搜索结果: 'NeuroCult Proliferation'

Mesenchymal stem cells (MSCs) in their immature state express a variety of genes of the three germ layers at relatively low or moderate levels that might explain their phenomenal plasticity. Numerous recent studies have demonstrated that under the appropriate conditions in vitro and in vivo the expression of different sets of these genes can be upregulated,turning MSCs into variety of cell lineages of mesodermal,ectodermal and endodermal origin. While transdifferentiation of MSCs is still controversial,these unique properties make MSCs an ideal autologous source of easily reprogrammable cells. Recently,using the approach of cell reprogramming by biological active compounds that interfere with chromatin structure and function,as well as with specific signalling pathways that promote neural fate commitment,we have been able to generate neural-like cells from human bone marrow (BM)-derived MSCs (hMSCs). However,the efficiency of neural transformation of hMSCs induced by this approach gradually declined with passaging. To elucidate the mechanisms that underlie the higher plasticity of early-passage hMSCs,comparative analysis of the expression levels of several pluripotent and neural genes was conducted for early- and late-passage hMSCs. The results demonstrated that early-passage hMSCs expressed the majority of these genes at low and moderate levels that gradually declined at late passages. Neural induction further increased the expression of some of these genes in hMSCs,accompanied by morphological changes into neural-like cells. We concluded that low and moderate expression of several pluripotent and neural genes in early-passage hMSCs could explain their higher plasticity and pliability for neural induction. Copyright textcopyright 2012 John Wiley & Sons,Ltd. View Publication

In the present study,the trilineage differentiation capacity of human foreskin-derived precursor cells (hSKP) was evaluated upon exposure to various (non)commercial (i and ii) ectodermal,(iii) mesodermal and (iv) endodermal differentiation media. (i) Upon sequential exposure of the cells to keratinocyte growth (CnT-07® or CnT-057®) and differentiation (CnT-02® or Epilife®) media,keratinocyte-like cells (filaggrin(+)/involucrin(+)) were obtained. The preferred keratinocyte differentiation strategy was exposure to CnT-07®. (ii) When hSKP were subsequently exposed to NeuroCult® media,cells underwent a weak neuro-ectodermal differentiation expressing nestin,myelin binding protein (MBP),vimentin and alpha-foetoprotein (AFP). Sequential exposure to NPMM® and NPDM® generated cells with an inferior neuro-ectodermal phenotype (nestin(+)/vimentin(+)/MBP(-)/AFP(-)). (iii) Upon exposure of hSKP to insulin-transferrin-selenite (ITS) and dexamethasone,small lipid droplets were observed,suggesting their differentiation potential towards adipocyte-like cells. (iv) Finally,after sequential exposure to hepatogenic growth factors and cytokines,an immature hepatic cell population was generated. The presence of pre-albumin suggests that a sequential exposure strategy is here superior to a cocktail approach. In summary,a considerable impact of different (non)commercial media on the lineage-specific differentiation efficiency of hSKP is shown. In addition,we demonstrate here for the first time that,in a suitable keratinocyte stimulating micro-environment,hSKP can generate keratinocyte-like progeny in vitro. View Publication

Skin-derived precursor (SKP) cells are a valuable resource for tissue engineering and regenerative medicine,because they represent multipotent stem cells that differentiate into neural and mesodermal progenies. Previous studies suggest that the stem cell pool decreases with age. Here,we show that human multipotent SKP cells can be efficiently collected from adult cheek/chin skin,even in aged individuals of 70-78years. SKP cells were isolated from 38 skin samples by serum-free sphere culture and examined for the ability to differentiate into neural and mesodermal lineages. The number of spheres obtained from adult facial skin was significantly higher than that of trunk or extremity skin. SKP cells derived from cheek/chin skin exhibited a high ability to differentiate into neural and mesodermal cells relative to those derived from eyelid,trunk,or extremity skin. Furthermore,cheek/chin skin SKP cells were shown to express markers for undifferentiated stem cells,including a high expression level of the Sox9 gene. These results indicate that cheek/chin skin is useful for the recovery of multipotent stem cells for tissue engineering and regenerative therapy. View Publication

Emerging evidence shows that glioblastoma multiforme (GBM) originates from cancer stem cells (CSCs). Characterization of CSC-specific signalling pathways would help identify new therapeutic targets and perhaps lead to the development of more efficient therapies selectively targeting CSCs. Here; we successfully dedifferentiated two patient-derived GBM cell lines into CSC-like cells (induced glioma stem cells,iGSCs) through expression of Oct4,Sox2 and Nanog transcription factors. Transformed cells exhibited significant suppression of epidermal growth factor receptor and its downstream pathways. Compared with parental GBM cells,iGSCs formed large neurospheres even in the absence of exogenous mitogens; they exhibited significant sensitivity to salinomycin and chemoresistance to temozolomide. Further characterization of iGSCs revealed induction of NOTCH1 and Wnt/β-catenin signalling and expression of CD133,CD44 and ALDH1A1. Our results indicate that iGSCs may help us understand CSC physiology and lead to development of potential therapeutic interventions aimed at differentiating tumour cells to render them more sensitive to chemotherapy or other standard agents. View Publication