技术资料

Incurable neurological disorders such as Parkinson's disease (PD),Huntington's disease (HD),and Alzheimer's disease (AD) are very common and can be life-threatening because of their progressive disease symptoms with limited treatment options. To provide an alternative renewable cell source for cell-based transplantation and as study models for neurological diseases,we generated induced pluripotent stem cells (iPSCs) from human dermal fibroblasts (HDFs) and then differentiated them into neural progenitor cells (NPCs) and mature neurons by dual SMAD signaling inhibitors. Reprogramming efficiency was improved by supplementing the histone deacethylase inhibitor,valproic acid (VPA),and inhibitor of p160-Rho associated coiled-coil kinase (ROCK),Y-27632,after retroviral transduction. We obtained a number of iPS colonies that shared similar characteristics with human embryonic stem cells in terms of their morphology,cell surface antigens,pluripotency-associated gene and protein expressions as well as their in vitro and in vivo differentiation potentials. After treatment with Noggin and SB431542,inhibitors of the SMAD signaling pathway,HDF-iPSCs demonstrated rapid and efficient differentiation into neural lineages. Six days after neural induction,neuroepithelial cells (NEPCs) were observed in the adherent monolayer culture,which had the ability to differentiate further into NPCs and neurons,as characterized by their morphology and the expression of neuron-specific transcripts and proteins. We propose that our study may be applied to generate neurological disease patient-specific iPSCs allowing better understanding of disease pathogenesis and drug sensitivity assays. View Publication

Hypoxia augments human embryonic stem cell (hESC) self-renewal via hypoxia-inducible factor 2??-activated OCT4 transcription. Hypoxia also increases the efficiency of reprogramming differentiated cells to a pluripotent-like state. Combined,these findings suggest that low O2 tension would impair the purposeful differentiation of pluripotent stem cells. Here,we show that low O2 tension and hypoxiainducible factor (HIF) activity instead promote appropriate hESC differentiation. Through gain- and loss-of-function studies,we implicate O2 tension as a modifier of a key cell fate decision,namely whether neural progenitors differentiate toward neurons or glia. Furthermore,our data show that even transient changes in O2 concentration can affect cell fate through HIF by regulating the activity of MYC,a regulator of LIN28/let-7 that is critical for fate decisions in the neural lineage.We also identify key small molecules that can take advantage of this pathway to quickly and efficiently promote the development of mature cell types. View Publication

Erythropoietin (EPO) regulates the proliferation and differentiation of erythroid cells by binding to its specific transmembrane receptor (EPOR). The presence of EPO and its receptor in the CNS suggests a different function for EPO other than erythropoiesis. The purpose of the present study was to examine EPOR expression and the role of EPO in the proliferation of neonatal spinal cord-derived neural progenitor cells. The effect of EPO on cell cycle progression was also examined,as well as the signaling cascades involved in this process. Our results showed that EPOR was present in the neural progenitor cells and EPO significantly enhanced their proliferation. Cell cycle analysis of EPO-treated neural progenitor cells indicated a reduced percentage of cells in G0/G1 phase,whereas the cell proliferation index (S phase plus G2/M phase) was increased. EPO also increased the proportion of 5-bromo-2-deoxyuridine (BrdU)-positive cells. With respect to the cell cycle signaling,we examined the cyclin-dependent kinases D1,D2 and E,and cyclin-dependent kinase inhibitors,p21cip1,p27kip1 and p57kip2. No significant differences were observed in the expression of these transcripts after EPO administration. Interestingly,the anti-apoptotic factors,mcl-1 and bcl-2 were significantly increased twofold. Moreover,these specific effects of EPO were eliminated by incubation of the progenitor cells with anti-EPO neutralizing antibody. Those observations suggested that EPO may play a role in normal spinal cord development by regulating cell proliferation and apoptosis. View Publication

Under appropriate conditions in culture,embryonic stem cells will differentiate and form embryoid bodies that have been shown to contain cells of the hematopoietic,endothelial,muscle and neuronal lineages. Many aspects of the lineage-specific differentiation programs observed within the embryoid bodies reflect those found in the embryo,indicating that this model system provides access to early cell populations that develop in a normal fashion. Recent studies involving the differentiation of genetically altered embryonic stem cells highlight the potential of this in vitro differentiation system for defining the function of genes in early development. View Publication

We here report that doxycycline,an antibacterial agent,exerts dramatic effects on human embryonic stem and induced pluripotent stem cells (hESC/iPSCs) survival and self-renewal. The survival-promoting effect was also manifest in cultures of neural stem cells (NSCs) derived from hESC/iPSCs. These doxycycline effects are not associated with its antibacterial action,but mediated by direct activation of a PI3K-AKT intracellular signal. These findings indicate doxycycline as a useful supplement for stem cell cultures,facilitating their growth and maintenance. View Publication

MED13L is a component subunit of the Mediator complex,an important regulator of transcription that is highly conserved across eukaryotes. Here we report MED13L disruption in a translocation t(12;19) breakpoint of a patient with Pierre-Robin syndrome,moderate intellectual disability (ID),craniofacial anomalies,and muscular defects. The phenotype is similar to previously described patients with MED13L haploinsufficiency. Knockdown of MED13L orthologue in zebrafish,med13b,showed early defective migration of cranial neural crest cells (NCCs) that contributed into cartilage structure deformities in the later stage,recapitulating craniofacial anomalies seen in human patients. Notably,we observed abnormal distribution of developing neurons in different brain regions of med13b morphant embryos,which could be rescued upon introduction of full-length human MED13L mRNA. To compare with mammalian system,we suppressed MED13L expression by short-hairpin RNA in ES-derived human neural progenitors,and differentiated them into neurons. Transcriptome analysis revealed differential expression of components of Wnt and FGF signalling pathways in MED13L-deficient neurons. Our finding provides a novel insight into the mechanism of overlapping phenotypic outcome targeting NCCs derivatives organs in patients with MED13L haploinsufficiency,and emphasizes a clinically recognizable syndromic phenotype in these patients. This article is protected by copyright. All rights reserved. View Publication