Department of Oral Medicine, School of Dental Medicine, University of Zagreb, Zagreb, Croatia.
Department of Dentistry, University Hospital Centre Zagreb, Zagreb, Croatia.
Oral Dis. 2018 Mar;24(1-2):5-10. doi: 10.1111/odi.12776.
To observe simultaneous differentiation and analyse possible interactions between co-cultured human oral mucosal stem cells (hOMSC) and mouse neural stem cells (mNSC).
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.
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.
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.
观察人口腔黏膜干细胞(hOMSC)与鼠神经干细胞(mNSC)共培养时的同时分化情况,并分析可能存在的相互作用。
hOMSC 和 mNSC 在鼠源和人源培养基中共培养,通过免疫细胞化学鉴定来检测细胞存活率和分化模式。将共培养物与 hOMSC 在人源培养基和 mNSC 在鼠源培养基中的对照组进行比较。
hOMSC 和 mNSC 在人源培养基中共培养时,呈现出正常的人源细胞分化模式,而 mNSC 则向星形胶质细胞分化。当这些细胞在鼠源培养基中培养时,两种细胞类型都成功地分化为神经元,尽管 mNSC 有过度生长 hOMSC 的趋势。单独培养的 hOMSC 在人源特异性培养基中分化为外胚层(Oct4、Map2)和中胚层(Osterix)细胞群。mNSC 在鼠源特异性培养基中分化为 Map2、β3-微管蛋白和 NeuN 阳性神经元。
hOMSC 和 mNSC 可以形成共培养物。不同的培养基显著影响共培养物的分化模式,而单一细胞群体自身对另一细胞类型的分化影响较小。hOMSC 在鼠源神经组织环境中的体外分化模式表明,hOMSC 可能对缺血性脑损伤组织有益。
