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Ectopic expression of defined sets of genetic factors can reprogram somatic cells to induced pluripotent stem (iPS) cells that closely resemble embryonic stem (ES) cells. The low efficiency with which iPS cells are derived hinders studies on the molecular mechanism of reprogramming,and integration of viral transgenes,in particular the oncogenes c-Myc and Klf4,may handicap this method for human therapeutic applications. Here we report that valproic acid (VPA),a histone deacetylase inhibitor,enables reprogramming of primary human fibroblasts with only two factors,Oct4 and Sox2,without the need for the oncogenes c-Myc or Klf4. The two factor-induced human iPS cells resemble human ES cells in pluripotency,global gene expression profiles and epigenetic states. These results support the possibility of reprogramming through purely chemical means,which would make therapeutic use of reprogrammed cells safer and more practical. View Publication

In mouse,a subset of dendritic cells (DCs) known as CD8alpha+ DCs has emerged as an important player in the regulation of T cell responses and a promising target in vaccination strategies. However,translation into clinical protocols has been hampered by the failure to identify CD8alpha+ DCs in humans. Here,we characterize a population of human DCs that expresses DNGR-1 (CLEC9A) and high levels of BDCA3 and resembles mouse CD8alpha+ DCs in phenotype and function. We describe the presence of such cells in the spleens of humans and humanized mice and report on a protocol to generate them in vitro. Like mouse CD8alpha+ DCs,human DNGR-1+ BDCA3hi DCs express Necl2,CD207,BATF3,IRF8,and TLR3,but not CD11b,IRF4,TLR7,or (unlike CD8alpha+ DCs) TLR9. DNGR-1+ BDCA3hi DCs respond to poly I:C and agonists of TLR8,but not of TLR7,and produce interleukin (IL)-12 when given innate and T cell-derived signals. Notably,DNGR-1+ BDCA3+ DCs from in vitro cultures efficiently internalize material from dead cells and can cross-present exogenous antigens to CD8+ T cells upon treatment with poly I:C. The characterization of human DNGR-1+ BDCA3hi DCs and the ability to grow them in vitro opens the door for exploiting this subset in immunotherapy. View Publication

The hepatic differentiation of human induced pluripotent stem cells (hiPSC) holds great potential for application in regenerative medicine,pharmacological drug screening,and toxicity testing. However,full maturation of hiPSC into functional hepatocytes has not yet been achieved. In this study,we investigated the potential of a dynamic three-dimensional (3D) hollow fiber membrane bioreactor technology to improve the hepatic differentiation of hiPSC in comparison to static two-dimensional (2D) cultures. A total of 100 × 10(6) hiPSC were seeded into each 3D bioreactor (n = 3). Differentiation into definitive endoderm (DE) was induced by adding activin A,Wnt3a,and sodium butyrate to the culture medium. For further maturation,hepatocyte growth factor and oncostatin M were added. The same differentiation protocol was applied to hiPSC maintained in 2D cultures. Secretion of alpha-fetoprotein (AFP),a marker for DE,was significantly (p textless 0.05) higher in 2D cultures,while secretion of albumin,a typical characteristic for mature hepatocytes,was higher after hepatic differentiation of hiPSC in 3D bioreactors. Functional analysis of multiple cytochrome P450 (CYP) isoenzymes showed activity of CYP1A2,CYP2B6,and CYP3A4 in both groups,although at a lower level compared to primary human hepatocytes (PHH). CYP2B6 activities were significantly (p textless 0.05) higher in 3D bioreactors compared with 2D cultures,which is in line with results from gene expression. Immunofluorescence staining showed that the majority of cells was positive for albumin,cytokeratin 18 (CK18),and hepatocyte nuclear factor 4-alpha (HNF4A) at the end of the differentiation process. In addition,cytokeratin 19 (CK19) staining revealed the formation of bile duct-like structures in 3D bioreactors similar to native liver tissue. The results indicate a better maturation of hiPSC in the 3D bioreactor system compared to 2D cultures and emphasize the potential of dynamic 3D culture systems in stem cell differentiation approaches for improved formation of differentiated tissue structures. View Publication

Human embryonic stem cell (hESC) line chHES-468 was derived from abnormal blastocyst donated by polycystic kidney syndrome (PKD) patient after preimplantation genetic diagnosis (PGD) treatment. DNA sequencing analysis confirmed that chHES-468 cell line carried a heterozygous mutation,c.1052610527delAG,of PKD1. Characteristic tests proved that the chHES-468 cell line presented typical markers of pluripotency and had the capability to form the three germ layers both in vitro and in vivo. View Publication

Establishing cultures of human embryonic (ES) and induced pluripotent (iPS) stem cells in xeno-free conditions is essential for producing clinical-grade cells. Development of cell culture biomaterials for human ES and iPS cells is critical for this purpose. We designed several structures of oligopeptide-grafted poly (vinyl alcohol-co-itaconic acid) hydrogels with optimal elasticity,and prepared them in formations of single chain,single chain with joint segment,dual chain with joint segment,and branched-type chain. Oligopeptide sequences were selected from integrin- and glycosaminoglycan-binding domains of the extracellular matrix. The hydrogels grafted with vitronectin-derived oligopeptides having a joint segment or a dual chain,which has a storage modulus of 25 kPa,supported the long-term culture of human ES and iPS cells for over 10 passages. The dual chain and/or joint segment with cell adhesion molecules on the hydrogels facilitated the proliferation and pluripotency of human ES and iPS cells. View Publication

Induced pluripotent stem cells (iPSCs) are pluripotent cells derived from adult somatic cells. After the pioneering work by Yamanaka,who first generated iPSCs by retroviral transduction of four reprogramming factors,several alternative methods to obtain iPSCs have been developed in order to increase the yield and safety of the process. However,the question remains open on whether the different reprogramming methods can influence the pluripotency features of the derived lines. In this study,three different strategies,based on retroviral vectors,episomal vectors,and Sendai virus vectors,were applied to derive iPSCs from human fibroblasts. The reprogramming efficiency of the methods based on episomal and Sendai virus vectors was higher than that of the retroviral vector-based approach. All human iPSC clones derived with the different methods showed the typical features of pluripotent stem cells,including the expression of alkaline phosphatase and stemness maker genes,and could give rise to the three germ layer derivatives upon embryoid bodies assay. Microarray analysis confirmed the presence of typical stem cell gene expression profiles in all iPSC clones and did not identify any significant difference among reprogramming methods. In conclusion,the use of different reprogramming methods is equivalent and does not affect gene expression profile of the derived human iPSCs. View Publication

We have developed models of HIV latency using microglia derived from adult human patient brain cortex and transformed with the SV40 T large and hTERT antigens. Latent clones infected by HIV reporter viruses display high levels of spontaneous HIV reactivation in culture. BrainPhys,a medium highly representative of the CNS extracellular environment,containing low glucose and 1{\%} FBS,reduced,but did not prevent,HIV reactivation. We hypothesized that spontaneous HIV reactivation in culture was due to the expression of pro-inflammatory genes,such as TNF-alpha$,taking place in the absence of the natural inhibitory signals from astrocytes and neurons. Indeed,expression and secretion of TNF-alpha$ is strongly reduced in HIV-latently infected microglia compared to the subset of cells that have undergone spontaneous HIV reactivation. Whereas inhibitors of NF-kappa$B or of macrophage activation only had a short-term silencing effect,addition of dexamethasone (DEXA),a glucocorticoid receptor (GR) agonist and mediator of anti-inflammation,silenced the HIV provirus in a long-term,and shRNA-mediated knock-down of GR activated HIV. DEXA also decreased secretion of a number of cytokines,including TNF-alpha$. Chromatin immunoprecipitation analysis revealed that DEXA strongly increased GR occupancy at the HIV promoter,and reduced histone 3 acetylated levels. Moreover,TNF-alpha$ expression inhibitors in combination with DEXA induced further HIV silencing and increased the histone 3 lysine 27 tri-methylated epigenetic mark of repression at the HIV promoter region. We conclude that GR is a critical repressor of HIV transcription in microglia,and a novel potential pharmacological target to restrict HIV expression in the CNS. View Publication

Hematopoiesis depends on the association of hematopoietic stem cells with stromal cells that constitute the hematopoietic microenvironment. The in vitro development of the endothelial cell from umbilical cord blood (UCB) is not well established and has met very limited success. In this study,UCB CD34(+) cells were cultured for 5 weeks in a stroma-free liquid culture system using thrombopoietin,flt3 ligand,and granulocyte-colony stimulating factor. By week 4-5,we found that firmly adherent fibroblast-like cells were established. These cells showed characteristics of endothelial cells expressing von Willebrand factor,human vascular cell adhesion molecule-1,human intracellular adhesion molecule-1,human CD31,E-selectin,and human macrophage. Furthermore,when comparing an ex vivo system without an established endothelial monolayer to an ex vivo system with an established endothelial monolayer,better expansion of total nucleated cells,CD34(+) cells,and colony-forming units (CFUs)-granulocyte-macrophage and CFUs-granulocyte-erythroid-megakaryocyte-macrophage were found during culture. This phenomenon was in part due to the fact that a significant reduction of apoptotic fractions was found in the CD34(+) cells,which were cultured on the adherent monolayer for up to 5 weeks. To gather quantitative data on the number of endothelial cells derived from a given number of CD34 cells,we performed limiting dilution assay by using Poisson distribution: the number of tested cells (linear scale) producing a 37% negative culture (logarithmic scale) is the number of cells containing one endothelial cell. By this method,one endothelial cell may be found from 314 CD34(+) cells after 5 weeks of culture. These results suggest that the UCB CD34(+) cell fraction contains endothelial cell precursors,establishing the hematopoietic microenvironment and providing the beneficial effects through downregulating apoptosis on UCB expansion protocols. These observations may provide insight for future cellular therapy or graft engineering. View Publication

Human embryonic stem cells (hESC) are difficult to adapt to 96-well plate assays,such as the MTT assay,because they survive best when plated as colonies,which are not easily counted and plated accurately. Two methods were developed to address this problem. In the first,ROCK inhibitor (ROCKi) was used,which allows accurate counting and plating of single hESC. In the second,small colonies were plated without ROCKi but with adaptations for accurate counting and plating. The MTT assay was also adapted for use with mouse neural stem cells. These methods allow the MTT assay to be conducted rapidly and accurately with high reproducibility between replicate experiments. When screening volatile chemicals in a 96-well plate,vapor effects may occur and dose ranges must be carefully defined. The methods were validated using the NIH assay guidance tool. These methodss could readily be translated to other 96-well plate assay. View Publication

Because neurons are difficult to obtain from humans,generating functional neurons from human induced pluripotent stem cells (hiPSCs) is important for establishing physiological or disease-relevant screening systems for drug discovery. To examine the culture conditions leading to efficient differentiation of functional neural cells,we investigated the effects of oxygen stress (2% or 20% O2) and differentiation medium (DMEM/F12:Neurobasal-based [DN] or commercial [PhoenixSongs Biologicals; PS]) on the expression of genes related to neural differentiation,glutamate receptor function,and the formation of networks of neurons differentiated from hiPSCs (201B7) via long-term self-renewing neuroepithelial-like stem (lt-NES) cells. Expression of genes related to neural differentiation occurred more quickly in PS and/or 2% O2 than in DN and/or 20% O2,resulting in high responsiveness of neural cells to glutamate,N-methyl-d-aspartate (NMDA),α-amino-3-hydroxy-5-methyl-4-isoxazolepropionate (AMPA),and (S)-3,5-d... View Publication

Although current breast cancer treatment guidelines limit the use of HER2-blocking agents to tumors with HER2 gene amplification,recent retrospective analyses suggest that a wider group of patients may benefit from this therapy. Using breast cancer cell lines,mouse xenograft models and matched human primary and metastatic tissues,we show that HER2 is selectively expressed in and regulates self-renewal of the cancer stem cell (CSC) population in estrogen receptor-positive (ER(+)),HER2(-) luminal breast cancers. Although trastuzumab had no effects on the growth of established luminal breast cancer mouse xenografts,administration after tumor inoculation blocked subsequent tumor growth. HER2 expression is increased in luminal tumors grown in mouse bone xenografts,as well as in bone metastases from patients with breast cancer as compared with matched primary tumors. Furthermore,this increase in HER2 protein expression was not due to gene amplification but rather was mediated by receptor activator of NF-$$B (RANK)-ligand in the bone microenvironment. These studies suggest that the clinical efficacy of adjuvant trastuzumab may relate to the ability of this agent to target the CSC population in a process that does not require HER2 gene amplification. Furthermore,these studies support a CSC model in which maximal clinical benefit is achieved when CSC targeting agents are administered in the adjuvant setting. Cancer Res; 73(5); 1635-46. textcopyright2012 AACR. 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