技术资料

Realizing the full potential of human embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) requires efficient methods for genetic modification. However,techniques to generate cell type-specific lineage reporters,as well as reliable tools to disrupt,repair or overexpress genes by gene targeting,are inefficient at best and thus are not routinely used. Here we report the highly efficient targeting of three genes in human pluripotent cells using zinc-finger nuclease (ZFN)-mediated genome editing. First,using ZFNs specific for the OCT4 (POU5F1) locus,we generated OCT4-eGFP reporter cells to monitor the pluripotent state of hESCs. Second,we inserted a transgene into the AAVS1 locus to generate a robust drug-inducible overexpression system in hESCs. Finally,we targeted the PITX3 gene,demonstrating that ZFNs can be used to generate reporter cells by targeting non-expressed genes in hESCs and hiPSCs. View Publication

RATIONALE: Tolerogenic dendritic cells and natural regulatory T cells have been implicated in the process of infectious tolerance in human allergic asthma. However,the significance of the influence of natural regulatory T cells on tolerogenic dendritic cells in the disease has not been investigated. OBJECTIVES: We aimed to characterize the mechanism of induction of the tolerogenic phenotype in circulating blood dendritic cells by allergic asthmatic natural regulatory T cells. METHODS: The study was performed in a cohort of 21 subjects with allergic asthma,21 healthy control subjects,and 21 subjects with nonallergic asthma. We cultured blood dendritic cells with natural regulatory T cells to study the induction of tolerogenic dendritic cells. Flow cytometry and proliferation assays were employed to analyze phenotype and function of dendritic cells as well as IL-10 production from natural regulatory T cells. MEASUREMENTS AND MAIN RESULTS: Dendritic cells cultured with natural regulatory T cells up-regulated IL-10,down-regulated costimulatory molecules,and stimulated the proliferation of CD4(+)CD25(-) effector T cells less potently. Allergic asthmatic natural regulatory T cells were significantly less efficient in inducing this tolerogenic phenotype of dendritic cells compared with healthy control and nonallergic asthmatic counterparts. Furthermore,this defective function of natural regulatory T cells was associated with their decreased IL-10 expression,disease severity,and could be reversed by oral corticosteroid therapy. CONCLUSIONS: These results provided the first evidences of impaired induction of tolerogenic dendritic cells mediated by natural regulatory T cells in human allergic asthma. View Publication

Cell-matrix interactions are paramount for the successful repair and regeneration of damaged and diseased tissue. Since many tissues have an anisotropic architecture,it has been proposed that aligned extracellular matrix (ECM) structures in particular could guide and support the differentiation of resident mesenchymal stem and progenitor cells (MSCs). We therefore created aligned collagen type I structures using a microfluidic set-up with the aim to assess their impact on MSC growth and differentiation. In addition,we refined our aligned collagen matrices by incorporating the glycosaminoglycan (GAG) heparin to demonstrate the versatility of the applied methodology to study multiple ECM components in a single system. Our reconstituted,aligned ECM structures maintained and allowed multilineage (osteogenic/adipogenic/chondrogenic) differentiation of MSCs. Most noticeable was the observation that during osteogenesis,aligned collagen substrates choreographed ordered matrix mineralization. Likewise,myotube assembly of C2C12 cells was profoundly influenced by aligned topographic features resulting in enhanced myotube organization and length. Our results shed light on the regulation of MSCs through directional ECM structures and demonstrate the versatility of these cell culture platforms for guiding the morphogenesis of tissue types with anisotropic structures. View Publication

A variety of nonmalignant cells present in the tumor microenvironment promotes tumorigenesis by stimulating tumor cell growth and metastasis or suppressing host immunity. The role of such stromal cells in T-cell lymphoproliferative disorders is incompletely understood. Monocyte-derived cells (MDCs),including professional antigen-presenting cells such as dendritic cells (DCs),play a central role in T-cell biology. Here,we provide evidence that monocytes promote the survival of malignant T cells and demonstrate that MDCs are abundant within the tumor microenvironment of T cell-derived lymphomas. Malignant T cells were observed to remain viable during in vitro culture with autologous monocytes,but cell death was significantly increased after monocyte depletion. Furthermore,monocytes prevent the induction of cell death in T-cell lymphoma lines in response to either serum starvation or doxorubicin,and promote the engraftment of these cells in nonobese diabetic/severe combined immunodeficient mice. Monocytes are actively recruited to the tumor microenvironment by CCL5 (RANTES),where their differentiation into mature DCs is impaired by tumor-derived interleukin-10. Collectively,the data presented demonstrate a previously undescribed role for monocytes in T-cell lymphoproliferative disorders. View Publication

The multidrug transporter ABCG2 in cell membranes enables various stem cells and cancer cells to efflux chemicals,including the fluorescent dye Hoechst 33342. The Hoechst(-) cells can be sorted out as a side population with stem cell properties. Abcg2 expression in mouse embryonic stem cells (ESCs) reduces accumulation of DNA-damaging metabolites in the cells,which helps prevent cell differentiation. Surprisingly,we found that human ESCs do not express ABCG2 and cannot efflux Hoechst. In contrast,trophoblasts and neural epithelial cells derived from human ESCs are ABCG2(+) and Hoechst(-). Human ESCs ectopically expressing ABCG2 become Hoechst(-),more tolerant of toxicity of mitoxantrone,a substrate of ABCG2,and more capable of self-renewal in basic fibroblast growth factor (bFGF)-free condition than control cells. However,Hoechst(low) cells sorted as a small subpopulation from human ESCs express lower levels of pluripotency markers than the Hoechst(high) cells. Similar results were observed with human induced pluripotent stem cells. Conversely,mouse ESCs are Abcg2(+) and mouse trophoblasts,Abcg2(-). Thus,absence of ABCG2 is a novel feature of human pluripotent stem cells,which distinguishes them from many other stem cells including mouse ESCs,and may be a reason why they are sensitive to suboptimal culture conditions. View Publication

The reprogramming of somatic cells into induced pluripotent stem (iPS) cells upon overexpression of the transcription factors Oct4,Sox2,Klf4 and cMyc is inefficient. It has been assumed that the somatic differentiation state provides a barrier for efficient reprogramming; however,direct evidence for this notion is lacking. Here,we tested the potential of mouse hematopoietic cells at different stages of differentiation to be reprogrammed into iPS cells. We show that hematopoietic stem and progenitor cells give rise to iPS cells up to 300 times more efficiently than terminally differentiated B and T cells do,yielding reprogramming efficiencies of up to 28%. Our data provide evidence that the differentiation stage of the starting cell has a critical influence on the efficiency of reprogramming into iPS cells. Moreover,we identify hematopoietic progenitors as an attractive cell type for applications of iPS cell technology in research and therapy. View Publication

Up to now,no lentiviral vector (LV) tool existed to govern efficient and stable gene delivery into quiescent B lymphocytes,which hampers its application in gene therapy and immunotherapy areas. Here,we report that LVs incorporating measles virus (MV) glycoproteins,H and F,on their surface allowed transduction of 50% of quiescent B cells,which are not permissive to VSVG-LV transduction. This high transduction level correlated with B-cell SLAM expression and was not at cost of cell-cycle entry or B-cell activation. Moreover,the naive and memory phenotypes of transduced resting B cells were maintained. Importantly,H/F-LVs represent the first tool permitting stable transduction of leukemic cancer cells,B-cell chronic lymphocytic leukemia cells,blocked in G(0)/G(1) early phase of the cell cycle. Thus,H/F-LV transduction overcomes the limitations of current LVs by making B cell-based gene therapy and immunotherapy applications feasible. These new LVs will facilitate antibody production and the study of gene functions in these healthy and cancer immune cells. View Publication

Inappropriate activation of the Hedgehog (Hh) signaling pathway has been implicated in a diverse spectrum of cancers,and its pharmacological blockade has emerged as an anti-tumor strategy. While nearly all known Hh pathway antagonists target the transmembrane protein Smoothened (Smo),small molecules that suppress downstream effectors could more comprehensively remediate Hh pathway-dependent tumors. We report here four Hh pathway antagonists that are epistatic to the nucleocytoplasmic regulator Suppressor of Fused [Su(fu)],including two that can inhibit Hh target gene expression induced by overexpression of the Gli transcription factors. Each inhibitor has a unique mechanism of action,and their phenotypes reveal that Gli processing,Gli activation,and primary cilia formation are pharmacologically targetable. We further establish the ability of certain compounds to block the proliferation of cerebellar granule neuron precursors expressing an oncogenic form of Smo,and we demonstrate that Hh pathway inhibitors can have tissue-specific activities. These antagonists therefore constitute a valuable set of chemical tools for interrogating downstream Hh signaling mechanisms and for developing chemotherapies against Hh pathway-related cancers. View Publication

Human breast tumors contain a breast cancer stem cell (BCSC) population with properties reminiscent of normal stem cells. We found 37 microRNAs that were differentially expressed between human BCSCs and nontumorigenic cancer cells. Three clusters,miR-200c-141,miR-200b-200a-429,and miR-183-96-182 were downregulated in human BCSCs,normal human and murine mammary stem/progenitor cells,and embryonal carcinoma cells. Expression of BMI1,a known regulator of stem cell self-renewal,was modulated by miR-200c. miR-200c inhibited the clonal expansion of breast cancer cells and suppressed the growth of embryonal carcinoma cells in vitro. Most importantly,miR-200c strongly suppressed the ability of normal mammary stem cells to form mammary ducts and tumor formation driven by human BCSCs in vivo. The coordinated downregulation of three microRNA clusters and the similar functional regulation of clonal expansion by miR-200c provide a molecular link that connects BCSCs with normal stem cells. View Publication

Genital herpes,caused by herpes simplex virus type 2 (HSV-2),is one of the most prevalent sexually transmitted diseases worldwide and a risk factor for acquiring human immunodeficiency virus. Although many vaccine candidates have shown promising results in animal models,they have failed to be effective in human trials. In this study,a humanized mouse strain was evaluated as a potential preclinical model for studying human immune responses to HSV-2 infection and vaccination. Immunodeficient mouse strains were examined for their abilities to develop human innate and adaptive immune cells after transplantation of human umbilical cord stem cells. A RAG2(-/-) gammac(-/-) mouse strain with a BALB/c background was chosen as the most appropriate model and was then examined for its ability to mount innate and adaptive immune responses to intravaginal HSV-2 infection and immunization. After primary infection,human cells in the lymph nodes were able to generate a protective innate immune response and produce gamma interferon (IFN-gamma). After intravaginal immunization and infection,human T cells and NK cells were found in the genital tract and iliac lymph nodes. In addition,human T cells in the spleen,lymph nodes,and vaginal tract were able to respond to stimulation with HSV-2 antigens by replicating and producing IFN-gamma. Human B cells were also able to produce HSV-2-specific immunoglobulin G. These adaptive responses were also shown to be protective and reduce local viral replication in the genital tract. This approach provides a means for studying human immune responses in vivo using a small-animal model and may become an important preclinical tool. View Publication

Magnetic resonance imaging (MRI) may emerge as an ideal non-invasive imaging modality to monitor stem cell therapy in the failing heart. This imaging modality generates any arbitrary tomographic view at high spatial and temporal resolution with exquisite intrinsic tissue contrast. This capability enables robust evaluation of both the cardiac anatomy and function. Traditionally,superparamagnetic iron oxide nanoparticle (SPIO) has been widely used for cellular MRI due to SPIO's ability to enhance sensitivity of MRI by inducing remarkable hypointense,negative signal,blooming effect" on T2*-weighted MRI acquisition. Recently� View Publication

View Publication