Stem cells possess the ability of self-renewal and the potency to differentiate into multiple cell lineages. Somatic stem cells are present in adult tissues, but they usually exhibit limited differentiation capacity and life span. On the other hand, somatic cells from adult tissues can be reprogrammed into induced pluripotent stem cells (iPSCs) that retain a full differentiation capacity with unlimited self-renewal ability. Autologous origin of iPSCs makes them an ideal source of cells for regenerative medicine to replenish the missing or damaged cells in the patients. iPSCs nowadays have also been widely used to build human disease models to study pathological mechanisms of the diseases. Hirschsprung disease (HSCR) is a congenital disorder caused by defects in the development of enteric neural crest stem cells. The failures of the ENCCs to proliferate, differentiate, and/or migrate lead to the absence of enteric neurons in the distal colon, resulting in colonic motility dysfunction. The lack of effective treatment for HSCR urges continuous efforts to develop new therapies for this congenital disorder. In this review, we will discuss the potential applications of somatic stem cells and iPSCs for the cell-based therapy of HSCR. We will also highlight the recent advances in stem cell research for the establishment of human HSCR models for the development of novel therapies.
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