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Asymmetry of cell fate is one fundamental property of stem cells,in which one daughter cell self-renews,whereas the other differentiates. Evidence of nonrandom template segregation (NRTS) of chromosomes during asymmetric cell divisions in phylogenetically divergent organisms,such as plants,fungi,and mammals,has already been shown. However,before this current work,asymmetric inheritance of chromatids has never been demonstrated in differentiating embryonic stem cells (ESCs),and its molecular mechanism has remained unknown. Our results unambiguously demonstrate NRTS in asymmetrically dividing,differentiating human and mouse ESCs. Moreover,we show that NRTS is dependent on DNA methylation and on Dnmt3 (DNA methyltransferase-3),indicating a molecular mechanism that regulates this phenomenon. Furthermore,our data support the hypothesis that retention of chromatids with the old" template DNA preserves the epigenetic memory of cell fate� 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

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

The fabrication of high-density polymer microarray is described,allowing the simultaneous and efficient evaluation of more than 7000 different polymers in a single-cellular-based screen. These high-density polymer arrays are applied in the search for synthetic substrates for hESCs culture. Up-scaling of the identified hit polymers enables long-term cellular cultivation and promoted successful stem-cell maintenance. View Publication

Many studies have compared the genetic and epigenetic profiles of human induced pluripotent stem cells (hiPSCs) to human embryonic stem cells (hESCs) and yet the picture remains unclear. To address this,we derived a population of neural precursor cells (NPCs) from the H1 (WA01) hESC line and generated isogenic iPSC lines by reprogramming. The gene expression and methylation profile of three lines were compared to the parental line and intermediate NPC population. We found no gene probe with expression that differed significantly between hESC and iPSC samples under undifferentiated or differentiated conditions. Analysis of the global methylation pattern also showed no significant difference between the two PSC populations. Both undifferentiated populations were distinctly different from the intermediate NPC population in both gene expression and methylation profiles. One point to note is that H1 is a male line and so extrapolation to female lines should be cautioned. However,these data confirm our previous findings that there are no significant differences between hESCs and hiPSCs at the gene expression or methylation level. View Publication

Recurrent chromosomal alterations have been repeatedly reported in cultured human embryonic stem cells (hESCs). The effects of these alterations on the capability of pluripotent cells to differentiate and on growth potential of their specific differentiated derivatives remain unclear. Here,we report that the hESC lines HUES-7 and -9 carrying multiple chromosomal alterations produce in vitro mesenchymal stem cells (MSCs) that show progressive growth arrest and enter senescence after 15 and 16 passages,respectively. There was no difference in their proliferative potential when compared with bone marrow-derived MSCs. Array comparative genomic hybridization analysis (aCGH) of hESCs and their mesenchymal derivatives revealed no significant differences in chromosomal alterations,suggesting that genetically altered hESCs are not selected out during differentiation. Our findings indicate that genetically unstable hESCs maintain their capacity to differentiate in vitro into MSCs,which exhibit an in vitro growth pattern of normal MSCs and not that of transformed cells. View Publication

Lack of robust methods for establishment and expansion of pluripotent human embryonic stem (hES) cells still hampers development of cell therapy. Laminins (LN) are a family of highly cell-type specific basement membrane proteins important for cell adhesion,differentiation,migration and phenotype stability. Here we produce and isolate a human recombinant LN-521 isoform and develop a cell culture matrix containing LN-521 and E-cadherin,which both localize to stem cell niches in vivo. This matrix allows clonal derivation,clonal survival and long-term self-renewal of hES cells under completely chemically defined and xeno-free conditions without ROCK inhibitors. Neither LN-521 nor E-cadherin alone enable clonal survival of hES cells. The LN-521/E-cadherin matrix allows hES cell line derivation from blastocyst inner cell mass and single blastomere cells without a need to destroy the embryo. This method can facilitate the generation of hES cell lines for development of different cell types for regenerative medicine purposes. View Publication

Tunneling nanotubes (TnTs) are long,non-adherent,actin-based cellular extensions that act as conduits for transport of cellular cargo between connected cells. The mechanisms of nanotube formation and the effects of the tumor microenvironment and cellular signals on TnT formation are unknown. In the present study,we explored exosomes as potential mediators of TnT formation in mesothelioma and the potential relationship of lipid rafts to TnT formation. Mesothelioma cells co-cultured with exogenous mesothelioma-derived exosomes formed more TnTs than cells cultured without exosomes within 24-48. h; and this effect was most prominent in media conditions (low-serum,hyperglycemic medium) that support TnT formation (1.3-1.9-fold difference). Fluorescence and electron microscopy confirmed the purity of isolated exosomes and revealed that they localized predominantly at the base of and within TnTs,in addition to the extracellular environment. Time-lapse microscopic imaging demonstrated uptake of tumor exosomes by TnTs,which facilitated intercellular transfer of these exosomes between connected cells. Mesothelioma cells connected via TnTs were also significantly enriched for lipid rafts at nearly a 2-fold higher number compared with cells not connected by TnTs. Our findings provide supportive evidence of exosomes as potential chemotactic stimuli for TnT formation,and also lipid raft formation as a potential biomarker for TnT-forming cells. textcopyright 2014 Elsevier Inc. View Publication

The generation of functional retinal pigment epithelium (RPE) is of great therapeutic interest to the field of regenerative medicine and may provide possible cures for retinal degenerative diseases,including age-related macular degeneration (AMD). Although RPE cells can be produced from either embryonic stem cells or induced pluripotent stem cells,direct cell reprogramming driven by lineagedetermining transcription factors provides an immediate route to their generation. By monitoring a human RPE specific Best1::GFP reporter,we report the conversion of human fibroblasts into RPE lineage using defined sets of transcription factors. We found that Best1::GFP positive cells formed colonies and exhibited morphological and molecular features of early stage RPE cells. Moreover,they were able to obtain pigmentation upon activation of Retinoic acid (RA) and Sonic Hedgehog (SHH) signaling pathways. Our study not only established an ideal platform to investigate the transcriptional network regulating the RPE cell fate determination,but also provided an alternative strategy to generate functional RPE cells that complement the use of pluripotent stem cells for disease modeling,drug screening,and cell therapy of retinal degeneration. View Publication

Human pluripotent stem cells (PSCs) are critical in vitro tools forbackslashnunderstanding mechanisms that regulate lineage differentiation inbackslashnthe human embryo as well as a potentially unlimited supply of stembackslashncells for regenerative medicine. Pluripotent human and mouse embryonicbackslashnstem cells (ESCs) derived from the inner cell mass of blastocystsbackslashnshare a similar transcription factor network to maintain pluripotencybackslashnand self-renewal,yet there are considerable molecular differencesbackslashnreflecting the diverse environments in which mouse and human ESCsbackslashnare derived. In the current study we evaluated the role of Proteinbackslashnarginine methyltransferase 5 (PRMT5) in human ESC (hESC) self-renewalbackslashnand pluripotency given its critical role in safeguarding mouse ESCbackslashnpluripotency. Unlike the mouse,we discovered that PRMT5 has no rolebackslashnin hESC pluripotency. Using microarray analysis we discovered thatbackslashna significant depletion in PRMT5 RNA and protein from hESCs changedbackslashnthe expression of only 78 genes,with the majority being repressed.backslashnFunctionally,we discovered that depletion of PRMT5 had no effectbackslashnon expression of OCT4,NANOG or SOX2,and did not prevent teratomabackslashnformation. Instead,we show that PRMT5 functions in hESCs to regulatebackslashnproliferation in the self-renewing state by regulating the fractionbackslashnof cells in Gap 1 (G1) of the cell cycle and increasing expressionbackslashnof the G1 cell cycle inhibitor P57. Taken together our data unveilsbackslashna distinct role for PRMT5 in hESCs and identifies P57 as new target. View Publication

Charge-coupled device detectors are vulnerable to cosmic rays that can contaminate Raman spectra with positive going spikes. Because spikes can adversely affect spectral processing and data analyses,they must be removed. Although both hardware-based and software-based spike removal methods exist,they typically require parameter and threshold specification dependent on well-considered user input. Here,we present a fully automated spike removal algorithm that proceeds without requiring user input. It is minimally dependent on sample attributes,and those that are required (e.g.,standard deviation of spectral noise) can be determined with other fully automated procedures. At the core of the method is the identification and location of spikes with coincident second derivatives along both the spectral and spatiotemporal dimensions of two-dimensional datasets. The method can be applied to spectra that are relatively inhomogeneous because it provides fairly effective and selective targeting of spikes resulting in minimal distortion of spectra. Relatively effective spike removal obtained with full automation could provide substantial benefits to users where large numbers of spectra must be processed. View Publication

Molecular markers defining self-renewing pluripotent embryonic stem cells (ESCs) have been identified by relative comparisons between undifferentiated and differentiated cells. Most of analysis has been done under a specific differentiation condition that may present significantly different molecular changes over others. Therefore,it is currently unclear if there are true consensus markers defining undifferentiated hESCs. To identify a set of key genes consistently altered during differentiation of hESCs regardless of differentiation conditions we have performed microarray analysis on undifferentiated hESCs (H1 and H9) and differentiated EB's and validated our results using publicly available expression array data sets. We constructed consensus modules by Weighted Gene Correlation Analysis (WGCNA) and discovered novel markers that are consistently present in undifferentiated hESCs under various differentiation conditions. We have validated top markers (downregulated: LCK,KLKB1 and SLC7A3; upregulated: RhoJ,Zeb2 and Adam12) upon differentiation. Functional validation analysis of LCK in self-renewal of hESCs by using LCK inhibitor or gene silencing with siLCK resulted in a loss of undifferentiation characteristics- morphological change,reduced alkaline phosphatase activity and pluripotency gene expression,demonstrating a potential functional role of LCK in self-renewal of hESCs. We have designated hESC markers to interactive networks in the genome,identifying possible interacting partners and showing how new markers relate to each other. Furthermore,comparison of these data sets with available datasets from iPSCs revealed that the level of these newly identified markers were correlated to the establishment of iPSCs,which may imply a potential role of these markers in gaining of cellular potency. Stem Cells 2014. View Publication