitor cells in taste tissue in posterior tongue that in vivo give rise to all major types of taste bud cells, as well as perigemmal cells (6, 7). Lgr5 is also known to mark actively cycling stem cells in small intestine, colon, stomach, and hair follicle, as well as quiescent stem cells in liver, pancreas, and cochlea (8). Isolated Lgr5 + adult stem cells from multiple tissues are able to generate so-called organoid structures ex vivo (9-11). For instance, Sato and colleagues (10) developed a 3D culture system to grow crypt-villus organoids from single intestinal stem cells; all differentiated cell types were found in these structures, indicating the multipotent nature of these cells. We hypothesized that Lgr5 + taste stem/progenitor cells in a 3D culture system would be capable of expanding and giving rise to taste receptor cells ex vivo. In the present study, we isolated Lgr5 + stem/progenitor cells from taste tissue and cultured them in a 3D culture system. Single Lgr5 + cells grew into organoid structures ex vivo in defined culture conditions, with the presence of both proliferating cells and differentiated mature taste cells in which taste signaling components are functionally expressed. When organoids were replated onto a 2D sur...
