Human‐ and mouse‐derived neurons can be simultaneously obtained by co‐cultures of human oral mucosal stem cells and mouse neural stem cells

Human‐ and mouse‐derived neurons can be simultaneously obtained by co‐cultures of human oral mucosal stem cells and mouse neural stem cells

Objective To observe simultaneous differentiation and analyse possible interactions between co‐cultured human oral mucosal stem cells (hOMSC) and mouse neural stem cells (mNSC). Materials and Methods hOMSC and mNSC were co‐cultured in mouse and in human medium, and their immunocytochemical character...

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Bibliographic Details
Published in:Oral diseases Vol. 24; no. 1-2; pp. 5 - 10
Main Authors: Alajbeg, I, Alić, I, Andabak‐Rogulj, A, Brailo, V, Mitrečić, D
Format: Journal Article
Language:English
Published: Denmark Wiley Subscription Services, Inc 01-03-2018
Subjects:
Animals
Astrocytes
Cell Communication
Cell culture
Cell Differentiation
Cell Survival
Coculture Techniques
Culture Media
Dentistry
differentiation
Humans
Ischemia
Mice
mouse neural stem cells
Mouth Mucosa - cytology
Mucosa
neural crest stem cells
Neural stem cells
Neural Stem Cells - cytology
Neural Stem Cells - physiology
neuroectoderm
Neurons
Oct-4 protein
Oral diseases
oral mucosa
Stem cell transplantation
Stem cells
Tubulin
mouse neural stem cells
neural crest stem cells
differentiation
oral mucosa
neuroectoderm
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Summary:Objective To observe simultaneous differentiation and analyse possible interactions between co‐cultured human oral mucosal stem cells (hOMSC) and mouse neural stem cells (mNSC). Materials and Methods hOMSC and mNSC were co‐cultured in mouse and in human medium, and their immunocytochemical characterization to detect survival rate and differentiation pattern was performed. Co‐cultures in different media were compared to hOMSC in human medium and mNSC in mouse medium as controls. Results Co‐culture of hOMSC and mNSC in medium for human cells led to normal differentiation pattern of human cells, while mNSC were directed towards astrocytes. When the same cells were cultivated in the mouse medium, both cell types succeeded to form neurons, although mNSC showed a tendency to overgrow hOMSC. hOMSC alone in the human‐specific medium differentiated towards ectodermal (Oct4, Map2) and mesodermal (Osterix) cell populations. mNSC in the mouse‐specific medium differentiated towards Map2‐, β3‐tubulin‐ and NeuN‐positive neurons. Conclusions hOMSC and mNSC can form co‐cultures. Different media considerably affected the differentiation pattern of co‐cultures, whereas one cell population itself modestly influenced differentiation of the other cell type. The in vitro differentiation pattern of hOMSC in the mouse neural tissue environment suggested that hOMSC could be beneficial in the brain tissue affected by ischaemia.
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ISSN:1354-523X
1601-0825
DOI:10.1111/odi.12776