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Vocal fold epithelial cells are very difficult to study as the vocal fold epithelial cell lines do not exist and they cannot be removed from the healthy larynx without engendering a significant and unacceptable risk to vocal fold function. Here,we describe the procedure to create an engineered vocal fold tissue construct consisting of the scaffold composed of the collagen 1 gel seeded with human fibroblasts and simple epithelial progenitors seeded on the scaffold and cultivated at air-liquid interface for 19-21 days to derive the stratified squamous epithelium. This model of vocal fold mucosa is very similar in morphology,gene expression,and phenotypic characteristics to native vocal fold epithelial cells and the underlying lamina propria and,therefore,offers a promising approach to studying vocal fold biology and biomechanics in health and disease. View Publication

Endothelial cells (ECs) exist in different microenvironments in vivo,including under different levels of shear stress in arteries versus veins. Standard stem cell differentiation protocols to derive ECs and EC-subtypes from human induced pluripotent stem cells (hiPSCs) generally use growth factors or other soluble factors in an effort to specify cell fate. In this study,a biomimetic flow bioreactor was used to subject hiPSC-derived ECs (hiPSC-ECs) to shear stress to determine the impacts on phenotype and upregulation of markers associated with an anti-thrombotic,anti-inflammatory,arterial-like phenotype. The in vitro bioreactor system was able to efficiently mature hiPSC-ECs into arterial-like cells in 24 h,as demonstrated by qRT-PCR for arterial markers EphrinB2,CXCR4,Conexin40 and Notch1,as well protein-level expression of Notch1 intracellular domain (NICD). Furthermore,the exogenous addition of soluble factors was not able to fully recapitulate this phenotype that was imparted by shear stress exposure. The induction of these phenotypic changes was biomechanically mediated in the shear stress bioreactor. This biomimetic flow bioreactor is an effective means for the differentiation of hiPSC-ECs toward an arterial-like phenotype,and is amenable to scale-up for culturing large quantities of cells for tissue engineering applications. View Publication

Differentiation of human embryonic stem (ES) and induced pluripotent stem (iPS) cells into hepatocyte-like cells provides a platform to study the molecular basis of human hepatocyte differentiation,to develop cell culture models of liver disease,and to potentially provide hepatocytes for treatment of end-stage liver disease. Additionally,hepatocyte-like cells generated from human pluripotent stem cells could serve as platforms for drug discovery,determination of pharmaceutical-induced hepatotoxicity,and evaluation of idiosyncratic drug-drug interactions. Here,we describe a step-wise protocol previously developed in our laboratory that facilitates the highly efficient and reproducible differentiation of human pluripotent stem cells into hepatocyte-like cells. Our protocol uses defined culture conditions and closely recapitulates key developmental events that are found to occur during hepatogenesis. View Publication

Feeder-independent culture of human embryonic stem cells. View Publication

Here we describe the in vitro generation of a novel adherent cell fraction derived from highly enriched,mobilized CD133(+) peripheral blood cells after their culture with Flt3/Flk2 ligand and interleukin-6 for 3 to 5 weeks. These cells lack markers of hematopoietic stem cells,endothelial cells,mesenchymal cells,dendritic cells,and stromal fibroblasts. However,all adherent cells expressed the adhesion molecules VE-cadherin,CD54,and CD44. They were also positive for CD164 and CD172a (signal regulatory protein-alpha) and for a stem cell antigen defined by the recently described antibody W7C5. Adherent cells can either spontaneously or upon stimulation with stem cell factor give rise to a transplantable,nonadherent CD133(+)CD34(-) stem cell subset. These cells do not generate in vitro hematopoietic colonies. However,their transplantation into nonobese diabetic/severe combined immunodeficiency (NOD/SCID) mice induced substantially higher long-term multilineage engraftment compared with that of freshly isolated CD34(+) cells,suggesting that these cells are highly enriched in SCID-repopulating cells. In addition to cells of the myeloid lineage,nonadherent CD34(-) cells were able to give rise to human cells with B-,T-,and natural killer-cell phenotype. Hence,these cells possess a distinct in vivo differentiation potential compared with that of CD34(+) stem cells and may therefore provide an alternative to CD34(+) progenitor cells for transplantation. View Publication

In an attempt to bring pluripotent stem cell biology closer to reaching its full potential,many groups have focused on improving reprogramming protocols over the past several years. The episomal modified Sendai virus-based vector has emerged as one of the most practical ones. Here we describe reprogramming of mesenchymal stromal/stem cells (MSC) derived from umbilical cord Wharton's Jelly into induced pluripotent stem cells (iPSC) using genome non-integrating Sendai virus-based vectors. The detailed protocols of iPSC colony cryopreservation (vitrification) and adaption to feeder-free culture conditions are also included. View Publication

High aldehyde dehydrogenase (ALDH) activity has recently been used to identify tumorigenic cell fractions in many cancer types. Herein we hypothesized that a subpopulation of cells with cancer stem cells (CSCs) properties could be identified in established human osteosarcoma cell lines based on high ALDH activity. We previously showed that a subpopulation of cells with high ALDH activity were present in 4 selected human osteosarcoma cell lines,of which a significantly higher ALDH activity was present in the OS99-1 cell line that was originally derived from a highly aggressive primary human osteosarcoma. Using a xenograft model in which OS99-1 cells were grown in NOD/SCID mice,we identified a highly tumorigenic subpopulation of osteosarcoma cells based on their high ALDH activity. Cells with high ALDH activity (ALDH(br) cells) from the OS99-1 xenografts were much less frequent,averaging 3% of the entire tumor population,compared to those isolated directly from the OS99-1 cell line. ALDH(br) cells from the xenograft were enriched with greater tumorigenicity compared to their counterparts with low ALDH activity (ALDH(lo) cells),generating new tumors with as few as 100 cells in vivo. The highly tumorigenic ALDH(br) cells illustrated the stem cell characteristics of self-renewal,the ability to produce differentiated progeny and increased expression of stem cell marker genes OCT3/4A,Nanog and Sox-2. The isolation of osteosarcoma CSCs by their high ALDH activity may provide new insight into the study of osteosarcoma-initiating cells and may potentially have therapeutic implications for human osteosarcoma. View Publication

Human embryonic stem cells (hESCs) is a potential unlimited ex vivo source of ventricular (V) cardiomyocytes (CMs),but hESC-VCMs and their engineered tissues display immature traits. In adult VCMs,sarcolemmal (sarc) and mitochondrial (mito) ATP-sensitive potassium (KATP) channels play crucial roles in excitability and cardioprotection. In this study,we aim to investigate the biological roles and use of sarcKATP and mitoKATP in hESC-VCM. We showed that SarcIK,ATP in single hESC-VCMs was dormant under baseline conditions,but became markedly activated by cyanide (CN) or the known opener P1075 with a current density that was ˜8-fold smaller than adult; These effects were reversible upon washout or the addition of GLI or HMR1098. Interestingly,sarcIK,ATP displayed a ˜3-fold increase after treatment with hypoxia (5% O2). MitoIK,ATP was absent in hESC-VCMs. However,the thyroid hormone T3 up-regulated mitoIK,ATP,conferring diazoxide protective effect on T3-treated hESC-VCMs. When assessed using a multi-cellular engineered 3D ventricular cardiac micro-tissue (hvCMT) system,T3 substantially enhanced the developed tension by 3-folds. Diazoxide also attenuated the decrease in contractility induced by simulated ischemia (1% O2). We conclude that hypoxia and T3 enhance the functionality of hESC-VCMs and their engineered tissues by selectively acting on sarc and mitoIK,ATP. View Publication

Helper-dependent adenoviral vectors mediate high efficiency gene editing in induced pluripotent stem cells without needing a designer nuclease thereby avoiding off-target cleavage. Because of their large cloning capacity of 37 kb,helper-dependent adenoviral vectors with long homology arms are used for gene editing. However,this makes vector construction and recombinant analysis difficult. Conversely,insufficient homology may compromise targeting efficiency. Thus,we investigated the effect of homology length on helper-dependent adenoviral vector targeting efficiency at the cystic fibrosis transmembrane conductance regulator locus in induced pluripotent stem cells and found a positive correlation. With 23.8 and 21.4 kb of homology,the frequencies of targeted recombinants were 50-64.6% after positive selection for vector integration,and 97.4-100% after negative selection against random integrations. With 14.8 kb,the frequencies were 26.9-57.1% after positive selection and 87.5-100% after negative selection. With 9.6 kb,the frequencies were 21.4 and 75% after positive and negative selection,respectively. With only 5.6 kb,the frequencies were 5.6-16.7% after positive selection and 50% after negative selection,but these were more than high enough for efficient identification and isolation of targeted clones. Furthermore,we demonstrate helper-dependent adenoviral vector-mediated footprintless correction of cystic fibrosis transmembrane conductance regulator mutations through piggyBac excision of the selectable marker. However,low frequencies (≤ 1 × 10(-3)) necessitated negative selection for piggyBac-excision product isolation. View Publication