技术资料

The identification of stem cells within a mixed population of cells is a major hurdle for stem cell biology--in particular,in the identification of induced pluripotent stem (iPS) cells during the reprogramming process. Based on the selective expression of stem cell surface markers,a method to specifically infect stem cells through antibody-conjugated lentiviral particles has been developed that can deliver both visual markers for live-cell imaging as well as selectable markers to enrich for iPS cells. Antibodies recognizing SSEA4 and CD24 mediated the selective infection of the iPS cells over the parental human fibroblasts,allowing for rapid expansion of these cells by puromycin selection. Adaptation of the vector allows for the selective marking of human embryonic stem (hES) cells for their removal from a population of differentiated cells. This method has the benefit that it not only identifies stem cells,but that specific genes,including positive and negative selection markers,regulatory genes or miRNA can be delivered to the targeted stem cells. The ability to specifically target gene delivery to human pluripotent stem cells has broad applications in tissue engineering and stem cell therapies. View Publication

The advance in stem cell research relies largely on the efficiency and biocompatibility of technologies used to manipulate stem cells. In our previous study,we had designed an amphipathic peptide RV24 that can deliver proteins into cancer cell lines efficiently without significant side effects. Encouraged by this observation,we moved forward to test whether RV24 could be used to deliver proteins into human embryonic stem cells and human induced pluripotent stem cells. RV24 successfully mediated protein delivery into these pluripotent stem cells,as well as their derivatives including neural stem cells and dendritic cells. Based on NMR studies and particle surface charge measurements,we proposed that hydrophobic domain of RV24 interacts with ??-sheet structures of the proteins,followed by formation of peptide cage" to facilitate delivery across cellular membrane. These findings suggest the feasibility of using amphipathic peptide to deliver functional proteins intracellularly for stem cell research. ?? 2012 Elsevier Inc." View Publication

Naturally occurring regulatory T cells (Tregs) maintain self tolerance by dominant suppression of potentially self-reactive T cells in peripheral tissues. However,the activation requirements,the temporal aspects of the suppressive activity,and mode of action of human Tregs are subjects of controversy. In this study,we show that Tregs display significant variability in the suppressive activity ex vivo as 54% of healthy blood donors examined had fully suppressive Tregs spontaneously,whereas in the remaining donors,anti-CD3/CD2/CD28 stimulation was required for Treg suppressive activity. Furthermore,anti-CD3/CD2/CD28 stimulation for 6 h and subsequent fixation in paraformaldehyde rendered the Tregs fully suppressive in all donors. The fixation-resistant suppressive activity of Tregs operated in a contact-dependent manner that was not dependent on APCs,but could be fully obliterated by trypsin treatment,indicating that a cell surface protein is directly involved. By add-back of active,fixed Tregs at different time points after activation of responding T cells,the responder cells were susceptible to Treg-mediated immune suppression up to 24 h after stimulation. This defines a time window in which effector T cells are susceptible to Treg-mediated immune suppression. Lastly,we examined the effect of a set of signaling inhibitors that perturb effector T cell activation and found that none of the examined inhibitors affected Treg activation,indicating pathway redundancy or that Treg activation proceeds by signaling mechanisms distinct from those of effector T cells. View Publication

Adult neurogenesis occurs throughout life in the mammalian hippocampus and is essential for memory and mood control. There is significant interest in identifying ways to promote neurogenesis and ensure maintenance of these hippocampal functions. Previous work with a synthetic small molecule,isoxazole 9 (Isx-9),highlighted its neuronal-differentiating properties in vitro. However,the ability of Isx-9 to drive neurogenesis in vivo or improve hippocampal function was unknown. Here we show that Isx-9 promotes neurogenesis in vivo,enhancing the proliferation and differentiation of hippocampal subgranular zone (SGZ) neuroblasts,and the dendritic arborization of adult-generated dentate gyrus neurons. Isx-9 also improves hippocampal function,enhancing memory in the Morris water maze. Notably,Isx-9 enhances neurogenesis and memory without detectable increases in cellular or animal activity or vascularization. Molecular exploration of Isx-9-induced regulation of neurogenesis (via FACS and microarray of SGZ stem and progenitor cells) suggested the involvement of the myocyte-enhancer family of proteins (Mef2). Indeed,transgenic-mediated inducible knockout of all brain-enriched Mef2 isoforms (Mef2a/c/d) specifically from neural stem cells and their progeny confirmed Mef2's requirement for Isx-9-induced increase in hippocampal neurogenesis. Thus,Isx-9 enhances hippocampal neurogenesis and memory in vivo,and its effects are reliant on Mef2,revealing a novel cell-intrinsic molecular pathway regulating adult neurogenesis. View Publication

Substrates used to culture human embryonic stem cells (hESCs) are typically 2-dimensional (2-D) in nature,with limited ability to recapitulate in vivo-like 3-dimensional (3-D) microenvironments. We examined critical determinants of hESC self-renewal in poly-d-lysine-pretreated synthetic polymer-based substrates with variable microgeometries,including planar 2-D films,macroporous 3-D sponges,and microfibrous 3-D fiber mats. Completely synthetic 2-D substrates and 3-D macroporous scaffolds failed to retain hESCs or support self-renewal or differentiation. However,synthetic microfibrous geometries made from electrospun polymer fibers were found to promote cell adhesion,viability,proliferation,self-renewal,and directed differentiation of hESCs in the absence of any exogenous matrix proteins. Mechanistic studies of hESC adhesion within microfibrous scaffolds indicated that enhanced cell confinement in such geometries increased cell-cell contacts and altered colony organization. Moreover,the microfibrous scaffolds also induced hESCs to deposit and organize extracellular matrix proteins like laminin such that the distribution of laminin was more closely associated with the cells than the Matrigel treatment,where the laminin remained associated with the coated fibers. The production of and binding to laminin was critical for formation of viable hESC colonies on synthetic fibrous scaffolds. Thus,synthetic substrates with specific 3-D microgeometries can support hESC colony formation,self-renewal,and directed differentiation to multiple lineages while obviating the stringent needs for complex,exogenous matrices. Similar scaffolds could serve as tools for developmental biology studies in 3-D and for stem cell differentiation in situ and transplantation using defined humanized conditions. View Publication

Embryonic and induced pluripotent stem cells (IPSCs) derived from mammalian species are valuable tools for modeling human disease,including retinal degenerative eye diseases that result in visual loss. Restoration of vision has focused on transplantation of neural progenitor cells (NPCs) and retinal pigmented epithelium (RPE) to the retina. Here we used transgenic common marmoset (Callithrix jacchus) and human pluripotent stem cells carrying the enhanced green fluorescent protein (eGFP) reporter as a model system for retinal differentiation. Using suspension and subsequent adherent differentiation cultures,we observed spontaneous in vitro differentiation that included NPCs and cells with pigment granules characteristic of differentiated RPE. Retinal cells derived from human and common marmoset pluripotent stem cells provide potentially unlimited cell sources for testing safety and immune compatibility following autologous or allogeneic transplantation using nonhuman primates in early translational applications. View Publication

We report on a forward RNAi screen in primary human hematopoietic stem and progenitor cells,using pooled lentiviral shRNA libraries deconvoluted by next generation sequencing. We identify MAPK14/p38α as a modulator of ex vivo stem cell proliferation and show that pharmacologic inhibition of p38 dramatically enhances the stem cell activity of cultured umbilical cord blood derived hematopoietic cells. p38 inhibitors should thus be considered in strategies aiming at expanding stem cells for clinical benefit. View Publication

Although distinct human induced pluripotent stem cell (hiPSC) lines can display considerable epigenetic variation,it has been unclear whether such variability impacts their utility for disease modeling. Here,we show that although low-passage female hiPSCs retain the inactive X chromosome of the somatic cell they are derived from,over time in culture they undergo an erosion" of X chromosome inactivation (XCI). This erosion of XCI is characterized by loss of XIST expression and foci of H3-K27-trimethylation� View Publication

A major obstacle in the application of cell-based therapies for the treatment of neuromuscular disorders is obtaining the appropriate number of stem/progenitor cells to produce effective engraftment. The use of embryonic stem (ES) or induced pluripotent stem (iPS) cells could overcome this hurdle. However,to date,derivation of engraftable skeletal muscle precursors that can restore muscle function from human pluripotent cells has not been achieved. Here we applied conditional expression of PAX7 in human ES/iPS cells to successfully derive large quantities of myogenic precursors,which,upon transplantation into dystrophic muscle,are able to engraft efficiently,producing abundant human-derived DYSTROPHIN-positive myofibers that exhibit superior strength. Importantly,transplanted cells also seed the muscle satellite cell compartment,and engraftment is present over 11 months posttransplant. This study provides the proof of principle for the derivation of functional skeletal myogenic progenitors from human ES/iPS cells and highlights their potential for future therapeutic application in muscular dystrophies. View Publication

Human embryonic stem (hES) cells activate a rapid apoptotic response after DNA damage but the underlying mechanisms are unknown. A critical mediator of apoptosis is Bax,which is reported to become active and translocate to the mitochondria only after apoptotic stimuli. Here we show that undifferentiated hES cells constitutively maintain Bax in its active conformation. Surprisingly,active Bax was maintained at the Golgi rather than at the mitochondria,thus allowing hES cells to effectively minimize the risks associated with having preactivated Bax. After DNA damage,active Bax rapidly translocated to the mitochondria by a p53-dependent mechanism. Interestingly,upon differentiation,Bax was no longer active,and cells were not acutely sensitive to DNA damage. Thus,maintenance of Bax in its active form is a unique mechanism that can prime hES cells for rapid death,likely to prevent the propagation of mutations during the early critical stages of embryonic development. View Publication

Inner ear hair cells are specialized sensory cells essential for auditory function. Previous studies have shown that the sensory epithelium is postmitotic,but it harbors cells that can behave as progenitor cells in vitro,including the ability to form new hair cells. Lgr5,a Wnt target gene,marks distinct supporting cell types in the neonatal cochlea. Here,we tested the hypothesis that Lgr5(+) cells are Wnt-responsive sensory precursor cells. In contrast to their quiescent in vivo behavior,Lgr5(+) cells isolated by flow cytometry from neonatal Lgr5(EGFP-CreERT2/+) mice proliferated and formed clonal colonies. After 10 d in culture,new sensory cells formed and displayed specific hair cell markers (myo7a,calretinin,parvalbumin,myo6) and stereocilia-like structures expressing F-actin and espin. In comparison with other supporting cells,Lgr5(+) cells were enriched precursors to myo7a(+) cells,most of which formed without mitotic division. Treatment with Wnt agonists increased proliferation and colony-formation capacity. Conversely,small-molecule inhibitors of Wnt signaling suppressed proliferation without compromising the myo7a(+) cells formed by direct differentiation. In vivo lineage tracing supported the idea that Lgr5(+) cells give rise to myo7a(+) hair cells in the neonatal Lgr5(EGFP-CreERT2/+) cochlea. In addition,overexpression of β-catenin initiated proliferation and led to transient expansion of Lgr5(+) cells within the cochlear sensory epithelium. These results suggest that Lgr5 marks sensory precursors and that Wnt signaling can promote their proliferation and provide mechanistic insights into Wnt-responsive progenitor cells during sensory organ development. View Publication

Efficient in vitro differentiation into specific cell types is more important than ever after the breakthrough in nuclear reprogramming of somatic cells and its potential for disease modeling and drug screening. Key success factors for neuronal differentiation are the yield of desired neuronal marker expression,reproducibility,length,and cost. Three main neuronal differentiation approaches are stromal-induced neuronal differentiation,embryoid body (EB) differentiation,and direct neuronal differentiation. Here,we describe our neurodifferentiation protocol using small molecules that very efficiently promote neural induction in a 5-stage EB protocol from six induced pluripotent stem cells (iPSC) lines from patients with Parkinson's disease and controls. This protocol generates neural precursors using Dorsomorphin and SB431542 and further maturation into dopaminergic neurons by replacing sonic hedgehog with purmorphamine or smoothened agonist. The advantage of this approach is that all patient-specific iPSC lines tested in this study were successfully and consistently coaxed into the neural lineage. View Publication