Boucherie C et al. (FEB 2013)
Stem Cells 31 2 408--414
Brief Report: Self-Organizing Neuroepithelium from Human Pluripotent Stem Cells Facilitates Derivation of Photoreceptors
Retinitis pigmentosa,other inherited retinal diseases,and age-related macular degeneration lead to untreatable blindness because of the loss of photoreceptors. We have recently shown that transplantation of mouse photoreceptors can result in improved vision. It is therefore timely to develop protocols for efficient derivation of photoreceptors from human pluripotent stem (hPS) cells. Current methods for photoreceptor derivation from hPS cells require long periods of culture and are rather inefficient. Here,we report that formation of a transient self-organized neuroepithelium from human embryonic stem cells cultured together with extracellular matrix is sufficient to induce a rapid conversion into retinal progenitors in 5 days. These retinal progenitors have the ability to differentiate very efficiently into Crx+ photoreceptor precursors after only 10 days and subsequently acquire rod photoreceptor identity within 4 weeks. Directed differentiation into photoreceptors using this protocol is also possible with human-induced pluripotent stem (hiPS) cells,facilitating the use of patient-specific hiPS cell lines for regenerative medicine and disease modeling. STEM CELLS2013;31:408–414
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Meuleman W et al. (FEB 2013)
Genome Research 23 2 270--280
Constitutive nuclear lamina-genome interactions are highly conserved and associated with A/T-rich sequence
In metazoans,the nuclear lamina is thought to play an important role in the spatial organization of interphase chromosomes,by providing anchoring sites for large genomic segments named lamina-associated domains (LADs). Some of these LADs are cell-type specific,while many others appear constitutively associated with the lamina. Constitutive LADs (cLADs) may contribute to a basal chromosome architecture. By comparison of mouse and human lamina interaction maps,we find that the sizes and genomic positions of cLADs are strongly conserved. Moreover,cLADs are depleted of synteny breakpoints,pointing to evolutionary selective pressure to keep cLADs intact. Paradoxically,the overall sequence conservation is low for cLADs. Instead,cLADs are universally characterized by long stretches of DNA of high A/T content. Cell-type specific LADs also tend to adhere to this A/T rule" in embryonic stem cells�
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O'Reilly D et al. (FEB 2013)
Genome Research 23 2 281--291
Differentially expressed, variant U1 snRNAs regulate gene expression in human cells
Human U1 small nuclear (sn)RNA,required for splicing of pre-mRNA,is encoded by genes on chromosome 1 (1p36). Imperfect copies of these U1 snRNA genes,also located on chromosome 1 (1q12-21),were thought to be pseudogenes. However,many of these variant" (v)U1 snRNA genes produce fully processed transcripts. Using antisense oligonucleotides to block the activity of a specific vU1 snRNA in HeLa cells�
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Ozair MZ et al. (JAN 2013)
STEM CELLS 31 1 35--47
SMAD7 directly converts human embryonic stem cells to telencephalic fate by a default mechanism
Human embryonic stem cells (hESCs) provide a valuable window into the dissection of the molecular circuitry underlying the early formation of the human forebrain. However,dissection of signaling events in forebrain development using current protocols is complicated by non-neural contamination and fluctuation of extrinsic influences. Here,we show that SMAD7,a cell-intrinsic inhibitor of transforming growth factor-β (TGFβ) signaling,is sufficient to directly convert pluripotent hESCs to an anterior neural fate. Time course gene expression revealed downregulation of MAPK components,and combining MEK1/2 inhibition with SMAD7-mediated TGFβ inhibition promoted telencephalic conversion. Fibroblast growth factor-MEK and TGFβ-SMAD signaling maintain hESCs by promoting pluripotency genes and repressing neural genes. Our findings suggest that in the absence of these cues,pluripotent cells simply revert to a program of neural conversion. Hence,the primed" state of hESCs requires inhibition of the "default" state of neural fate acquisition. This has parallels in amphibians�
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Ruiz S et al. (NOV 2012)
Journal of Biological Chemistry 287 48 40767--40778
Generation of a drug-inducible reporter system to study cell reprogramming in human cells
BACKGROUND Strategies on the basis of doxycycline-inducible lentiviruses in mouse cells allowed the examination of mechanisms governing somatic cell reprogramming. RESULTS Using a doxycycline-inducible human reprogramming system,we identified unreported miRs enhancing reprogramming efficiency. CONCLUSION We generated a drug-inducible human reprogramming reporter system as an invaluable tool for genetic or chemical screenings. SIGNIFICANCE These cellular systems provide a tool to enable the advancement of reprogramming technologies in human cells. Reprogramming of somatic cells into induced pluripotent stem cells is achieved by the expression of defined transcription factors. In the last few years,reprogramming strategies on the basis of doxycycline-inducible lentiviruses in mouse cells became highly powerful for screening purposes when the expression of a GFP gene,driven by the reactivation of endogenous stem cell specific promoters,was used as a reprogramming reporter signal. However,similar reporter systems in human cells have not been generated. Here,we describe the derivation of drug-inducible human fibroblast-like cell lines that express different subsets of reprogramming factors containing a GFP gene under the expression of the endogenous OCT4 promoter. These cell lines can be used to screen functional substitutes for reprogramming factors or modifiers of reprogramming efficiency. As a proof of principle of this system,we performed a screening of a library of pluripotent-enriched microRNAs and identified hsa-miR-519a as a novel inducer of reprogramming efficiency.
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Lu HF et al. (DEC 2012)
Biomaterials 33 36 9179--87
Efficient neuronal differentiation and maturation of human pluripotent stem cells encapsulated in 3D microfibrous scaffolds.
Developing an efficient culture system for controlled human pluripotent stem cell (hPSC) differentiation into selected lineages is a major challenge in realizing stem cell-based clinical applications. Here,we report the use of chitin-alginate 3D microfibrous scaffolds,previously developed for hPSC propagation,to support efficient neuronal differentiation and maturation under chemically defined culture conditions. When treated with neural induction medium containing Noggin/retinoic acid,the encapsulated cells expressed much higher levels of neural progenitor markers SOX1 and PAX6 than those in other treatment conditions. Immunocytochemisty analysis confirmed that the majority of the differentiated cells were nestin-positive cells. Subsequently transferring the scaffolds to neuronal differentiation medium efficiently directed these encapsulated neural progenitors into mature neurons,as detected by RT-PCR and positive immunostaining for neuron markers βIII tubulin and MAP2. Furthermore,flow cytometry confirmed that textgreater90% βIII tubulin-positive neurons was achieved for three independent iPSC and hESC lines,a differentiation efficiency much higher than previously reported. Implantation of these terminally differentiated neurons into SCID mice yielded successful neural grafts comprising MAP2 positive neurons,without tumorigenesis,suggesting a potential safe cell source for regenerative medicine. These results bring us one step closer toward realizing large-scale production of stem cell derivatives for clinical and translational applications.
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Vilchez D et al. (SEP 2012)
Nature 489 7415 304--308
Increased proteasome activity in human embryonic stem cells is regulated by PSMD11
Embryonic stem cells can replicate continuously in the absence of senescence and,therefore,are immortal in culture. Although genome stability is essential for the survival of stem cells,proteome stability may have an equally important role in stem-cell identity and function. Furthermore,with the asymmetric divisions invoked by stem cells,the passage of damaged proteins to daughter cells could potentially destroy the resulting lineage of cells. Therefore,a firm understanding of how stem cells maintain their proteome is of central importance. Here we show that human embryonic stem cells (hESCs) exhibit high proteasome activity that is correlated with increased levels of the 19S proteasome subunit PSMD11 (known as RPN-6 in Caenorhabditis elegans) and a corresponding increased assembly of the 26S/30S proteasome. Ectopic expression of PSMD11 is sufficient to increase proteasome assembly and activity. FOXO4,an insulin/insulin-like growth factor-I (IGF-I) responsive transcription factor associated with long lifespan in invertebrates,regulates proteasome activity by modulating the expression of PSMD11 in hESCs. Proteasome inhibition in hESCs affects the expression of pluripotency markers and the levels of specific markers of the distinct germ layers. Our results suggest a new regulation of proteostasis in hESCs that links longevity and stress resistance in invertebrates to hESC function and identity.
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Li J-YY et al. (AUG 2012)
PLoS genetics 8 8 e1002879
Dynamic distribution of linker histone H1.5 in cellular differentiation.
Linker histones are essential components of chromatin,but the distributions and functions of many during cellular differentiation are not well understood. Here,we show that H1.5 binds to genic and intergenic regions,forming blocks of enrichment,in differentiated human cells from all three embryonic germ layers but not in embryonic stem cells. In differentiated cells,H1.5,but not H1.3,binds preferentially to genes that encode membrane and membrane-related proteins. Strikingly,37% of H1.5 target genes belong to gene family clusters,groups of homologous genes that are located in proximity to each other on chromosomes. H1.5 binding is associated with gene repression and is required for SIRT1 binding,H3K9me2 enrichment,and chromatin compaction. Depletion of H1.5 results in loss of SIRT1 and H3K9me2,increased chromatin accessibility,deregulation of gene expression,and decreased cell growth. Our data reveal for the first time a specific and novel function for linker histone subtype H1.5 in maintenance of condensed chromatin at defined gene families in differentiated human cells.
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Lie K-HH et al. (JAN 2012)
Methods in molecular biology (Clifton,N.J.) 873 237--246
Derivation, propagation, and characterization of neuroprogenitors from pluripotent stem cells (hESCs and hiPSCs).
The differentiation of human embryonic stem cells (hESCs) and human-induced pluripotent stem cells (hiPSCs) towards functional neurons particularly hold great potential for the cell-based replacement therapy in neurodegenerative diseases. Here,we describe a stepwise differentiation protocol that mimics the early stage of neural development in human to promote the generation of neuroprogenitors at a high yield. Both the hESCs and hiPSCs are initially cultured in an optimized feeder-free condition,which offer an efficient formation of aggregates. To specify the neuroectodermal specification,these aggregates are differentiated in a defined neural induction medium to develop into neural rosettes-like structures. The rosettes are expanded into free-floating sphere and can be further propagated or developed into variety of neuronal subtypes.
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Dispase(5 U/mL)
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Krawetz R and Rancourt DE (JAN 2012)
Methods in molecular biology (Clifton,N.J.) 873 227--235
Suspension bioreactor expansion of undifferentiated human embryonic stem cells
Embryonic stem cells (ESCs) are unique cells,which have the ability to differentiate into all cell types that comprise the adult organism. Furthermore,ESCs can infinitely self-renew under optimized conditions. These features place human ESCs (hESCs) in a position where these cells can be exploited for tissue engineering and regenerative medicine approaches in treating human degenerative disorders. However,cell therapy approaches will require large amounts of clinically useable cells,not typically achievable using standard static cell culture methods. Here,we describe a method wherein clinically relevant numbers of hESCs can be generated in a cost and time effective manner.
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Kovarova M and Koller B (APR 2012)
Current protocols in immunology / edited by John E. Coligan ... [et al.] Chapter 22 Unit 22F.10.1--16
Differentiation of mast cells from embryonic stem cells.
In this unit,we describe a simple coculture-free method for obtaining mast cells from mouse and human embryonic stem (ES) cells. Much of our knowledge regarding the mechanisms by which mast cells are activated comes from studies of mouse bone marrow-derived mast cells. Studies of human mast cells have been hampered by the limited sources from which they can be cultured,the difficulty in introducing specific genetic changes into these cells,and differences between established cultures that reflect the unique genetic makeup of the tissue donor. Derivation of mast cells from embryonic stem cells addresses these limitations. ES-derived mast cells can be generated in numbers sufficient for studies of the pathways involved in mast cell effector functions. These ES cell-derived mast cells respond to antigens and other stimuli by releasing histamine,cytokines,lipids,and other bioactive mediators. The derivation of human mast cells from ES cells carrying mutations introduced by homologous recombination should provide a novel means of testing the function of genes in both the development and the effector functions of mast cells.
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Carlson AL et al. (AUG 2012)
FASEB journal : official publication of the Federation of American Societies for Experimental Biology 26 8 3240--51
Microfibrous substrate geometry as a critical trigger for organization, self-renewal, and differentiation of human embryonic stem cells within synthetic 3-dimensional microenvironments.
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.
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