Expansion and Purification Are Critical for the Therapeutic Application of Pluripotent Stem Cell-Derived Myogenic Progenitors.
Recent reports have documented the differentiation of human pluripotent stem cells toward the skeletal myogenic lineage using transgene- and cell purification-free approaches. Although these protocols generate myocytes,they have not demonstrated scalability,safety,and in vivo engraftment,which are key aspects for their future clinical application. Here we recapitulate one prominent protocol,and show that it gives rise to a heterogeneous cell population containing myocytes and other cell types. Upon transplantation,the majority of human donor cells could not contribute to myofiber formation. As a proof-of-principle,we incorporated the inducible PAX7 lentiviral system into this protocol,which then enabled scalable expansion of a homogeneous population of skeletal myogenic progenitors capable of forming myofibers in vivo. Our findings demonstrate the methods for scalable expansion of PAX7(+) myogenic progenitors and their purification are critical for practical application to cell replacement treatment of muscle degenerative diseases.
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Velasquez-Mao AJ et al. ( 2017)
PloS one 12 5 e0177824
Differentiation of spontaneously contracting cardiomyocytes from non-virally reprogrammed human amniotic fluid stem cells.
Congenital heart defects are the most common birth defect. The limiting factor in tissue engineering repair strategies is an autologous source of functional cardiomyocytes. Amniotic fluid contains an ideal cell source for prenatal harvest and use in correction of congenital heart defects. This study aims to investigate the potential of amniotic fluid-derived stem cells (AFSC) to undergo non-viral reprogramming into induced pluripotent stem cells (iPSC) followed by growth-factor-free differentiation into functional cardiomyocytes. AFSC from human second trimester amniotic fluid were transfected by non-viral vesicle fusion with modified mRNA of OCT4,KLF4,SOX2,LIN28,cMYC and nuclear GFP over 18 days,then differentiated using inhibitors of GSK3 followed 48 hours later by inhibition of WNT. AFSC-derived iPSC had high expression of OCT4,NANOG,TRA-1-60,and TRA-1-81 after 18 days of mRNA transfection and formed teratomas containing mesodermal,ectodermal,and endodermal germ layers in immunodeficient mice. By Day 30 of cardiomyocyte differentiation,cells contracted spontaneously,expressed connexin 43 and β-myosin heavy chain organized in sarcomeric banding patterns,expressed cardiac troponin T and β-myosin heavy chain,showed upregulation of NKX2.5,ISL-1 and cardiac troponin T with downregulation of POU5F1,and displayed calcium and voltage transients similar to those in developing cardiomyocytes. These results demonstrate that cells from human amniotic fluid can be differentiated through a pluripotent state into functional cardiomyocytes.
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Bagutti C et al. (OCT 1996)
Developmental biology 179 1 184--96
Differentiation of embryonal stem cells into keratinocytes: comparison of wild-type and beta 1 integrin-deficient cells.
beta 1 Integrins are known to regulate terminal differentiation and morphogenesis in the adult epidermis. We have investigated their role in the embryonic development of keratinocytes by comparing the differentiation of wild-type and beta 1-null mouse embryonal stem (ES) cells. By 12-15 days in culture,differentiation of embryonic or simple epithelial cells occurred in both ES cell populations,as detected by expression of keratins 8,18,and 19. From 21 days,expression of keratins 10 and 14 and of the cornified envelope precursor involucrin indicated that some of the wild-type cells had differentiated into keratinocytes. In contrast,keratinocyte markers were not expressed in beta 1-null cultures. The beta 1-null cells failed to express the alpha 2 and alpha 3 integrin subunits on the cell surface,consistent with the association of these a subunits with beta 1. Furthermore,alpha 6 and beta 4 expression was reduced in the beta 1-null cultures. Although beta 1-null ES cells failed to undergo differentiation into keratinocytes in vitro,they did form keratinocyte cysts expressing alpha 6 beta 4,keratins 1 and 14,and involucrin when allowed to form teratomas by subcutaneous injection in mice; furthermore,beta 1-null keratinocytes were found in the epidermis of a wild-type/beta 1-null chimeric mouse. As judged by immunofluorescence microscopy,extracellular matrix assembly was severely impaired in beta 1-null ES cell cultures,but not in the teratomas or chimeric mouse skin. We therefore speculate that the failure of beta 1-null cells to differentiate into keratinocytes in vitro may reflect an inability to assemble a basement membrane.
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Okabe S et al. (SEP 1996)
Mechanisms of development 59 1 89--102
Development of neuronal precursor cells and functional postmitotic neurons from embryonic stem cells in vitro.
To understand the mechanism of the sequential restriction of multipotency of stem cells during development,we have established culture conditions that allow the differentiation of neuroepithelial precursor cells from embryonic stem (ES) cells. A highly enriched population of neuroepithelial precursor cells derived from ES cells proliferates in the presence of basic fibroblast growth factor (bFGF). These cells differentiate into both neurons and glia following withdrawal of bFGF. By further differentiating the cells in serum-containing medium,the neurons express a wide variety of neuron-specific genes and generate both excitatory and inhibitory synaptic connections. The expression pattern of position-specific neural markers suggests the presence of a variety of central nervous system (CNS) neuronal cell types. These findings indicate that neuronal precursor cells can be isolated from ES cells and that these cells can efficiently differentiate into functional post-mitotic neurons of diverse CNS structures.
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Dani C et al. (JUN 1997)
Journal of cell science 110 ( Pt 1 1279--85
Differentiation of embryonic stem cells into adipocytes in vitro.
Embryonic stem cells,derived from the inner cell mass of murine blastocysts,can be maintained in a totipotent state in vitro. In appropriate conditions embryonic stem cells have been shown to differentiate in vitro into various derivatives of all three primary germ layers. We describe in this paper conditions to induce differentiation of embryonic stem cells reliably and at high efficiency into adipocytes. A prerequisite is to treat early developing embryonic stem cell-derived embryoid bodies with retinoic acid for a precise period of time. Retinoic acid could not be substituted by adipogenic hormones nor by potent activators of peroxisome proliferator-activated receptors. Treatment with retinoic acid resulted in the subsequent appearance of large clusters of mature adipocytes in embryoid body outgrowths. Lipogenic and lipolytic activities as well as high level expression of adipocyte specific genes could be detected in these cultures. Analysis of expression of potential adipogenic genes,such as peroxisome proliferator-activated receptors gamma and delta and CCAAT/enhancer binding protein beta,during differentiation of retinoic acid-treated embryoid bodies has been performed. The temporal pattern of expression of genes encoding these nuclear factors resembled that found during mouse embryogenesis. The differentiation of embryonic stem cells into adipocytes will provide an invaluable model for the characterisation of the role of genes expressed during the adipocyte development programme and for the identification of new adipogenic regulatory genes.
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全反式视黄酸
全反式视黄酸
全反式视黄酸
Wobus AM et al. (JUN 1997)
Journal of molecular and cellular cardiology 29 6 1525--39
Retinoic acid accelerates embryonic stem cell-derived cardiac differentiation and enhances development of ventricular cardiomyocytes.
Pluripotent embryonic stem (ES) cells spontaneously differentiate via embryo-like aggregates into cardiomyocytes of pacemaker-,atrium- and ventricle-like type,which can be distinguished by their specific patterns of action potentials. It has been shown that retinoic acid (RA) treatment during ES cell differentiation increases the number of cardiomyocytes in a time- and concentration-dependent manner. In order to test the effect of RA on cardiomyocyte differentiation and specialization into ventricle-like cardiomyocytes,we studied gene expression of beta-galactosidase driven by the ventricular myosin light chain-2 (MLC-2v) promoter as an indicator for ventricular differentiation. Clones containing the stably integrated expression vector pGNA/MLC-2.1 were selected,which revealed an increase of beta-galactosidase activity in cardiomyocytes of embryoid bodies at day 7 + 16. RA,both,in the all-trans and in the 9-cis configuration resulted in a significant acceleration of cardiomyocyte differentiation and a transient increase of beta-galactosidase activity. To test whether this acceleration of cardiac differentiation and RA-induced increase of the MLC-2v promotor/beta-galactosidase activity reflects an increase of cardiac- and ventricle-specific gene expression,a semi-quantitative RT-PCR analysis was performed for alpha-cardiac myosin heavy chain (alpha-MHC) and MLC-2v genes. It was shown that both 10(-8) M and 10(-9) M RA resulted in an increased level of alpha-cardiac MHC and MLC-2v mRNA in embryoid bodies in early,but not in terminal developmental stages. This led us to the conclusion that the RA-induced accelerated expression of cardiac-specific genes results in an enhanced development of ventricular cardiomyocytes. An increased number of ventricle-like cells after RA treatment was also found by patch-clamp analysis. The number of cardiomyocytes with Purkinje- and ventricle-like properties was shown to be increased by RA,whereas the number of pacemaker- and atrium-like cells was reduced and early pacemaker cells were not quantitatively affected.
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全反式视黄酸
全反式视黄酸
全反式视黄酸
Li Y et al. (OCT 2013)
Cell Stem Cell 13 4 446--458
Global Transcriptional and Translational Repression in Human-Embryonic-Stem-Cell-Derived Rett Syndrome Neurons
Summary Rett syndrome (RTT) is caused by mutations of MECP2,a methyl CpG binding protein thought to act as a global transcriptional repressor. Here we show,using an isogenic human embryonic stem cell model of RTT,that MECP2 mutant neurons display key molecular and cellular features of this disorder. Unbiased global gene expression analyses demonstrate that MECP2 functions as a global activator in neurons but not in neural precursors. Decreased transcription in neurons was coupled with a significant reduction in nascent protein synthesis and lack of MECP2 was manifested as a severe defect in the activity of the AKT/mTOR pathway. Lack of MECP2 also leads to impaired mitochondrial function in mutant neurons. Activation of AKT/mTOR signaling by exogenous growth factors or by depletion of PTEN boosted protein synthesis and ameliorated disease phenotypes in mutant neurons. Our findings indicate a vital function for MECP2 in maintaining active gene transcription in human neuronal cells.
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Li S et al. (JAN 2014)
Heart Rhythm 11 1 133--140
Mechanistic basis of excitation-contraction coupling in human pluripotent stem cell-derived ventricular cardiomyocytes revealed by Ca2+ spark characteristics: Direct evidence of functional Ca2+-induced Ca 2+ release
Background Human embryonic stem cells (hESCs) serve as a potential unlimited ex vivo source of cardiomyocytes for disease modeling,cardiotoxicity screening,drug discovery,and cell-based therapies. Despite the fundamental importance of Ca2+-induced Ca2+ release in excitation-contraction coupling,the mechanistic basis of Ca2+ handling of hESC-derived ventricular cardiomyocytes (VCMs) remains elusive. Objectives To study Ca2+ sparks as unitary events of Ca2+ handling for mechanistic insights. Methods To avoid ambiguities owing to the heterogeneous nature,we experimented with hESC-VCMs,purified on the basis of zeocin resistance and signature ventricular action potential after LV-MLC2v-tdTomato-T2A-Zeo transduction. Results Ca2+ sparks that were sensitive to inhibitors of sarco/endoplasmic reticulum Ca2+-ATPase (thapsigargin and cyclopiazonic acid) and ryanodine receptor (RyR; ryanodine,tetracaine) but not inositol trisphosphate receptors (xestospongin C and 2-aminoethyl diphenylborinate) could be recorded. In a permeabilization model,we further showed that RyRs could be sensitized by Ca2+. Increasing external Ca2+ dramatically escalated the basal Ca2+ and spark frequency. Furthermore,RyR-mediated Ca2+ release sensitized nearby RyRs,leading to compound Ca2+ sparks. Depolarization or L-type Ca2+ channel agonist (FPL 64176 and Bay K8644) pretreatment induced an extracellular Ca2+-dependent cytosolic Ca2+ increase and reduced the sarcoplasmic reticulum content. By contrast,removal of external Na+ or the addition of the Na+-Ca2+ exchanger inhibitor (KB-R7943 and SN-6) had no effect,suggesting that the Na+-Ca2+ exchanger is not involved in triggering sparks. Inhibition of mitochondrial Ca2+ uptake by carbonyl cyanide m-chlorophenyl hydrazone promoted Ca2+ waves. Conclusion Taken collectively,our findings provide the first lines of direct evidence that hESC-VCMs have functional Ca2+-induced Ca2+ release. However,the sarcoplasmic reticulum is leaky and without a mature terminating mechanism in early development.
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Fan Y et al. (NOV 2013)
Tissue Engineering Part A 20 3-4 131128071850006
Facile engineering of xeno-free microcarriers for the scalable cultivation of human pluripotent stem cells in stirred suspension.
A prerequisite for the realization of human pluripotent stem cell (hPSC) therapies is the development of bioprocesses for generating clinically relevant quantities of undifferentiated hPSCs and their derivatives under xeno-free conditions. Microcarrier stirred-suspension bioreactors are an appealing modality for the scalable expansion and directed differentiation of hPSCs. Comparative analyses of commercially available microcarriers clearly show the need for developing synthetic substrates supporting the adhesion and growth of hPSCs in three-dimensional cultures under agitation-induced shear. Moreover,the low seeding efficiencies during microcarrier loading with hPSC clusters poses a significant process bottleneck. To that end,a novel protocol was developed increasing hPSC seeding efficiency from 30% to over 80% and substantially shortening the duration of microcarrier loading. Importantly,this method was combined with the engineering of polystyrene microcarriers by surface conjugation of a vitronectin-derived peptide,which was previously shown to support the growth of human embryonic stem cells. Cells proliferated on peptide-conjugated beads in static culture but widespread detachment was observed after exposure to stirring. This prompted additional treatment of the microcarriers with a synthetic polymer commonly used to enhance cell adhesion. hPSCs were successfully cultivated on these microcarriers in stirred suspension vessels for multiple consecutive passages with attachment efficiencies close to 40%. Cultured cells exhibited on average a 24-fold increase in concentration per 6-day passage,over 85% viability,and maintained a normal karyotype and the expression of pluripotency markers such as Nanog,Oct4,and SSEA4. When subjected to spontaneous differentiation in embryoid body cultures or directed differentiation to the three embryonic germ layers,the cells adopted respective fates displaying relevant markers. Lastly,engineered microcarriers were successfully utilized for the expansion and differentiation of hPSCs to mesoderm progeny in stirred suspension vessels. Hence,we demonstrate a strategy for the facile engineering of xeno-free microcarriers for stirred-suspension cultivation of hPSCs. Our findings support the use of microcarrier bioreactors for the scalable,xeno-free propagation and differentiation of human stem cells intended for therapies.
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Kameoka S et al. (JAN 2014)
Toxicological Sciences 137 1 76--90
A High-Throughput Screen for Teratogens Using Human Pluripotent Stem Cells
There is need in the pharmaceutical and chemical industries for high-throughput human cell-based assays for identifying hazardous chemicals,thereby reducing the overall reliance on animal studies for predicting the risk of toxic responses in humans. Despite instances of human-specific teratogens such as thalidomide,the use of human cell-teratogenicity assays has just started to be explored. Herein,a human pluripotent stem cell test (hPST) for identifying teratogens is described,benchmarking the in vitro findings to traditional preclinical toxicology teratogenicity studies and when available to teratogenic outcomes in humans. The hPST method employs a 3-day monolayer directed differentiation of human embryonic stem cells. The teratogenic risk of a compound is gauged by measuring the reduction in nuclear translocation of the transcription factor SOX17 in mesendodermal cells. Decreased nuclear SOX17 in the hPST model was strongly correlated with in vivo teratogenicity. Specifically,71 drug-like compounds with known in vivo effects,including thalidomide,were examined in the hPST. A threshold of 5μM demonstrated 94% accuracy (97% sensitivity and 92% specificity). Furthermore,15 environmental toxicants with physicochemical properties distinct from small molecule pharmaceutical agents were examined and a similarly strong concordance with teratogenicity outcomes from in vivo studies was observed. Finally,to assess the suitability of the hPST for high-throughput screens,a small library of 300 kinase inhibitors was tested,demonstrating the hPST platform's utility for interrogating teratogenic mechanisms and drug safety prediction. Thus,the hPST assay is a robust predictor of teratogenicity and appears to be an improvement over existing in vitro models.
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Dispase (1 U/mL)
ACCUTASE™
mTeSR™1
mTeSR™1
ACCUTASE™
Wang J et al. (JAN 2014)
Journal of Biological Chemistry 289 4 2384--2395
Epigenetic regulation of miR-302 by JMJD1C inhibits neural differentiation of human embryonic stem cells.
It has been recently reported that the regulatory circuitry formed by OCT4,miR-302,and NR2F2 controls both pluripotency and neural differentiation of human embryonic stem cells (hESCs). We show here that JMJD1C,a histone 3 lysine 9 (H3K9) demethylase expressed in hESCs,directly interacts with this circuitry. hESCs with stable knockdown of JMJD1C remain pluripotent while having reduced miR-302 expression,decreased BMP signaling,and enhanced TGF$\$ JMJD1C binds to the miR-302 promoter and reduces H3K9 methylation. Withdrawal of basic fibroblast growth factor (bFGF) from the culture induces neural differentiation of the knockdown,but not the control,cells within 3 days,accompanied by elevated NR2F2 expression. This can be attenuated with miR-302 mimics or an H3K9 methytransferase inhibitor. Together,our findings suggest that JMJD1C represses neural differentiation of hESCs at least partially by epigenetically sustaining miR-302 expression and that JMJD1C knockdown is sufficient to trigger neural differentiation upon withdrawal of exogenous bFGF.
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Lu HF et al. (MAR 2014)
Biomaterials 35 9 2816--2826
A defined xeno-free and feeder-free culture system for the derivation, expansion and direct differentiation of transgene-free patient-specific induced pluripotent stem cells
A defined xeno-free system for patient-specific iPSC derivation and differentiation is required for translation to clinical applications. However,standard somatic cell reprogramming protocols rely on using MEFs and xenogeneic medium,imposing a significant obstacle to clinical translation. Here,we describe a well-defined culture system based on xeno-free media and LN521 substrate which supported i) efficient reprogramming of normal or diseased skin fibroblasts from human of different ages into hiPSCs with a 15-30 fold increase in efficiency over conventional viral vector-based method; ii) long-term self-renewal of hiPSCs; and iii) direct hiPSC lineage-specific differentiation. Using an excisable polycistronic vector and optimized culture conditions,we achieved up to 0.15%-0.3% reprogramming efficiencies. Subsequently,transgene-free hiPSCs were obtained by Cre-mediated excision of the reprogramming factors. The derived iPSCs maintained long-term self-renewal,normal karyotype and pluripotency,as demonstrated by the expression of stem cell markers and ability to form derivatives of three germ layers both in vitro and in vivo. Importantly,we demonstrated that Parkinson's patient transgene-free iPSCs derived using the same system could be directed towards differentiation into dopaminergic neurons under xeno-free culture conditions. Our approach provides a safe and robust platform for the generation of patient-specific iPSCs and derivatives for clinical and translational applications. textcopyright 2013 Elsevier Ltd.
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