Full PapersDevelopmental Potentials of Enteric Neural Crest-Derived Cells in Clonal and Mass Cultures
References (0)
Cited by (48)
Development of the intrinsic and extrinsic innervation of the gut
2016, Developmental BiologyCitation Excerpt :Morphologically distinct classes of astrocyte-like enteric glia exist (types I–III) in MG (Boesmans et al., 2015), but it remains to be determined whether SCP-derived enteric glia give rise to specific glial subtypes in the colon. It has been previously demonstrated that enteric glial cells and myelinating Schwann cells can be directed to transdifferentiate into one another by appropriate environmental cues (Dulac and Le Douarin, 1991; Sextier-Sainte-Claire Deville et al., 1994). Although SCP-derived glial cells are present in the ENS, RNA sequencing analysis shows that enteric glial cells are transcriptionally distinct from other glia in the nervous system (Rao et al., 2015).
Neuroblastoma aggressiveness in relation to sympathetic neuronal differentiation stage
2011, Seminars in Cancer BiologyCitation Excerpt :When trunk neural crest cells migrate from the neural tube, fate restriction occurs as more than 85% of trunk neural crest progenitor cells become committed within 30–36 h post-migration [11]. However, it has been suggested that subpopulations of progenitor cells with maintained multi-lineage differentiation potential are retained even after migration to sites of homing, as such multipotent cells have been found in dorsal root ganglia and in gut of rodents and avians [12–18], and in peripheral nerves in rat [19]. Depending on environmental cues, such as neurotrophins, bone morphogenetic proteins (BMPs), endothelin 3, members of the wingless (wnt) family and neuregulins, trunk neural crest cells differentiate into neurons, peripheral glial cells and melanocytes.
Peripheral Nervous System
2004, Handbook of Stem CellsThe avian embryo as a model to study the development of the neural crest: A long and still ongoing story
2004, Mechanisms of DevelopmentMultipotentiality of the neural crest
2003, Current Opinion in Genetics and Development