Nestin‐expressing cells in the gut give rise to enteric neurons and glial cells

Background  Neuronal stem cells (NSCs) are promising for neurointestinal disease therapy. Although NSCs have been isolated from intestinal musclularis, their presence in mucosa has not been well described. Mucosa‐derived NSCs are accessible endoscopically and could be used autologously. Brain‐derive...

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Bibliographic Details
Published in:Neurogastroenterology and motility 2013-01, Vol.25 (1), p.61-e7
Main Authors: Belkind‐Gerson, J., Carreon‐Rodriguez, A., Benedict, L. Andrew, Steiger, C., Pieretti, A., Nagy, N., Dietrich, J., Goldstein, A. M.
Format: Article
Language:English
Subjects:
Animals
Brain
Cell Differentiation - physiology
Chick Embryo
Colon
Digestive tract
Embryos
enteric nervous system
Enteric Nervous System - cytology
Enteric Nervous System - metabolism
Fluorescent Antibody Technique
Glia
Glial cells
Glial fibrillary acidic protein
Green fluorescent protein
Hindgut
Hirschsprung’s disease
Immunohistochemistry
Intermediate Filament Proteins - metabolism
Intestinal Mucosa - cytology
Intestinal Mucosa - metabolism
Intestine
Mesenchyme
Mice
Mice, Transgenic
Mucosa
Nerve Tissue Proteins - metabolism
Nestin
neural stem cell
Neural stem cells
Neural Stem Cells - cytology
Neural Stem Cells - metabolism
Neurogenesis
Neuroglia - cytology
Neuroglia - metabolism
Neuronal-glial interactions
Neurons
Neurons - cytology
Neurons - metabolism
neurosphere
neurospheres
Promoters
Reverse Transcriptase Polymerase Chain Reaction
Stem cells
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Summary:Background  Neuronal stem cells (NSCs) are promising for neurointestinal disease therapy. Although NSCs have been isolated from intestinal musclularis, their presence in mucosa has not been well described. Mucosa‐derived NSCs are accessible endoscopically and could be used autologously. Brain‐derived Nestin‐positive NSCs are important in endogenous repair and plasticity. The aim was to isolate and characterize mucosa‐derived NSCs, determine their relationship to Nestin‐expressing cells and to demonstrate their capacity to produce neuroglial networks in vitro and in vivo. Methods  Neurospheres were generated from periventricular brain, colonic muscularis (Musc), and mucosa–submucosa (MSM) of mice expressing green fluorescent protein (GFP) controlled by the Nestin promoter (Nestin‐GFP). Neuronal stem cells were also grown as adherent colonies from intestinal mucosal organoids. Their differentiation potential was assessed using immunohistochemistry using glial and neuronal markers. Brain and gut‐derived neurospheres were transplanted into explants of chick embryonic aneural hindgut to determine their fate. Key Results  Musc‐ and MSM‐derived neurospheres expressed Nestin and gave rise to cells of neuronal, glial, and mesenchymal lineage. Although Nestin expression in tissue was mostly limited to glia co‐labelled with glial fibrillary acid protein (GFAP), neurosphere‐derived neurons and glia both expressed Nestin in vitro, suggesting that Nestin+/GFAP+ glial cells may give rise to new neurons. Moreover, following transplantation into aneural colon, brain‐ and gut‐derived NSCs were able to differentiate into neurons. Conclusions & Inferences  Nestin‐expressing intestinal NSCs cells give rise to neurospheres, differentiate into neuronal, glial, and mesenchymal lineages in vitro, generate neurons in vivo and can be isolated from mucosa. Further studies are needed for exploring their potential for treating neuropathies.
ISSN:1350-1925
1365-2982
DOI:10.1111/nmo.12015