技术资料

Assessing relevant molecular differences between human-induced pluripotent stem cells (hiPSCs) and human embryonic stem cells (hESCs) is important,given that such differences may impact their potential therapeutic use. Controversy surrounds recent gene expression studies comparing hiPSCs and hESCs. Here,we present an in-depth quantitative mass spectrometry-based analysis of hESCs,two different hiPSCs and their precursor fibroblast cell lines. Our comparisons confirmed the high similarity of hESCs and hiPSCS at the proteome level as 97.8% of the proteins were found unchanged. Nevertheless,a small group of 58 proteins,mainly related to metabolism,antigen processing and cell adhesion,was found significantly differentially expressed between hiPSCs and hESCs. A comparison of the regulated proteins with previously published transcriptomic studies showed a low overlap,highlighting the emerging notion that differences between both pluripotent cell lines rather reflect experimental conditions than a recurrent molecular signature. View Publication

Efficient approaches for the precise genetic engineering of human pluripotent stem cells (hPSCs) can enhance both basic and applied stem cell research. Adeno- associated virus (AAV) vectors are of particular interest for their capacity to mediate efficient gene delivery to and gene targeting in various cells. However,natural AAV serotypes offer only modest transduction of human embryonic and induced pluripotent stem cells (hESCs and hiPSCs),which limits their utility for efficiently manipulating the hPSC genome. Directed evolution is a powerful means to generate viral vectors with novel capabilities,and we have applied this approach to create a novel AAV variant with high gene delivery efficiencies (˜50%) to hPSCs,which are importantly accompanied by a considerable increase in gene-targeting frequencies,up to 0.12%. While this level is likely sufficient for numerous applications,we also show that the gene-targeting efficiency mediated by an evolved AAV variant can be further enhanced (textgreater1%) in the presence of targeted double- stranded breaks (DSBs) generated by the co-delivery of artificial zinc finger nucleases (ZFNs). Thus,this study demonstrates that under appropriate selective pressures,AAV vectors can be created to mediate efficient gene targeting in hPSCs,alone or in the presence of ZFN- mediated double-stranded DNA breaks. View Publication

Diabetes is associated with the death and dysfunction of insulin-producing pancreatic $\$-cells. In other systems,Musashi genes regulate cell fate via Notch signaling,which we recently showed regulates $\$-cell survival. Here we show for the first time that human and mouse adult islet cells express mRNA and protein of both Musashi isoforms,as well Numb/Notch/Hes/neurogenin-3 pathway components. Musashi expression was observed in insulin/glucagon double-positive cells during human fetal development and increased during directed differentiation of human embryonic stem cells (hESCs) to the pancreatic lineage. De-differentiation of $\$-cells with activin A increased Msi1 expression. Endoplasmic reticulum (ER) stress increased Msi2 and Hes1,while it decreased Ins1 and Ins2 expression,revealing a molecular link between ER stress and $\$-cell dedifferentiation in type 2 diabetes. These effects were independent of changes in Numb protein levels and Notch activation. Overexpression of MSI1 was sufficient to increase Hes1,stimulate proliferation,inhibit apoptosis and reduce insulin expression,whereas Msi1 knockdown had the converse effects on proliferation and insulin expression. Overexpression of MSI2 resulted in a decrease in MSI1 expression. Taken together,these results demonstrate overlapping,but distinct roles for Musashi-1 and Musashi-2 in the control of insulin expression and $\$-cell proliferation. Our data also suggest that Musashi is a novel link between ER stress and the compensatory $\$-cell proliferation and the loss of $\$-cell gene expression seen in specific phases of the progression to type 2 diabetes. View Publication

Human pluripotent stem cells (hPSC) hold great promise as models for understanding disease and as a source of cells for transplantation therapies. However,the lack of simple,robust and efficient culture methods remains a significant obstacle for realizing the utility of hPSCs. Here we describe a platform for the culture of hPSCs that 1) allows for dissociation and replating of single cells,2) significantly increases viability and replating efficiency,3) improves freeze/thaw viability 4) improves cloning efficiency and 5) colony size variation. When combined with standard methodologies for genetic manipulation,we found that the enhanced culture platform allowed for lentiviral transduction rates of up to 95% and electroporation efficiencies of up to 25%,with a significant increase in the total number of antibiotic-selected colonies for screening for homologous recombination. We further demonstrated the utility of the enhanced culture platform by successfully targeting the ISL1 locus. We conclude that many of the difficulties associated with culturing and genetic manipulation of hPSCs can be addressed with optimized culture conditions,and we suggest that the use of the enhanced culture platform could greatly improve the ease of handling and general utility of hPSCs. View Publication

INTRODUCTION: The expression of proinflammatory protein tissue transglutaminase 2 (TG2) is frequently upregulated in multiple cancer cell types. However,the exact role of TG2 in cancer cells is not well-understood. We recently initiated studies to determine the significance of TG2 in cancer cells and observed that sustained expression of TG2 resulted in epithelial-to-mesenchymal transition (EMT) and promoted cancer stem cell (CSC) traits in mammary epithelial cells. These results suggested that TG2 could serve as a promising therapeutic target for overcoming chemoresistance and inhibiting metastatic spread of cancer cells. METHODS: Using various mutant constructs,we analyzed the activity of TG2 that is essential for promoting the EMT-CSC phenotype. RESULTS: Our results suggest that catalytically inactive TG2 (TG2-C277S) is as effective as wild-type TG2 (TG2-WT) in inducing the EMT-CSC in mammary epithelial cells. In contrast,overexpression of a GTP-binding-deficient mutant (TG2-R580A) was completely incompetent in this regard. Moreover,TG2-dependent activation of the proinflammatory transcription factor NF-κB is deemed essential for promoting the EMT-CSC phenotype in mammary epithelial cells. CONCLUSIONS: Our results suggest that the transamidation activity of TG2 is not essential for promoting its oncogenic functions and provide a strong rationale for developing small-molecule inhibitors to block GTP-binding pockets of TG2. Such inhibitors may have great potential for inhibiting the TG2-regulated pathways,reversing drug resistance and inhibiting the metastasis of cancer cells. View Publication

The utility of human pluripotent stem cells is dependent on efficient differentiation protocols that convert these cells into relevant adult cell types. Here we report the robust and efficient differentiation of human pluripotent stem cells into white or brown adipocytes. We found that inducible expression of PPARG2 alone or combined with CEBPB and/or PRDM16 in mesenchymal progenitor cells derived from pluripotent stem cells programmed their development towards a white or brown adipocyte cell fate with efficiencies of 85%-90%. These adipocytes retained their identity independent of transgene expression,could be maintained in culture for several weeks,expressed mature markers and had mature functional properties such as lipid catabolism and insulin-responsiveness. When transplanted into mice,the programmed cells gave rise to ectopic fat pads with the morphological and functional characteristics of white or brown adipose tissue. These results indicate that the cells could be used to faithfully model human disease View Publication

Deficiency of the nuclear factor-kappa-B essential modulator (NEMO) is a rare X-linked disorder that presents in boys as hypohydrotic ectodermal dysplasia with immunodeficiency due to defective nuclear factor-κB activation. Here we report on the generation of 2 human embryonic stem cell lines from discarded in vitro fertilization (IVF) embryos ascertained via preimplantation genetic diagnosis. We have derived two human embryonic stem cell lines that carry a T458G hypomorphic mutation in exon 4 of the NEMO (or IKBKG) gene. One of the lines is diploid male; the other is diploid female but has clonally inactivated the X-chromosome that harbors the wild-type IKBKG gene. We show that both lines are pluripotent,have the capacity to differentiate into hematopoietic progenitors,and have defective inhibitor of nuclear factor kappa-B kinase activity. These NEMO deficiency hES cell lines provide an unlimited source for differentiated cell types and may serve as a unique tool to study NEMO deficiency and potentially lead to the development of new therapies for this disease. View Publication

BACKGROUND Cryopreservation protocols have remained relatively unchanged since the first umbilical cord blood banking program was established. This study evaluated the preservation efficacy of a novel intracellular-like cryopreservation solution (CryoStor,BioLife Solutions,Inc.),the rate of addition of two cryopreservation solutions to cord blood units (CBUs),and reduced final dimethyl sulfoxide (DMSO) concentration of 5%. STUDY DESIGN AND METHODS Split-sample CBUs were cryopreserved with either an in-house 20% DMSO-based cryopreservation solution or CryoStor CS10 at a rate of 1 mL/min (n = 10; i.e.,slow addition) or as a bolus injection (n = 6; i.e.,fast addition). Infrared images of exothermic effects of the cryopreservation solutions were monitored relative to the rate of addition. Prefreeze and postthaw colony-forming unit assays,total nucleated cells,and CD34+ cell counts were compared. RESULTS Maximum temperature excursions observed were less than 6°C,regardless of the rate of solution addition. Fast addition resulted in peak excursions approximately twice that of slow addition but the magnitude and duration were minimal and transient. Slow addition of CryoStor CS10 (i.e.,final concentration % 5% DMSO) resulted in significantly better postthaw CD34+ cell recoveries; no other metrics were significantly different. Fast addition of CryoStor resulted in similar postthaw metrics compared to slow addition of the in-house solution. CONCLUSION Slow and fast addition of cryopreservation solutions result in mean temperature changes of approximately 3.3 to 4.45°C. Postthaw recoveries with CryoStor were equivalent to or slightly better than with the in-house cryopreservation solution. CryoStor also provides several advantages including reduced processing time,formulation consistency,and reduced DMSO in the frozen product (% 5%). View Publication

Herein we present a protocol of reprogramming human adult fibroblasts into human induced pluripotent stem cells (hiPSC) using retroviral vectors encoding Oct3/4,Sox2,Klf4 and c-myc (OSKM) in the presence of sodium butyrate (1-3). We used this method to reprogram late passage (textgreaterp10) human adult fibroblasts derived from Friedreich's ataxia patient (GM03665,Coriell Repository). The reprogramming approach includes highly efficient transduction protocol using repetitive centrifugation of fibroblasts in the presence of virus-containing media. The reprogrammed hiPSC colonies were identified using live immunostaining for Tra-1-81,a surface marker of pluripotent cells,separated from non-reprogrammed fibroblasts and manually passaged (4,5). These hiPSC were then transferred to Matrigel plates and grown in feeder-free conditions,directly from the reprogramming plate. Starting from the first passage,hiPSC colonies demonstrate characteristic hES-like morphology. Using this protocol more than 70% of selected colonies can be successfully expanded and established into cell lines. The established hiPSC lines displayed characteristic pluripotency markers including surface markers TRA-1-60 and SSEA-4,as well as nuclear markers Oct3/4,Sox2 and Nanog. The protocol presented here has been established and tested using adult fibroblasts obtained from Friedreich's ataxia patients and control individuals( 6),human newborn fibroblasts,as well as human keratinocytes. View Publication

Enteroendocrine cells of the gastrointestinal (GI) tract play a central role in metabolism,digestion,satiety and lipid absorption,yet their development remains poorly understood. Here we show that Arx,a homeodomain-containing transcription factor,is required for the normal development of mouse and human enteroendocrine cells. Arx expression is detected in a subset of Neurogenin3 (Ngn3)-positive endocrine progenitors and is also found in a subset of hormone-producing cells. In mice,removal of Arx from the developing endoderm results in a decrease of enteroendocrine cell types including gastrin-,glucagon/GLP-1-,CCK-,secretin-producing cell populations and an increase of somatostatin-expressing cells. This phenotype is also observed in mice with endocrine-progenitor-specific Arx ablation suggesting that Arx is required in the progenitor for enteroendocrine cell development. In addition,depletion of human ARX in developing human intestinal tissue results in a profound deficit in expression of the enteroendocrine cell markers CCK,secretin and glucagon while expression of a pan-intestinal epithelial marker,CDX2,and other non-endocrine markers remained unchanged. Taken together,our findings uncover a novel and conserved role of Arx in mammalian endocrine cell development and provide a potential cause for the chronic diarrhea seen in both humans and mice carrying Arx mutations. View Publication

The subunit genes encoding human chorionic gonadotropin,CGA,and CGB,are up-regulated in human trophoblast. However,they are effectively silenced in choriocarcinoma cells by ectopically expressed POU domain class 5 transcription factor 1 (POU5F1). Here we show that POU5F1 represses activity of the CGA promoter through its interactions with ETS2,a transcription factor required for both placental development and human chorionic gonadotropin subunit gene expression,by forming a complex that precludes ETS2 from interacting with the CGA promoter. Mutation of a POU5F1 binding site proximal to the ETS2 binding site does not alter the ability of POU5F1 to act as a repressor but causes a drop in basal promoter activity due to overlap with the binding site for DLX3. DLX3 has only a modest ability to raise basal CGA promoter activity,but its coexpression with ETS2 can up-regulate it 100-fold or more. The two factors form a complex,and both must bind to the promoter for the combination to be transcriptionally effective,a synergy compromised by POU5F1. Similarly,in human embryonic stem cells,which express ETS2 but not CGA,ETS2 does not occupy its binding site on the CGA promoter but is found instead as a soluble complex with POU5F1. When human embryonic stem cells differentiate in response to bone morphogenetic protein-4 and concentrations of POU5F1 fall and hCG and DLX3 rise,ETS2 then occupies its binding site on the CGA promoter. Hence,a squelching mechanism underpins the transcriptional silencing of CGA by POU5F1 and could have general relevance to how pluripotency is maintained and how the trophoblast lineage emerges from pluripotent precursor cells. View Publication

Recent technological advances in cell reprogramming by generation of induced pluripotent stem cells (iPSC) offer major perspectives in disease modelling and future hopes for providing novel stem cells sources in regenerative medicine. However,research on iPSC still requires refining the criteria of the pluripotency stage of these cells and exploration of their equivalent functionality to human embryonic stem cells (ESC). We report here on the use of infrared microspectroscopy to follow the spectral modification of somatic cells during the reprogramming process. We show that induced pluripotent stem cells (iPSC) adopt a chemical composition leading to a spectral signature indistinguishable from that of embryonic stem cells (ESC) and entirely different from that of the original somatic cells. Similarly,this technique allows a distinction to be made between partially and fully reprogrammed cells. We conclude that infrared microspectroscopy signature is a novel methodology to evaluate induced pluripotency and can be added to the tests currently used for this purpose. View Publication