技术资料

We have previously identified multipotent neuroepithelial (NEP) stem cells and lineage-restricted,self-renewing precursor cells termed NRPs (neuron-restricted precursors) and GRPs (glial-restricted precursors) present in the developing rat spinal cord (A. Kalyani,K. Hobson,and M. S. Rao,1997,Dev. Biol. 186,202-223; M. S. Rao and M. Mayer-Proschel,1997,Dev. Biol. 188,48-63; M. Mayer-Proschel,A. J. Kalyani,T. Mujtaba,and M. S. Rao,1997,Neuron 19,773-785). We now show that cells identical to rat NEPs,NRPs,and GRPs are present in mouse neural tubes and that immunoselection against cell surface markers E-NCAM and A2B5 can be used to isolate NRPs and GRPs,respectively. Restricted precursors similar to NRPs and GRPs can also be isolated from mouse embryonic stem cells (ES cells). ES cell-derived NRPs are E-NCAM immunoreactive,undergo self-renewal in defined medium,and differentiate into multiple neuronal phenotypes in mass culture. ES cells also generate A2B5-immunoreactive cells that are similar to E9 NEP-cell-derived GRPs and can differentiate into oligodendrocytes and astrocytes. Thus,lineage restricted precursors can be generated in vitro from cultured ES cells and these restricted precursors resemble those derived from mouse neural tubes. These results demonstrate the utility of using ES cells as a source of late embryonic precursor cells. View Publication

Here,we show that as human embryonic stem cells (ESCs) exit the pluripotent state,NANOG can play a key role in determining lineage outcome. It has previously been reported that BMPs induce differentiation of human ESCs into extraembryonic lineages. Here,we find that FGF2,acting through the MEK-ERK pathway,switches BMP4-induced human ESC differentiation outcome to mesendoderm,characterized by the uniform expression of T (brachyury) and other primitive streak markers. We also find that MEK-ERK signaling prolongs NANOG expression during BMP-induced differentiation,that forced NANOG expression results in FGF-independent BMP4 induction of mesendoderm,and that knockdown of NANOG greatly reduces T induction. Together,our results demonstrate that FGF2 signaling switches the outcome of BMP4-induced differentiation of human ESCs by maintaining NANOG levels through the MEK-ERK pathway. View Publication

Although the source of embryonic stem (ES) cells presents ethical concerns,their use may lead to many clinical benefits if differentiated cell types can be derived from them and used to assemble functional organs. In pancreas,insulin is produced and secreted by specialized structures,islets of Langerhans. Diabetes,which affects 16 million people in the United States,results from abnormal function of pancreatic islets. We have generated cells expressing insulin and other pancreatic endocrine hormones from mouse ES cells. The cells self-assemble to form three-dimensional clusters similar in topology to normal pancreatic islets where pancreatic cell types are in close association with neurons. Glucose triggers insulin release from these cell clusters by mechanisms similar to those employed in vivo. When injected into diabetic mice,the insulin-producing cells undergo rapid vascularization and maintain a clustered,islet-like organization. View Publication

Synthetic materials that promote the growth or differentiation of cells have advanced the fields of tissue engineering and regenerative medicine. Most functional biomaterials are based on a handful of peptide sequences derived from protein ligands for cell surface receptors. Because few proteins possess short peptide sequences that alone can engage cell surface receptors,the repertoire of receptors that can be targeted with this approach is limited. Materials that bind diverse classes of receptors,however,may be needed to guide cell growth and differentiation. To provide access to such new materials,we utilized phage display to identify novel peptides that bind to the surface of pluripotent cells. Using human embryonal carcinoma (EC) cells as bait,approximately 3 x 10(4) potential cell-binding phage clones were isolated. The pool was narrowed using an enzyme-linked immunoassay: 370 clones were tested,and seven cell-binding peptides were identified. Of these,six sequences possess EC cell-binding ability. Specifically,when displayed by self-assembled monolayers (SAMs) of alkanethiols on gold,they mediate cell adhesion. The corresponding soluble peptides block this adhesion,indicating that the identified peptide sequences are specific. They also are functional. Synthetic surfaces displaying phage-derived peptides support growth of undifferentiated human embryonic stem (ES) cells. When these cells were cultured on SAMs presenting the sequence TVKHRPDALHPQ or LTTAPKLPKVTR in a chemically defined medium (mTeSR),they expressed markers of pluripotency at levels similar to those of cells cultured on Matrigel. Our results indicate that this screening strategy is a productive avenue for the generation of materials that control the growth and differentiation of cells. View Publication

A potential application of embryonic and inducible pluripotent stem cells for the therapy of degenerative diseases involves pure somatic cells,free of tumorigenic undifferentiated embryonic and inducible pluripotent stem cells. In complex collections of chemicals with pharmacological potential we expect to find molecules able to induce specific pluripotent stem cell death,which could be used in some cell therapy settings to eliminate undifferentiated cells. Therefore,we have screened a chemical library of 1120 small chemicals to identify compounds that induce specifically apoptotic cell death in undifferentiated mouse embryonic stem cells (ESCs). Interestingly,three compounds currently used as clinically approved drugs,nortriptyline,benzethonium chloride and methylbenzethonium chloride,induced differential effects in cell viability in ESCs versus mouse embryonic fibroblasts (MEFs). Nortriptyline induced apoptotic cell death in MEFs but not in ESCs,whereas benzethonium and methylbenzethonium chloride showed the opposite effect. Nortriptyline,a tricyclic antidepressant,has also been described as a potent inhibitor of mitochondrial permeability transition,one of two major mechanisms involved in mitochondrial membrane permeabilization during apoptosis. Benzethonium chloride and methylbenzethonium chloride are quaternary ammonium salts used as antimicrobial agents with broad spectrum and have also been described as anticancer agents. A similar effect of benzethonium chloride was observed in human induced pluripotent stem cells (hiPSCs) when compared to both primary human skin fibroblasts and an established human fibroblast cell line. Human fibroblasts and hiPSCs were similarly resistant to nortriptyline,although with a different behavior. Our results indicate differential sensitivity of ESCs,hiPSCs and fibroblasts to certain chemical compounds,which might have important applications in the stem cell-based therapy by eliminating undifferentiated pluripotent stem cells from stem cell-derived somatic cells to prevent tumor formation after transplantation for therapy of degenerative diseases. View Publication

Somatic cell nuclear transfer,cell fusion,or expression of lineage-specific factors have been shown to induce cell-fate changes in diverse somatic cell types. We recently observed that forced expression of a combination of three transcription factors,Brn2 (also known as Pou3f2),Ascl1 and Myt1l,can efficiently convert mouse fibroblasts into functional induced neuronal (iN) cells. Here we show that the same three factors can generate functional neurons from human pluripotent stem cells as early as 6 days after transgene activation. When combined with the basic helix-loop-helix transcription factor NeuroD1,these factors could also convert fetal and postnatal human fibroblasts into iN cells showing typical neuronal morphologies and expressing multiple neuronal markers,even after downregulation of the exogenous transcription factors. Importantly,the vast majority of human iN cells were able to generate action potentials and many matured to receive synaptic contacts when co-cultured with primary mouse cortical neurons. Our data demonstrate that non-neural human somatic cells,as well as pluripotent stem cells,can be converted directly into neurons by lineage-determining transcription factors. These methods may facilitate robust generation of patient-specific human neurons for in vitro disease modelling or future applications in regenerative medicine. View Publication

Human pluripotent stem cells (PSCs),encompassing embryonic stem cells and induced pluripotent stem cells,proliferate extensively and differentiate into virtually any desired cell type. PSCs endow regenerative medicine with an unlimited source of replacement cells suitable for human therapy. Several hurdles must be carefully addressed in PSC research before these theoretical possibilities are translated into clinical applications. These obstacles are: (1) cell proliferation; (2) cell differentiation; (3) genetic integrity; (4) allogenicity; and (5) ethical issues. We discuss these issues and underline the fact that the answers to these questions lie in a better understanding of the biology of PSCs. To contribute to this aim,we have developed a free online expression atlas,Amazonia!,that displays for each human gene a virtual northern blot for PSC samples and adult tissues (http://www.amazonia.transcriptome.eu). View Publication

Pluripotent stem cells can be genetically labeled to facilitate differentiation studies. In this paper,we describe a gene-targeting protocol to knock in a GFP cassette into key gene loci in human pluripotent stem cells (hPSCs),and then use the genetically tagged hPSCs to guide in vitro differentiation,immunocytochemical and electrophysiological profiling and in vivo characterization after cell transplantation. The Olig transcription factors have key roles in the transcription regulatory pathways for the genesis of motor neurons (MNs) and oligodendrocytes (OLs). We have generated OLIG2-GFP hPSC reporter lines that reliably mark MNs and OLs for monitoring their sequential differentiation from hPSCs. The expression of the GFP reporter recapitulates the endogenous expression of OLIG genes. The in vitro characterization of fluorescence-activated cell sorting-purified cells is consistent with cells of the MN or OL lineages,depending on the stages at which they are collected. This protocol is efficient and reliable and usually takes 5-7 months to complete. The genetic tagging-differentiation methodology used herein provides a general framework for similar work for differentiation of hPSCs into other lineages. View Publication

Use of animal feeder layers and serum containing media in the derivation and propagation of induced pluripotent stem cells (iPSCs) can hinder clinical translation,because of the presence of xeno-material/pathogens. A defined and standardized system would be ideal for generating a homogenous population of iPSCs,which closely resembles human embryonic stem cells (hESCs). This article presents a novel and extensive comparison between in-house produced iPSCs and hESCs under feeder" and "feeder-free" conditions� View Publication

The term laminopathies defines a group of genetic disorders caused by defects in the nuclear envelope,mostly the lamins. Lamins are the main constituents of the nuclear lamina,a filamentous meshwork associated with the inner nuclear membrane that provides mechanical stability and plays important roles in processes such as transcription,DNA replication and chromatin organization. More than 300 mutations inlamin A/C have been associated with diverse clinical phenotypes,understanding the molecular basis of these diseases may provide a rationale for treating them. Here we describe the generation of induced pluripotent stem cells (iPSCs) from a patient with inherited dilated cardiomiopathy and 2 patients with distinct accelerated forms of aging,atypical Werner syndrome and Hutchinson Gilford progeria,all of which are caused by mutations in lamin A/C. These cell lines were pluripotent and displayed normal nuclear membrane morphology compared to donor fibroblasts. Their differentiated progeny reproduced the disease phenotype,reinforcing the idea that they represent excellent tools for understanding the role of lamin A/C in normal physiology and the clinical diversity associated with these diseases. View Publication

Age-related macular degeneration (AMD) is one of the major causes of blindness in aging population that progresses with death of retinal pigment epithelium (RPE) and photoreceptor degeneration inducing impairment of central vision. Discovery of human induced pluripotent stem (hiPS) cells has opened new avenues for the treatment of degenerative diseases using patient-specific stem cells to generate tissues and cells for autologous cell-based therapy. Recently,RPE cells were generated from hiPS cells. However,there is no evidence that those hiPS-derived RPE possess specific RPE functions that fully distinguish them from other types of cells. Here,we show for the first time that RPE generated from hiPS cells under defined conditions exhibit ion transport,membrane potential,polarized vascular endothelial growth factor secretion,and gene expression profile similar to those of native RPE. The hiPS-RPE could therefore be a very good candidate for RPE replacement therapy in AMD. However,these cells show rapid telomere shortening,DNA chromosomal damage,and increased p21 expression that cause cell growth arrest. This rapid senescence might affect the survival of the transplanted cells in vivo and therefore,only the very early passages should be used for regeneration therapies. Future research needs to focus on the generation of safe" as well as viable hiPS-derived somatic cells." View Publication