Background:Tooth is vital not only for a good smile,but also good health.Yet,we lose tooth regularly due to accidents or diseases.An ideal solution to this problem is to regenerate tooth with patients’own cells.Here we describe the generation of tooth-like structures from integration-free human urine induced pluripotent stem cells(ifhU-iPSCs).Results:We first differentiated ifhU-iPSCs to epithelial sheets,which were then recombined with E14.5 mouse dental mesenchymes.Tooth-like structures were recovered from these recombinants in 3 weeks with success rate up to 30%for 8 different iPSC lines,comparable to H1 hESC.We further detected that ifhU-iPSC derived epithelial sheets differentiated into enamel-secreting ameloblasts in the tooth-like structures,possessing physical properties such as elastic modulus and hardness found in the regular human tooth.Conclusion:Our results demonstrate that ifhU-iPSCs can be used to regenerate patient specific dental tissues or even tooth for further drug screening or regenerative therapies.
Zinc-finger nucleases and transcription activator-like effector nucleases are novel gene-editing platformscontributing to redefine the boundaries of modern biological research. They are composed of a non-specificcleavage domain and a tailor made DNA-binding module, which enables a broad range of genetic modifications byinducing efficient DNA double-strand breaks at desired loci. Among other remarkable uses, these nucleases havebeen employed to produce gene knockouts in mid-size and large animals, such as rabbits and pigs, respectively.This approach is cost effective, relatively quick, and can produce invaluable models for human disease studies,biotechnology or agricultural purposes. Here we describe a protocol for the efficient generation of knockout rabbitsusing transcription activator-like effector nucleases, and a perspective of the field.
Yu WangNana FanJun SongJuan ZhongXiaogang GuoWeihua TianQuanjun ZhangFenggong CuiLi LiPhilip N NewsomeJon FramptonMiguel A EstebanLiangxue Lai
