Scientific Resources

The in vitro differentiation of human induced pluripotent stem cells (hiPSC) to generate specific types of cells is inefficient,and the remaining undifferentiated cells may form teratomas. This raises safety concerns for clinical applications of hiPSC-derived cellular products. To improve the safety of hiPSC,we attempted to site-specifically insert a herpes simplex virus 1 thymidine kinase (HSV1-TK) suicide gene at the endogenous OCT4 (POU5F1) locus of hiPSC. Since the endogenous OCT4 promoter is active in undifferentiated cells only,we speculated that the HSV1-TK suicide gene will be transcribed in undifferentiated cells only and that the remaining undifferentiated cells can be depleted by treating them with the prodrug ganciclovir (GCV) prior to transplantation. To insert the HSV1-TK gene at the OCT4 locus,we cotransfected hiPSC with a pair of plasmids encoding an OCT4-specific zinc finger nuclease (ZFN) and a donor plasmid harboring a promoter-less transgene cassette consisting of HSV1-TK and puromycin resistance gene sequences,flanked by OCT4 gene sequences. Puromycin resistant clones were established and characterized regarding their sensitivity to GCV and the site of integration of the HSV1-TK/puromycin resistance gene cassette. Of the nine puromycin-resistant iPSC clones analyzed,three contained the HSV1-TK transgene at the OCT4 locus,but they were not sensitive to GCV. The other six clones were GCV-sensitive,but the TK gene was located at off-target sites. These TK-expressing hiPSC clones remained GCV sensitive for up to 90 days,indicating that TK transgene expression was stable. Possible reasons for our failed attempt to selectively target the OCT4 locus are discussed. View Publication

Smooth muscle cells (SMCs) and endothelial cells (ECs) are typically derived separately,with low efficiencies,from human pluripotent stem cells (hPSCs). The concurrent generation of these cell types might lead to potential applications in regenerative medicine to model,elucidate,and eventually treat vascular diseases. Here we report a robust two-step protocol that can be used to simultaneously generate large numbers of functional SMCs and ECs from a common proliferative vascular progenitor population via a two-dimensional culture system. We show here that coculturing hPSCs with OP9 cells in media supplemented with vascular endothelial growth factor,basic fibroblast growth factor,and bone morphogenetic protein 4 yields a higher percentage of CD31(+)CD34(+) cells on day 8 of differentiation. Upon exposure to endothelial differentiation media and SM differentiation media,these vascular progenitors were able to differentiate and mature into functional endothelial cells and smooth muscle cells,respectively. Furthermore,we were able to expand the intermediate population more than a billion fold to generate sufficient numbers of ECs and SMCs in parallel for potential therapeutic transplantations. View Publication

A systematic evaluation of three different methods for generating induced pluripotent stem (iPS) cells was performed using the same set of parental cells in our quest to develop a feeder independent and xeno-free method for somatic cell reprogramming that could be transferred into a GMP environment. When using the BJ fibroblast cell line,the highest reprogramming efficiency (1.89% of starting cells) was observed with the mRNA based method which was almost 20 fold higher than that observed with the retrovirus (0.2%) and episomal plasmid (0.10%) methods. Standard characterisation tests did not reveal any differences in an array of pluripotency markers between the iPS lines derived using the various methods. However,when the same methods were used to reprogram three different primary fibroblasts lines,two derived from patients with rapid onset parkinsonism dystonia and one from an elderly healthy volunteer,we consistently observed higher reprogramming efficiencies with the episomal plasmid method,which was 4 fold higher when compared to the retroviral method and over 50 fold higher than the mRNA method. Additionally,with the plasmid reprogramming protocol,recombinant vitronectin and synthemax® could be used together with commercially available,fully defined,xeno-free essential 8 medium without significantly impacting the reprogramming efficiency. To demonstrate the robustness of this protocol,we reprogrammed a further 2 primary patient cell lines,one with retinosa pigmentosa and the other with Parkinsons disease. We believe that we have optimised a simple and reproducible method which could be used as a starting point for developing GMP protocols,a prerequisite for generating clinically relevant patient specific iPS cells. View Publication

Transplantation of photoreceptor precursor cells (PPCs) differentiated from human embryonic stem cells (hESCs) is a promising approach to treat common blinding diseases such as age-related macular degeneration and retinitis pigmentosa. However,existing PPC generation methods are inefficient. To enhance differentiation protocols for rapid and high-yield production of PPCs,we focused on optimizing the handling of the cells by including feeder-independent growth of hESCs,using size-controlled embryoid bodies (EBs),and addition of triiodothyronine (T3) and taurine to the differentiation medium,with subsequent removal of undifferentiated cells via negative cell-selection. Our novel protocol produces higher yields of PPCs than previously reported while reducing the time required for differentiation,which will help understand retinal diseases and facilitate large-scale preclinical trials. View Publication

Production of human embryonic stem cell (hESC)-derived lung progenitors has broad applicability for drug screening and cell therapy; however,this is complicated by limitations in demarcating phenotypic changes with functional validation of airway cell types. In this paper,we reveal the potential of hESCs to produce multipotent lung progenitors using a combined growth factor and physical culture approach,guided by the use of novel markers LIFRα and NRP1. Lung specification of hESCs was achieved by priming differentiation via matrix-specific support,followed by air-liquid interface to allow generation of lung progenitors capable of in vitro maturation into airway epithelial cell types,resulting in functional characteristics such as secretion of pulmonary surfactant,ciliation,polarization,and acquisition of innate immune activity. This approach provided a robust expansion of lung progenitors,allowing in vivo assessment,which demonstrated that only fully differentiated hESC-derived airway cells were retained in the distal airway,where they aided in physiological recovery in immunocompromised mice receiving airway injury. Our study provides a basis for translational applications of hESCs for lung diseases. View Publication

Realization of the full potential of human induced pluripotent stem cells (hiPSCs) in clinical applications requires development of well-defined conditions for their growth and differentiation. A novel fully defined polyvinyl alcohol/hyaluronan (PVA/HA) polysaccharide nanofiber was developed for hiPSCs culture in commercially available xeno-free,chemically defined medium. Vitronectin peptide (VP) was immobilized to PVA/HA nanofibers through NHS/EDC chemistry. The hiPSCs successfully grew and proliferated on the VP-decorated PVA/HA nanofibers,similar to those on MatrigelTM. Such well-defined,xeno-free and safe nanofiber substrate that supports culture of hiPSCs will not only help to accelerate the translational perspectives of hiPSCs,but also provide a platform to investigate the cell-nanofiber interaction mechanisms that regulate stem cell proliferation and differentiation. ?? 2013 Elsevier Ltd. All rights reserved. View Publication

Invariant natural killer T (iNKT) cells are a unique lymphocyte subpopulation that mediates antitumor activities upon activation. A current strategy to harness iNKT cells for cancer treatment is endogenous iNKT cell activation using patient-derived dendritic cells (DCs). However,the limited number and functional defects of patient DCs are still the major challenges for this therapeutic approach. In this study,we investigated whether human embryonic stem cells (hESCs) with an ectopically expressed CD1d gene could be exploited to address this issue. Using a lentivector carrying an optimized expression cassette,we generated stably modified hESC lines that consistently overexpressed CD1d. These modified hESC lines were able to differentiate into DCs as efficiently as the parental line. Most importantly,more than 50% of such derived DCs were CD1d+. These CD1d-overexpressing DCs were more efficient in inducing iNKT cell response than those without modification,and their ability was comparable to that of DCs generated from monocytes of healthy donors. The iNKT cells expanded by the CD1d-overexpressing DCs were functional,as demonstrated by their ability to lyse iNKT cell-sensitive glioma cells. Therefore,hESCs stably modified with the CD1d gene may serve as a convenient,unlimited,and competent DC source for iNKT cell-based cancer immunotherapy. View Publication

Summary Human embryonic stem cells (hESCs) regularly acquire nonrandom genomic aberrations during culture,raising concerns about their safe therapeutic application. The International Stem Cell Initiative identified a copy number variant (CNV) amplification of chromosome 20q11.21 in 25% of hESC lines displaying a normal karyotype. By comparing four cell lines paired for the presence or absence of this CNV,we show that those containing this amplicon have higher population doubling rates,attributable to enhanced cell survival through resistance to apoptosis. Of the three genes encoded within the minimal amplicon and expressed in hESCs,only overexpression of BCL2L1 (BCL-XL isoform) provides control cells with growth characteristics similar to those of CNV-containing cells,whereas inhibition of BCL-XL suppresses the growth advantage of CNV cells,establishing BCL2L1 as a driver mutation. Amplification of the 20q11.21 region is also detectable in human embryonal carcinoma cell lines and some teratocarcinomas,linking this mutation with malignant transformation. View Publication

Although transcriptional and posttranscriptional events are detected in RNA-Seq data from second-generation sequencing,full-length mRNA isoforms are not captured. On the other hand,third-generation sequencing,which yields much longer reads,has current limitations of lower raw accuracy and throughput. Here,we combine second-generation sequencing and third-generation sequencing with a custom-designed method for isoform identification and quantification to generate a high-confidence isoform dataset for human embryonic stem cells (hESCs). We report 8,084 RefSeq-annotated isoforms detected as full-length and an additional 5,459 isoforms predicted through statistical inference. Over one-third of these are novel isoforms,including 273 RNAs from gene loci that have not previously been identified. Further characterization of the novel loci indicates that a subset is expressed in pluripotent cells but not in diverse fetal and adult tissues; moreover,their reduced expression perturbs the network of pluripotency-associated genes. Results suggest that gene identification,even in well-characterized human cell lines and tissues,is likely far from complete. View Publication

A human invitro cardiac tissue model would be a significant advancement for understanding,studying,and developing new strategies for treating cardiac arrhythmias and related cardiovascular diseases. We developed an invitro model of three-dimensional (3D) human cardiac tissue by populating synthetic filamentous matrices with cardiomyocytes derived from healthy wild-type volunteer (WT) and patient-specific long QT syndrome type 3 (LQT3) induced pluripotent stem cells (iPS-CMs) to mimic the condensed and aligned human ventricular myocardium. Using such a highly controllable cardiac model,we studied the contractility malfunctions associated with the electrophysiological consequences of LQT3 and their response to a panel of drugs. By varying the stiffness of filamentous matrices,LQT3 iPS-CMs exhibited different level of contractility abnormality and susceptibility to drug-induced cardiotoxicity. textcopyright 2013 Elsevier Ltd. View Publication

Human embryonic stem cells (hESCs) were used as a model system of human pancreas development to study characteristics of the polyhormonal cells that arise during fetal pancreas development. HESCs were differentiated into fetal-like pancreatic cells in vitro using a 33-day,7-stage protocol. Cultures were ˜90-95% PDX1-positive by day (d) 11 and 70-75% NKX6.1-positive by d17. Polyhormonal cells were scattered at d17,but developed into islet-like clusters that expressed key transcription factors by d33. Human C-peptide and glucagon secretion were first detected at d17 and increased thereafter in parallel with INS and GCG transcript levels. HESC-derived cells were responsive to KCl and arginine,but not glucose in perifusion studies. Compared to adult human islets,hESC-derived cells expressed ˜10-fold higher levels of glucose transporter 1 (GLUT1) mRNA,but similar levels of glucokinase (GCK). In situ hybridization confirmed the presence of GLUT1 transcript within endocrine cells. However,GLUT1 protein was excluded from this population and was instead observed predominantly in non-endocrine cells,whereas GCK was co-expressed in insulin-positive cells. In rubidium efflux assays,hESC-derived cells displayed mild potassium channel activity,but no responsiveness to glucose,metabolic inhibitors or glibenclamide. Western blotting experiments revealed that the higher molecular weight SUR1 band was absent in hESC-derived cells,suggesting a lack of functional KATP channels at the cell surface. In addition,KATP channel subunit transcript levels were not at a 1:1 ratio,as would be expected (SUR1 levels were ˜5-fold lower than KIR6.2). Various ratios of SUR1:KIR6.2 plasmids were transfected into COSM6 cells and rubidium efflux was found to be particularly sensitive to a reduction in SUR1. These data suggest that an impaired ratio of SUR1:KIR6.2 may contribute to the observed KATP channel defects in hESC-derived islet endocrine cells,and along with lack of GLUT1,may explain the absence of glucose-stimulated insulin secretion.?? 2013 Elsevier B.V. View Publication

PURPOSE: Retinal pigmented epithelium derived from human induced pluripotent stem (iPS) cells (iPS-RPE) may be a source of cells for transplantation. For this reason,it is essential to determine the functional competence of iPS-RPE. One key role of the RPE is uptake and processing of retinoids via the visual cycle. The purpose of this study is to investigate the expression of visual cycle proteins and the functional ability of the visual cycle in iPS-RPE.$$n$$nMETHODS: iPS-RPE was derived from human iPS cells. Immunocytochemistry,RT-PCR,and Western blot analysis were used to detect expression of RPE genes lecithin-retinol acyl transferase (LRAT),RPE65,cellular retinaldehyde-binding protein (CRALBP),and pigment epithelium-derived factor (PEDF). All-trans retinol was delivered to cultured cells or whole cell homogenate to assess the ability of the iPS-RPE to process retinoids.$$n$$nRESULTS: Cultured iPS-RPE expresses visual cycle genes LRAT,CRALBP,and RPE65. After incubation with all-trans retinol,iPS-RPE synthesized up to 2942 ± 551 pmol/mg protein all-trans retinyl esters. Inhibition of LRAT with N-ethylmaleimide (NEM) prevented retinyl ester synthesis. Significantly,after incubation with all-trans retinol,iPS-RPE released 188 ± 88 pmol/mg protein 11-cis retinaldehyde into the culture media.$$n$$nCONCLUSIONS: iPS-RPE develops classic RPE characteristics and maintains expression of visual cycle proteins. The results of this study confirm that iPS-RPE possesses the machinery to process retinoids for support of visual pigment regeneration. Inhibition of all-trans retinyl ester accumulation by NEM confirms LRAT is active in iPS-RPE. Finally,the detection of 11-cis retinaldehyde in the culture medium demonstrates the cells' ability to process retinoids through the visual cycle. This study demonstrates expression of key visual cycle machinery and complete visual cycle activity in iPS-RPE. View Publication