技术资料

Medulloblastoma is the most common pediatric malignant brain tumor. Although current therapies improve survival,these regimens are highly toxic and are associated with significant morbidity. Here,we report that placental growth factor (PlGF) is expressed in the majority of medulloblastomas,independent of their subtype. Moreover,high expression of PlGF receptor neuropilin 1 (Nrp1) correlates with poor overall survival in patients. We demonstrate that PlGF and Nrp1 are required for the growth and spread of medulloblastoma: PlGF/Nrp1 blockade results in direct antitumor effects in vivo,resulting in medulloblastoma regression,decreased metastasis,and increased mouse survival. We reveal that PlGF is produced in the cerebellar stroma via tumor-derived Sonic hedgehog (Shh) and show that PlGF acts through Nrp1-and not vascular endothelial growth factor receptor 1-to promote tumor cell survival. This critical tumor-stroma interaction-mediated by Shh,PlGF,and Nrp1 across medulloblastoma subtypes-supports the development of therapies targeting PlGF/Nrp1 pathway. View Publication

Activation of neural stem/progenitor cells (NSPCs) is a potential therapeutic strategy of neurological disorders. In this study,NSPCs of subventricular zone were isolated and cultured from platelet-derived growth factor-β-receptor-knockout (PDGFR-β(-/-)) mice of postnatal day 1 (P1) and P28,and the roles of PDGFR-β were examined in these cells. In PDGFR-β-preserving control NSPCs,stem cell activities,such as numbers and diameters of secondary neurospheres,cell proliferation and survival rates,were significantly higher in P1 NSPCs than those in P28 NSPCs. In PDGFR-β(-/-) NSPCs,most of these parameters were decreased as compared with age-matched controls. Among them,the decrease of secondary neurosphere formation was most striking in P1 and P28 PDGFR-β(-/-) NSPCs and in P28 control NSPCs as compared with P1 control NSPCs. PCR-array and following quantitative real-time PCR (qRT-PCR) analyses demonstrated that expressions of fibroblast growth factor-2 (FGF2) and exons IV-IX of brain-derived neurotrophic factor (BDNF) were decreased,and noggin was increased in P1 PDGFR-β(-/-) as compared with P1 controls. Addition of BDNF rescued the number and diameter of secondary neurospheres in P1 PDGFR-β(-/-) NSPCs to similar levels as controls. The expressions of PDGFs and PDGFRs in control NSPCs were increased along with the differentiation-induction,where phosphorylated PDGFR-β was co-localized with neuronal and astrocyte differentiation markers. In controls,the neuronal differentiation was decreased,and the glial differentiation was increased from P1 to P28 NSPCs. Compared with P1 controls,neuronal differentiation was reduced in P1 PDGFR-β(-/-) NSPCs,whereas glial differentiation was comparable between the two genotypes. These results suggest that PDGFR-β signaling is important for the self-renewal and multipotency of NSPCs,particularly in neonatal NSPCs. BDNF,FGF2,and noggin may be involved in the effects of PDGFR-β signaling in these cells. Accordingly,the activation of PDGFR-β in NSPCs may be a novel therapeutic strategy of neurological diseases. View Publication

Transforming growth factor beta (TGF-$$) signaling has been implicated in driving tumor progression and metastasis by inducing stem cell-like features in some human cancer cell lines. In this study,we have utilized a novel murine cell line NMuMG-ST,which acquired cancer stem cell (CSC) phenotypes during spontaneous transformation of the untransformed murine mammary cell line NMuMG,to investigate the role of autocrine TGF-$$ signaling in regulating their survival,metastatic ability,and the maintenance of cancer stem cell characteristics. We have retrovirally transduced a dominant-negative TGF-$$ type II receptor (DNRII) into the NMuMG-ST cell to abrogate autocrine TGF-$$ signaling. The expression of DNRII reduced TGF-$$ sensitivity of the NMuMG-ST cells in various cell-based assays. The blockade of autocrine TGF-$$ signaling reduced the ability of the cell to grow anchorage-independently and to resist serum deprivation-induced apoptosis. These phenotypes were associated with reduced levels of active and phosphorylated AKT and ERK,and Gli1 expression suggesting that these pathways contribute to the growth and survival of this model system. More interestingly,the abrogation of autocrine TGF-$$ signaling also led to the attenuation of several features associated with mammary stem cells including epithelial-mesenchymal transition,mammosphere formation,and expression of stem cell markers. When xenografted in athymic nude mice,the DNRII cells were also found to undergo apoptosis and induced significantly lower lung metastasis burden than the control cells even though they formed similar size of xenograft tumors. Thus,our results indicate that autocrine TGF-$$ signaling is involved in the maintenance and survival of stem-like cell population resulting in the enhanced metastatic ability of the murine breast cancer cells. View Publication

New small molecules that regulate the step-wise differentiation of human pluripotent stem cells into dopaminergic neurons have been identified. The steroid,guggulsterone,was found to be the most effective inducer of neural stem cells into dopaminergic neurons. These neurons are extensively characterized and shown to be functional. We believe this new approach offers a practical route to creating neurons of sufficient quality to be used to treat Parkinson's disease patients. View Publication

Human ES cells (hESC) exposed to bone morphogenic protein 4 (BMP4) in the absence of FGF2 have become widely used for studying trophoblast development,but the soundness of this model has been challenged by others,who concluded that differentiation was primarily toward mesoderm rather than trophoblast. Here we confirm that hESC grown under the standard conditions on a medium conditioned by mouse embryonic fibroblasts in the presence of BMP4 and absence of FGF2 on a Matrigel substratum rapidly convert to an epithelium that is largely KRT7+ within 48 h,with minimal expression of mesoderm markers,including T (Brachyury). Instead,they begin to express a series of trophoblast markers,including HLA-G,demonstrate invasive properties that are independent of the continued presence of BMP4 in the medium,and,over time,produce extensive amounts of human chorionic gonadotropin,progesterone,placental growth factor,and placental lactogen. This process of differentiation is not dependent on conditioning of the medium by mouse embryonic fibroblasts and is accelerated in the presence of inhibitors of Activin and FGF2 signaling,which at day 2 provide colonies that are entirely KRT7+ and in which the majority of cells are transiently CDX2+. Colonies grown on two chemically defined media,including the one in which BMP4 was reported to drive mesoderm formation,also differentiate at least partially to trophoblast in response to BMP4. The experiments demonstrate that the in vitro BMP4/hESC model is valid for studying the emergence and differentiation of trophoblasts. View Publication

We report that a single growth factor,NM23-H1,enables serial passaging of both human ES and iPS cells in the absence of feeder cells,their conditioned media or bFGF in a fully defined xeno-free media on a novel defined,xeno-free surface. Stem cells cultured in this system show a gene expression pattern indicative of a more naïve" state than stem cells grown in bFGF-based media. NM23-H1 and MUC1* growth factor receptor cooperate to control stem cell self-replication. By manipulating the multimerization state of NM23-H1� View Publication

In this study,we sought to establish a novel method to prospectively and dynamically identify live human oligodendrocyte precursor cells (OPCs) and oligodendrocyte lineage cells from brain dissociates and pluripotent stem cell culture. We selected a highly conserved enhancer element of the Sox10 gene,known as MCS5,which directs reporter expression to oligodendrocyte lineage cells in mouse and zebrafish. We demonstrate that lentiviral Sox10-MCS5 induced expression of GFP at high levels in a subpopulation of human CD140a/PDGF??R-sorted OPCs as well as their immature oligodendrocyte progeny. Furthermore,we show that almost all Sox10-MCS5:GFPhigh cells expressed OPC antigen CD140a and human OPCs expressing SOX10,OLIG2,and PDGFRA mRNAs could be prospectively identified using GFP based fluorescence activated cells sorting alone. Additionally,we established a human induced pluripotent cell (iPSC) line transduced with the Sox10-MCS5:GFP reporter using a Rex-Neo cassette. Similar to human primary cells,GFP expression was restricted to embryoid bodies containing both oligodendrocyte progenitor and oligodendrocyte cells and co-localized with NG2 and O4-positive cells respectively. As such,we have developed a novel reporter system that can track oligodendrocyte commitment in human cells,establishing a valuable tool to improve our understanding and efficiency of human oligodendrocyte derivation. ?? 2013 Elsevier Inc. View Publication

We report for the first time a microdevice that enables the selective enrichment,culture,and identification of tumor-initiating cells on native polydimethylsiloxane (PDMS). For nearly a decade,researchers have identified tumor-initiating breast cancer cells within heterogeneous populations of breast cancer cells by utilizing low-attachment serum-free culture conditions,which lead to the formation of spheroidal colonies (mammospheres) that are enriched for tumor-initiating cells. However,the utility of this assay has been limited by difficulties in combining this culture-plate-based technique with other cellular and molecular analyses. Integrating the mammosphere technique into a microsystem can enable it to be combined directly with a number of functions,such as cell sorting,drug screens,and molecular assays. In this work,we demonstrate mammosphere culture within a PDMS microdevice. We first prove that a native hydrophobic PDMS surface is as effective as commercial low-attachment plates at selectively promoting the formation of mammospheres. We then experimentally assess the PDMS microdevice. Time-lapse images of mammosphere formation within the microdevice show that mammospheres form from single cells or small clusters of cells. Following formation of the mammospheres,it is desirable to evaluate the cells within the spheroids for enrichment of tumor initiating cells. To perform assays such as this (which require the loading and rinsing of reagents) without flushing the cells (which are in suspension) from the device,the culture chamber is separated from a reagent reservoir by a commercially available microporous membrane,and thus reagents are exchanged between the reservoir and the culture chamber by diffusion only. Using this capability,we verify that the mammospheres are enriched for tumor initiating cells by staining aldehyde dehydrogenase activity,a cancer stem cell marker. To the best of our knowledge,this is the first assay that enables the direct observation of tumor-initiating cells within a suspended mammosphere. View Publication

Although activated inflammatory monocytes (IMCs) and inflammatory dendritic cells (IDCs) are potent T cell suppressors,nonactivated IMCs and IDCs promote T cell activation and Th1/Th17 cell differentiation. In this study,we investigated how to reduce the proinflammatory properties of IMCs and IDCs and further convert them into immune regulatory dendritic cells (DCs). We found that IL-4 and retinoic acid (RA) cotreatment of GM-CSF-differentiated IDCs synergistically induced the expression of aldehyde dehydrogenase family 1,subfamily A2,a rate-limiting enzyme for RA synthesis in DCs. IL-4 plus RA-treated IDCs upregulated CD103 expression and markedly reduced the production of proinflammatory cytokines upon activation. IL-4 plus RA-treated IDCs strongly induced CD4�?�Foxp3�?� regulatory T cell differentiation and suppressed Th1 and Th17 differentiation. Mechanistically,the transcription factors Stat6 and RA receptor $$ play important roles in aldehyde dehydrogenase family 1,subfamily A2,induction. In addition,IL-4 and RA signaling pathways interact closely to enhance the regulatory function of treated DCs. Adoptive transfer of IL-4 plus RA-treated DCs significantly increased regulatory T cell frequency in vivo. Direct treatment with IL-4 and RA also markedly suppressed actively induced experimental autoimmune encephalomyelitis. Our data demonstrate the synergistic effect of IL-4 and RA in inducing a regulatory phenotype in IDCs,providing a potential treatment strategy for autoimmune diseases. View Publication

Little is known about chromosomal loopings involving proximal promoter and distal enhancer elements regulating GABAergic gene expression,including changes in schizophrenia and other psychiatric conditions linked to altered inhibition. Here,we map in human chromosome 2q31 the 3D configuration of 200 kb of linear sequence encompassing the GAD1 GABA synthesis enzyme gene locus,and we describe a loop formation involving the GAD1 transcription start site and intergenic noncoding DNA elements facilitating reporter gene expression. The GAD1-TSS(-50kbLoop) was enriched with nucleosomes epigenetically decorated with the transcriptional mark,histone H3 trimethylated at lysine 4,and was weak or absent in skin fibroblasts and pluripotent stem cells compared with neuronal cultures differentiated from them. In the prefrontal cortex of subjects with schizophrenia,GAD1-TSS(-50kbLoop) was decreased compared with controls,in conjunction with downregulated GAD1 expression. We generated transgenic mice expressing Gad2 promoter-driven green fluorescent protein-conjugated histone H2B and confirmed that Gad1-TSS(-55kbLoop),the murine homolog to GAD1-TSS(-50kbLoop),is a chromosomal conformation specific for GABAergic neurons. In primary neuronal culture,Gad1-TSS(-55kbLoop) and Gad1 expression became upregulated when neuronal activity was increased. We conclude that 3D genome architectures,including chromosomal loopings for promoter-enhancer interactions involved in the regulation of GABAergic gene expression,are conserved between the rodent and primate brain,and subject to developmental and activity-dependent regulation,and disordered in some cases with schizophrenia. More broadly,the findings presented here draw a connection between noncoding DNA,spatial genome architecture,and neuronal plasticity in development and disease. View Publication

Cardiovascular progenitor cells (CVPCs) derived from human pluripotent stem cells (hPSCs),including human embryonic stem cells (hESCs) and human induced pluripotent stem cells (hiPSCs),hold great promise for the study of cardiovascular development and cell-based therapy of heart diseases,but their applications are challenged by the difficulties in their efficient generation and stable maintenance. This study aims to develop chemically defined systems for robust generation and stable propagation of hPSC-derived CVPCs by modulating the key early developmental pathways involved in human cardiovascular specification and CVPC self-renewal. Herein we report that a combination of bone morphogenetic protein 4 (BMP4),glycogen synthase kinase 3 (GSK3) inhibitor CHIR99021 and ascorbic acid is sufficient to rapidly convert monolayer-cultured hPSCs,including hESCs and hiPSCs,into homogeneous CVPCs in a chemically defined medium under feeder- and serum-free culture conditions. These CVPCs stably self-renewed under feeder- and serum-free conditions and expanded over 10(7)-fold when the differentiation-inducing signals from BMP,GSK3 and Activin/Nodal pathways were simultaneously eliminated. Furthermore,these CVPCs exhibited expected genome-wide molecular features of CVPCs,retained potentials to generate major cardiovascular lineages including cardiomyocytes,smooth muscle cells and endothelial cells in vitro,and were non-tumorigenic in vivo. Altogether,the established systems reported here permit efficient generation and stable maintenance of hPSC-derived CVPCs,which represent a powerful tool to study early embryonic cardiovascular development and provide a potentially safe source of cells for myocardial regenerative medicine. View Publication

Human embryonic stem cells (hESCs) are considered a potential alternative to cadaveric islets as a source of transplantable cells for treating patients with diabetes. We previously described a differentiation protocol to generate pancreatic progenitor cells from hESCs,composed of mainly pancreatic endoderm (PDX1/NKX6.1-positive),endocrine precursors (NKX2.2/synaptophysin-positive,hormone/NKX6.1-negative),and polyhormonal cells (insulin/glucagon-positive,NKX6.1-negative). However,the relative contributions of NKX6.1-negative versus NKX6.1-positive cell fractions to the maturation of functional β-cells remained unclear. To address this question,we generated two distinct pancreatic progenitor cell populations using modified differentiation protocols. Prior to transplant,both populations contained a high proportion of PDX1-expressing cells (˜85%-90%) but were distinguished by their relatively high (˜80%) or low (˜25%) expression of NKX6.1. NKX6.1-high and NKX6.1-low progenitor populations were transplanted subcutaneously within macroencapsulation devices into diabetic mice. Mice transplanted with NKX6.1-low cells remained hyperglycemic throughout the 5-month post-transplant period whereas diabetes was reversed in NKX6.1-high recipients within 3 months. Fasting human C-peptide levels were similar between groups throughout the study,but only NKX6.1-high grafts displayed robust meal-,glucose- and arginine-responsive insulin secretion as early as 3 months post-transplant. NKX6.1-low recipients displayed elevated fasting glucagon levels. Theracyte devices from both groups contained almost exclusively pancreatic endocrine tissue,but NKX6.1-high grafts contained a greater proportion of insulin-positive and somatostatin-positive cells,whereas NKX6.1-low grafts contained mainly glucagon-expressing cells. Insulin-positive cells in NKX6.1-high,but not NKX6.1-low grafts expressed nuclear MAFA. Collectively,this study demonstrates that a pancreatic endoderm-enriched population can mature into highly functional β-cells with only a minor contribution from the endocrine subpopulation. View Publication