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Fibroblasts from patients with Type I bipolar disorder (BPD) and their unaffected siblings were obtained from an Old Order Amish pedigree with a high incidence of BPD and reprogrammed to induced pluripotent stem cells (iPSCs). Established iPSCs were subsequently differentiated into neuroprogenitors (NPs) and then to neurons. Transcriptomic microarray analysis was conducted on RNA samples from iPSCs,NPs and neurons matured in culture for either 2 weeks (termed early neurons,E) or 4 weeks (termed late neurons,L). Global RNA profiling indicated that BPD and control iPSCs differentiated into NPs and neurons at a similar rate,enabling studies of differentially expressed genes in neurons from controls and BPD cases. Significant disease-associated differences in gene expression were observed only in L neurons. Specifically,328 genes were differentially expressed between BPD and control L neurons including GAD1,glutamate decarboxylase 1 (2.5 fold) and SCN4B,the voltage gated type IV sodium channel beta subunit (-14.6 fold). Quantitative RT-PCR confirmed the up-regulation of GAD1 in BPD compared to control L neurons. Gene Ontology,GeneGo and Ingenuity Pathway Analysis of differentially regulated genes in L neurons suggest that alterations in RNA biosynthesis and metabolism,protein trafficking as well as receptor signaling pathways may play an important role in the pathophysiology of BPD. View Publication

Pig induced pluripotent stem cells (piPSCs) offer a great opportunity and a number of advantages in the generation of transgenic animals. These immortalized cells can undergo multiple rounds of genetic modifications (e.g.,gene knock-in,knockout) and selection leading to animals that have optimized traits of biomedical or agricultural interests. In this chapter we describe the production and characterization of piPSCs,microinjection of piPSCs into embryos,embryo transfer and production of chimeric animals based on successful protocols. View Publication

In this study,we trace developmental stages using epigenome changes in human embryonic stem cells (hESCs) treated with drugs modulating either self-renewal or differentiation. Based on microscopy,qPCR and flow cytometry,we classified the treatment outcome as inducing pluripotency (hESC,flurbiprofen and gatifloxacin),mesendoderm (sinomenine),differentiation (cyamarin,digoxin,digitoxin,selegeline and theanine) and lineage-commitment (RA). When we analyzed histone PTMs that imprinted these gene and protein expressions,the above classification was reassorted. Hyperacetylation at H3K4,9,14,18,56 and 122 as well as H4K5,8,12 and 16 emerged as the pluripotency signature of hESCs. Methylations especially of H3 at K9,K20,K27 and K36 characterized differentiation initiation as seen in no-drug control and fluribiprofen. Sinomenine-treated cells clustered close to differentiation initiators"� View Publication

The in vitro differentiation of human embryonic stem cells (hESCs) offers a model system to explore human development. Humans with mutations in the transcription factor Aristaless Related Homeobox (ARX) often suffer from the syndrome X-linked lissencephaly with ambiguous genitalia (XLAG),affecting many cell types including those of the pancreas. Indeed,XLAG pancreatic islets lack glucagon and pancreatic polypeptide-positive cells but retain somatostatin,insulin,and ghrelin-positive cells. To further examine the role of ARX in human pancreatic endocrine development,we utilized genomic editing in hESCs to generate deletions in ARX. ARX knockout hESCs retained pancreatic differentiation capacity and ARX knockout endocrine cells were biased toward somatostatin-positive cells (94% of endocrine cells) with reduced pancreatic polypeptide (rarely detected),glucagon (90% reduced) and insulin-positive (65% reduced) lineages. ARX knockout somatostatin-positive cells shared expression patterns with human fetal and adult $$-cells. Differentiated ARX knockout cells upregulated PAX4,NKX2.2,ISL1,HHEX,PCSK1,PCSK2 expression while downregulating PAX6 and IRX2. Re-expression of ARX in ARX knockout pancreatic progenitors reduced HHEX and increased PAX6 and insulin expression following differentiation. Taken together these data suggest that ARX plays a key role in pancreatic endocrine fate specification of pancreatic polypeptide,somatostatin,glucagon and insulin positive cells from hESCs. View Publication

The tentative clinical application of human pluripotent stem cells (hPSCs),such as human embryonic stem cells and human induced pluripotent stem cells,is restricted by the possibility of xenogenic contamination resulting from the use of mouse embryonic fibroblasts (MEFs) as a feeder layer. Therefore,we investigated hPSC cultures on biomaterials with different elasticities that were grafted with different nanosegments. We prepared dishes coated with polyvinylalcohol-co-itaconic acid hydrogels grafted with an oligopeptide derived from vitronectin (KGGPQVTRGDVFTMP) with elasticities ranging from 10.3 to 30.4 kPa storage moduli by controlling the crosslinking time. The hPSCs cultured on the stiffest substrates (30.4 kPa) tended to differentiate after five days of culture,whereas the hPSCs cultured on the optimal elastic substrates (25 kPa) maintained their pluripotency for over 20 passages under xeno-free conditions. These results indicate that cell culture matrices with optimal elasticity can maintain the pluripotency of hPSCs in culture. View Publication

AIM To generate human embryonic stem cell derived corneal endothelial cells (hESC-CECs) for transplantation in patients with corneal endothelial dystrophies. MATERIALS AND METHODS Feeder-free hESC-CECs were generated by a directed differentiation protocol. hESC-CECs were characterized by morphology,expression of corneal endothelial markers,and microarray analysis of gene expression. RESULTS hESC-CECs were nearly identical morphologically to primary human corneal endothelial cells,expressed Zona Occludens 1 (ZO-1) and Na+/K+ATPase$\$1 (ATPA1) on the apical surface in monolayer culture,and produced the key proteins of Descemet's membrane,Collagen VIII$\$1 and VIII$\$2 (COL8A1 and 8A2). Quantitative PCR analysis revealed expression of all corneal endothelial pump transcripts. hESC-CECs were 96% similar to primary human adult CECs by microarray analysis. CONCLUSION hESC-CECs are morphologically similar,express corneal endothelial cell markers and express a nearly identical complement of genes compared to human adult corneal endothelial cells. hESC-CECs may be a suitable alternative to donor-derived corneal endothelium. View Publication

Ionizing radiation (IR) is a known mutagen that is widely employed for medical diagnostic and therapeutic purposes. To study the extent of genetic variations in DNA caused by IR,we used IR-sensitive human embryonic stem cells (hESCs). Four hESC cell lines,H1,H7,H9,and H14,were subjected to IR at 0.2 or 1 Gy dose and then maintained in culture for four days before being harvested for DNA isolation. Irradiation with 1 Gy dose resulted in significant cell death,ranging from 60% to 90% reduction in cell population. Since IR is often implicated as a risk for inducing cancer,a primer pool targeting genomic hotspot" regions that are frequently mutated in human cancer genes was used to generate libraries from irradiated and control samples. Using a semiconductor-based next-generation sequencing approach� View Publication

BACKGROUND Heterogeneity of endothelial cells (ECs) is a hallmark of the vascular system which may impact the development and management of vascular disorders. Despite the tremendous progress in differentiation of human embryonic stem cells (hESCs) towards endothelial lineage,differentiation into arterial and venous endothelial phenotypes remains elusive. Additionally,current differentiation strategies are hampered by inefficiency,lack of reproducibility,and use of animal-derived products. METHODS To direct the differentiation of hESCs to endothelial subtypes,H1- and H9-hESCs were seeded on human plasma fibronectin and differentiated under chemically defined conditions by sequential modulation of glycogen synthase kinase-3 (GSK-3),basic fibroblast growth factor (bFGF),bone morphogenetic protein 4 (BMP4) and vascular endothelial growth factor (VEGF) signaling pathways for 5 days. Following the initial differentiation,the endothelial progenitor cells (CD34(+)CD31(+) cells) were sorted and terminally differentiated under serum-free conditions to arterial and venous ECs. The transcriptome and secretome profiles of the two distinct populations of hESC-derived arterial and venous ECs were characterized. Furthermore,the safety and functionality of these cells upon in vivo transplantation were characterized. RESULTS Sequential modulation of hESCs with GSK-3 inhibitor,bFGF,BMP4 and VEGF resulted in stages reminiscent of primitive streak,early mesoderm/lateral plate mesoderm,and endothelial progenitors under feeder- and serum-free conditions. Furthermore,these endothelial progenitors demonstrated differentiation potential to almost pure populations of arterial and venous endothelial phenotypes under serum-free conditions. Specifically,the endothelial progenitors differentiated to venous ECs in the absence of VEGF,and to arterial phenotype under low concentrations of VEGF. Additionally,these hESC-derived arterial and venous ECs showed distinct molecular and functional profiles in vitro. Furthermore,these hESC-derived arterial and venous ECs were nontumorigenic and were functional in terms of forming perfused microvascular channels upon subcutaneous implantation in the mouse. CONCLUSIONS We report a simple,rapid,and efficient protocol for directed differentiation of hESCs into endothelial progenitor cells capable of differentiation to arterial and venous ECs under feeder-free and serum-free conditions. This could offer a human platform to study arterial-venous specification for various applications related to drug discovery,disease modeling and regenerative medicine in the future. View Publication

Alzheimer's disease and frontotemporal dementia are amongst the most common forms of dementia characterized by the formation and deposition of abnormal TAU in the brain. In order to develop a translational human TAU aggregation model suitable for screening,we transduced TAU harboring the pro-aggregating P301L mutation into control hiPSC-derived neural progenitor cells followed by differentiation into cortical neurons. TAU aggregation and phosphorylation was quantified using AlphaLISA technology. Although no spontaneous aggregation was observed upon expressing TAU-P301L in neurons,seeding with preformed aggregates consisting of the TAU-microtubule binding repeat domain triggered robust TAU aggregation and hyperphosphorylation already after 2 weeks,without affecting general cell health. To validate our model,activity of two autophagy inducers was tested. Both rapamycin and trehalose significantly reduced TAU aggregation levels suggesting that iPSC-derived neurons allow for the generation of a biologically relevant human Tauopathy model,highly suitable to screen for compounds that modulate TAU aggregation. View Publication

Recent evidence suggests human embryonic stem cell (hESC) and induced pluripotent stem (iPS) cell lines have differences in their epigenetic marks and transcriptomes,yet the impact of these differences on subsequent terminally differentiated cells is less well understood. Comparison of purified,homogeneous populations of somatic cells derived from multiple independent human iPS and ES lines will be required to address this critical question. Here,we report a differentiation protocol based on embryonic development that consistently yields large numbers of endothelial cells (ECs) derived from multiple hESCs or iPS cells. Mesoderm differentiation of embryoid bodies was maximized,and defined growth factors were used to generate KDR+ EC progenitors. Magnetic purification of a KDR+ progenitor subpopulation resulted in an expanding,homogeneous pool of ECs that expressed EC markers and had functional properties of ECs. Comparison of the transcriptomes revealed limited gene expression variability between multiple lines of human iPS-derived ECs or between lines of ES- and iPS-derived ECs. These results demonstrate a method to generate large numbers of pure human EC progenitors and differentiated ECs from pluripotent stem cells and suggest individual lineages derived from human iPS cells may have significantly less variance than their pluripotent founders. STEM Cells2013;31:92–103 View Publication

Trisomy 21 is associated with hematopoietic abnormalities in the fetal liver,a preleukemic condition termed transient myeloproliferative disorder,and increased incidence of acute megakaryoblastic leukemia. Human trisomy 21 pluripotent cells of various origins,human embryonic stem (hES),and induced pluripotent stem (iPS) cells,were differentiated in vitro as a model to recapitulate the effects of trisomy on hematopoiesis. To mitigate clonal variation,we isolated disomic and trisomic subclones from the same parental iPS line,thereby generating subclones isogenic except for chromosome 21. Under differentiation conditions favoring development of fetal liver-like,γ-globin expressing,definitive hematopoiesis,we found that trisomic cells of hES,iPS,or isogenic origins exhibited a two- to fivefold increase in a population of CD43(+)(Leukosialin)/CD235(+)(Glycophorin A) hematopoietic cells,accompanied by increased multilineage colony-forming potential in colony-forming assays. These findings establish an intrinsic disturbance of multilineage myeloid hematopoiesis in trisomy 21 at the fetal liver stage. View Publication

BACKGROUND: The histone variant H2A.Z has been implicated in nucleosome exchange,transcriptional activation and Polycomb repression. However,the relationships among these seemingly disparate functions remain obscure.backslashnbackslashnRESULTS: We mapped H2A.Z genome-wide in mammalian ES cells and neural progenitors. H2A.Z is deposited promiscuously at promoters and enhancers,and correlates strongly with H3K4 methylation. Accordingly,H2A.Z is present at poised promoters with bivalent chromatin and at active promoters with H3K4 methylation,but is absent from stably repressed promoters that are specifically enriched for H3K27 trimethylation. We also characterized post-translational modification states of H2A.Z,including a novel species dually-modified by ubiquitination and acetylation that is enriched at bivalent chromatin.backslashnbackslashnCONCLUSIONS: Our findings associate H2A.Z with functionally distinct genomic elements,and suggest that post-translational modifications may reconcile its contrasting locations and roles. View Publication