Lei IL et al. (JAN 2015)
Journal of visualized experiments : JoVE January 52047. doi: 10.3791/52047.
Derivation of cardiac progenitor cells from embryonic stem cells.
Cardiac progenitor cells (CPCs) have the capacity to differentiate into cardiomyocytes,smooth muscle cells (SMC),and endothelial cells and hold great promise in cell therapy against heart disease. Among various methods to isolate CPCs,differentiation of embryonic stem cell (ESC) into CPCs attracts great attention in the field since ESCs can provide unlimited cell source. As a result,numerous strategies have been developed to derive CPCs from ESCs. In this protocol,differentiation and purification of embryonic CPCs from both mouse and human ESCs is described. Due to the difficulty of using cell surface markers to isolate embryonic CPCs,ESCs are engineered with fluorescent reporters activated by CPC-specific cre recombinase expression. Thus,CPCs can be enriched by fluorescence-activated cell sorting (FACS). This protocol illustrates procedures to form embryoid bodies (EBs) from ESCs for CPC specification and enrichment. The isolated CPCs can be subsequently cultured for cardiac lineage differentiation and other biological assays. This protocol is optimized for robust and efficient derivation of CPCs from both mouse and human ESCs.
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Tafaleng EN et al. (JUL 2015)
Hepatology 62 1 147--157
Induced pluripotent stem cells model personalized variations in liver disease resulting from $\$1-antitrypsin deficiency.
UNLABELLED In the classical form of $\$1-antitrypsin deficiency (ATD),aberrant intracellular accumulation of misfolded mutant $\$1-antitrypsin Z (ATZ) in hepatocytes causes hepatic damage by a gain-of-function,proteotoxic" mechanism. Whereas some ATD patients develop severe liver disease (SLD) that necessitates liver transplantation�
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Li Y et al. (MAR 2015)
PLoS ONE 10 3 e0118266
A comprehensive library of familial human amyotrophic lateral sclerosis induced pluripotent stem cells
Amyotrophic lateral sclerosis is a progressive disease characterized by the loss of upper and lower motor neurons,leading to paralysis of voluntary muscles. About 10% of all ALS cases are familial (fALS),among which 15-20% are linked to Cu/Zn superoxide dismutase (SOD1) mutations,usually inherited in an autosomal dominant manner. To date only one FDA approved drug is available which increases survival moderately. Our understanding of ALS disease mechanisms is largely derived from rodent model studies,however due to the differences between rodents and humans,it is necessary to have humanized models for studies of disease pathogenesis as well as drug development. Therefore,we generated a comprehensive library of a total 22 of fALS patient-specific induced pluripotent stem cell (iPSC) lines. These cells were thoroughly characterized before being deposited into the library. The library of cells includes a variety of C9orf72 mutations,sod1 mutations,FUS,ANG and FIG4 mutations. Certain mutations are represented with more than one line,which allows for studies of variable genetic backgrounds. In addition,these iPSCs can be successfully differentiated to astroglia,a cell type known to play a critical role in ALS disease progression. This library represents a comprehensive resource that can be used for ALS disease modeling and the development of novel therapeutics.
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Dispase (1 U/mL)
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Wang S et al. (MAR 2015)
Sci Rep 5 9232
Differentiation of human induced pluripotent stem cells to mature functional Purkinje neurons.
It remains a challenge to differentiate human induced pluripotent stem cells (iPSCs) or embryonic stem (ES) cells to Purkinje cells. In this study,we derived iPSCs from human fibroblasts and directed the specification of iPSCs first to Purkinje progenitors,by adding Fgf2 and insulin to the embryoid bodies (EBs) in a time-sensitive manner,which activates the endogenous production of Wnt1 and Fgf8 from EBs that further patterned the cells towards a midbrain-hindbrain-boundary tissue identity. Neph3-positive human Purkinje progenitors were sorted out by using flow cytometry and cultured either alone or with granule cell precursors,in a 2-dimensional or 3-dimensional environment. However,Purkinje progenitors failed to mature further under above conditions. By co-culturing human Purkinje progenitors with rat cerebellar slices,we observed mature Purkinje-like cells with right morphology and marker expression patterns,which yet showed no appropriate membrane properties. Co-culture with human fetal cerebellar slices drove the progenitors to not only morphologically correct but also electrophysiologically functional Purkinje neurons. Neph3-posotive human cells could also survive transplantation into the cerebellum of newborn immunodeficient mice and differentiate to L7- and Calbindin-positive neurons. Obtaining mature human Purkinje cells in vitro has significant implications in studying the mechanisms of spinocerebellar ataxias and other cerebellar diseases.
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PDX1 binds and represses hepatic genes to ensure robust pancreatic commitment in differentiating human embryonic stem cells.
Inactivation of the Pancreatic and Duodenal Homeobox 1 (PDX1) gene causes pancreatic agenesis,which places PDX1 high atop the regulatory network controlling development of this indispensable organ. However,little is known about the identity of PDX1 transcriptional targets. We simulated pancreatic development by differentiating human embryonic stem cells (hESCs) into early pancreatic progenitors and subjected this cell population to PDX1 chromatin immunoprecipitation sequencing (ChIP-seq). We identified more than 350 genes bound by PDX1,whose expression was upregulated on day 17 of differentiation. This group included known PDX1 targets and many genes not previously linked to pancreatic development. ChIP-seq also revealed PDX1 occupancy at hepatic genes. We hypothesized that simultaneous PDX1-driven activation of pancreatic and repression of hepatic programs underlie early divergence between pancreas and liver. In HepG2 cells and differentiating hESCs,we found that PDX1 binds and suppresses expression of endogenous liver genes. These findings rebrand PDX1 as a context-dependent transcriptional repressor and activator within the same cell type.
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Rouzbeh S et al. (AUG 2015)
Stem Cells 33 8 2431--2441
Molecular signature of erythroblast enucleation in human embryonic stem cells.
While enucleation is a critical step in the terminal differentiationbackslashnof human red blood cells,the molecular mechanisms underlying thisbackslashnunique process remain unclear. To investigate erythroblast enucleationbackslashnwe studied the erythroid differentiation of human embryonic stembackslashncells (hESCs),which provide a unique model for deeper understandingbackslashnof the development and differentiation of multiple cell types. Firstly,backslashnusing a two-step protocol,we demonstrated that terminal erythroidbackslashndifferentiation from hESCs is directly dependent on the age of thebackslashnembryoid bodies. Secondly,by choosing hESCs in two extreme conditionsbackslashnof erythroid culture,we obtained an original differentiation modelbackslashnwhich allows one to study the mechanisms underlying the enucleationbackslashnof erythroid cells by analyzing the gene and miRNA (miR) expressionbackslashnprofiles of cells from these two culture conditions. Thirdly,usingbackslashnan integrated analysis of mRNA and miR expression profiles,we identifiedbackslashn5 miRs potentially involved in erythroblast enucleation. Finally,backslashnby selective knockdown of these 5 miRs we found miR-30a to be a regulatorbackslashnof erythroblast enucleation in hESCs. This article is protected bybackslashncopyright. All rights reserved.
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Hertsenberg AJ and Funderburgh JL ( 2015)
1341 285--294
Generation of corneal keratocytes from human embryonic stem cells
Human Embryonic Stem Cells (hESC) offer an important resource as a limitless supply of any differentiated cell type of the human body. Keratocytes,cells from the corneal stroma,may have the potential for restoration of vision in cell therapy and biomedical engineering applications,but these specialized cells are not readily expanded in vitro. Here we describe a two-part method to produce keratocytes from the H1 hESC cell line. The hESC cells,maintained and expanded in feeder-free culture medium are first differentiated to neural crest cells using the stromal-derived inducing activity (SDIA) of the PA6 mouse embryonic fibroblast cell line. The resulting neural crest cells are selected by their expression of cell-surface CD271 and subsequently cultured as 3D pellets in a defined differentiation medium to induce a keratocyte phenotype.
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Wu W et al. (JUN 2015)
Analytica chimica acta 881 124--30
Strand displacement amplification for ultrasensitive detection of human pluripotent stem cells.
Human pluripotent stem cells (hPSCs),such as embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs),provide a powerful model system for studies of cellular identity and early mammalian development,which hold great promise for regenerative medicine. It is necessary to develop a convenient method to discriminate hPSCs from other cells in clinics and basic research. Herein,a simple and reliable biosensor for stem cell detection was established. In this biosensor system,stage-specific embryonic antigen-3 (SSEA-3) and stage-specific embryonic antigen-4 (SSEA-4) were used to mark human pluripotent stem cells (hPSCs). Antibody specific for SSEA-3 was coated onto magnetic beads for hPSCs enrichment,and antibody specific for SSEA-4 was conjugated with carboxyl-modified tDNA sequence which was used as template for strand displacement amplification (SDA). The amplified single strand DNA (ssDNA) was detected with a lateral flow biosensor (LFB). This biosensor is capable of detecting a minimum of 19 human embryonic stem cells by a strip reader and 100 human embryonic stem cells by the naked eye within 80min. This approach has also shown excellent specificity to distinguish hPSCs from other types of cells,showing that it is promising for specific and handy detection of human pluripotent stem cells.
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Laperle A et al. (AUG 2015)
Stem cell reports 5 2 195--206
$\$-5 Laminin Synthesized by Human Pluripotent Stem Cells Promotes Self-Renewal.
Substrate composition significantly impacts human pluripotent stem cell (hPSC) self-renewal and differentiation,but relatively little is known about the role of endogenously produced extracellular matrix (ECM) components in regulating hPSC fates. Here we identify $\$-5 laminin as a signature ECM component endogenously synthesized by undifferentiated hPSCs cultured on defined substrates. Inducible shRNA knockdown and Cas9-mediated disruption of the LAMA5 gene dramatically reduced hPSC self-renewal and increased apoptosis without affecting the expression of pluripotency markers. Increased self-renewal and survival was restored to wild-type levels by culturing the LAMA5-deficient cells on exogenous laminin-521. Furthermore,treatment of LAMA5-deficient cells with blebbistatin or a ROCK inhibitor partially restored self-renewal and diminished apoptosis. These results demonstrate that endogenous $\$-5 laminin promotes hPSC self-renewal in an autocrine and paracrine manner. This finding has implications for understanding how stem cells dynamically regulate their microenvironment to promote self-renewal and provides guidance for efforts to design substrates for stem cell bioprocessing.
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Yazdi PG et al. (AUG 2015)
PloS one 10 8 e0136314
Nucleosome Organization in Human Embryonic Stem Cells.
The fundamental repeating unit of eukaryotic chromatin is the nucleosome. Besides being involved in packaging DNA,nucleosome organization plays an important role in transcriptional regulation and cellular identity. Currently,there is much debate about the major determinants of the nucleosome architecture of a genome and its significance with little being known about its role in stem cells. To address these questions,we performed ultra-deep sequencing of nucleosomal DNA in two human embryonic stem cell lines and integrated our data with numerous epigenomic maps. Our analyses have revealed that the genome is a determinant of nucleosome organization with transcriptionally inactive regions characterized by a ground state" of nucleosome profiles driven by underlying DNA sequences. DNA sequence preferences are associated with heterogeneous chromatin organization around transcription start sites. Transcription�
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Tasnim F et al. (NOV 2015)
Biomaterials 70 115--125
Cost-effective differentiation of hepatocyte-like cells from human pluripotent stem cells using small molecules.
Significant efforts have been invested into the differentiation of stem cells into functional hepatocyte-like cells that can be used for cell therapy,disease modeling and drug screening. Most of these efforts have been concentrated on the use of growth factors to recapitulate developmental signals under in vitro conditions. Using small molecules instead of growth factors would provide an attractive alternative since small molecules are cell-permeable and cheaper than growth factors. We have developed a protocol for the differentiation of human embryonic stem cells into hepatocyte-like cells using a predominantly small molecule-based approach (SM-Hep). This 3 step differentiation strategy involves the use of optimized concentrations of LY294002 and bromo-indirubin-3'-oxime (BIO) for the generation of definitive endoderm; sodium butyrate and dimethyl sulfoxide (DMSO) for the generation of hepatoblasts and SB431542 for differentiation into hepatocyte-like cells. Activin A is the only growth factor required in this protocol. Our results showed that SM-Hep were morphologically and functionally similar or better compared to the hepatocytes derived from the growth-factor induced differentiation (GF-Hep) in terms of expression of hepatic markers,urea and albumin production and cytochrome P450 (CYP1A2 and CYP3A4) activities. Cell viability assays following treatment with paradigm hepatotoxicants Acetaminophen,Chlorpromazine,Diclofenac,Digoxin,Quinidine and Troglitazone showed that their sensitivity to these drugs was similar to human primary hepatocytes (PHHs). Using SM-Hep would result in 67% and 81% cost reduction compared to GF-Hep and PHHs respectively. Therefore,SM-Hep can serve as a robust and cost effective replacement for PHHs for drug screening and development.
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ErbB4 Activated p38$$ MAPK Isoform Mediates Early Cardiogenesis Through NKx2.5 in Human Pluripotent Stem Cells
Activation of ErbB4 receptor signaling is instrumental in heart development,lack of which results in embryonic lethality. However,mechanism governing its intracellular signaling remains elusive. Using human pluripotent stem cells,we show that ErbB4 is critical for cardiogenesis whereby its genetic knockdown results in loss of cardiomyocytes. Phospho-proteome profiling and Western blot studies attribute this loss to inactivation of p38$\$ isoform which physically interacts with NKx2.5 and GATA4 transcription factors. Post-cardiomyocyte formation p38$\$/NKx2.5 downregulation is followed by p38$\$/MEF2c upregulation suggesting stage-specific developmental roles of p38 MAPK isoforms. Knockdown of p38$\$ similarly disrupts cardiomyocyte formation in spite of the presence of NKx2.5. Cell fractionation and NKx2.5 phosphorylation studies suggest inhibition of ErbB4-p38$\$ hinders NKx2.5 nuclear translocation during early cardiogenesis. This study reveals a novel pathway that directly links ErbB4 and p38$\$ the transcriptional machinery of NKx2.5-GATA4 complex which is critical for cardiomyocyte formation during mammalian heart development.
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