技术资料

Vitamin D has been known to be important for skeletal development and growth but the mechanism whereby it affects these processes is not well understood. We report now that the hormonal metabolite of vitamin D3,namely 1,25-dihydroxyvitamin D3,stimulates chondrogenesis in cultures of stage 24 chick embryo limb bud mesenchymal cells,as evidenced by morphologic changes as well as by increased transcription of collagen type II and core protein genes. This effect appears to be specific to 1,25(OH)2D3 since 24,25(OH)2D3 or D3 does not influence chondrogenesis in this system,and is probably mediated via the specific 1,25(OH)2D3 receptor protein which is undetectable in untreated cells but appears following exposure to the hormone. View Publication

The demonstration that the small synthetic molecule reversine [2-(4-morpholinoanilino)-N6-cyclohexyladenine] promotes the dedifferentiation of committed cells into multipotent progenitor-type cells has raised hopes on the exploitation of this small chemical tool for the generation of stem cells. Here,we show that reversine causes a failure in cytokinesis and induces polyploidization. These effects of reversine are due to the inhibition of Aurora A and B,two related kinases that are implicated in several aspects of mitosis and that are frequently amplified and overexpressed in human tumors. Reversine inhibits the phosphorylation of histone H3,a direct downstream target of Aurora kinases. Similarly to the Aurora kinase inhibitor VX-680,which has recently entered phase II clinical trials for cancer treatment,reversine inhibited colony formation of leukemic cells from patients with acute myeloid leukemia but was significantly less toxic than VX-680 on cells from healthy donors. The crystal structure of the reversine-Aurora B kinase complex shows that reversine is a novel class of ATP-competitive Aurora kinase inhibitors. Thus,although our studies raise serious doubts on the application of reversine in regenerative medicine,they support the paradigm that reversine might be a useful agent in cancer chemotherapy. View Publication

High-throughput screening (HTS) of chemical libraries has become a critical tool in basic biology and drug discovery. However,its implementation and the adaptation of high-content assays to human embryonic stem cells (hESCs) have been hampered by multiple technical challenges. Here we present a strategy to adapt hESCs to HTS conditions,resulting in an assay suitable for the discovery of small molecules that drive hESC self-renewal or differentiation. Use of this new assay has led to the identification of several marketed drugs and natural compounds promoting short-term hESC maintenance and compounds directing early lineage choice during differentiation. Global gene expression analysis upon drug treatment defines known and novel pathways correlated to hESC self-renewal and differentiation. Our results demonstrate feasibility of hESC-based HTS and enhance the repertoire of chemical compounds for manipulating hESC fate. The availability of high-content assays should accelerate progress in basic and translational hESC biology. View Publication

Human interferon (IFN)-alpha is the standard therapy for chronic hepatitis C to prevent its progression to liver cirrhosis and hepatocellular carcinoma. Thrombocytopenia is one of the major adverse effects of IFN-alpha and often leads to dose reduction or treatment discontinuation. However,there is little information on how IFN-alpha inhibits human megakaryopoiesis. In this study,we demonstrated that IFN-alpha did not inhibit colony formation of megakaryocytes from human CD34(+) hematopoietic stem cells. IFN-alpha did not inhibit endomitosis but did inhibit cytoplasmic maturation of megakaryocytes and platelet production in vitro. IFN-alpha suppressed the expression of transcription factors regulating late-stage megakaryopoiesis,such as GATA-1,p45(NF-E2),MafG. IFN-alpha also significantly reduced the number of human platelets but not megakaryocytes,and did not inhibit endomitosis of human megakaryocytes in immunodeficient NOD/Shi-scid/IL-2R gamma(null) (NOG) mice transplanted with human CD34(+) cells (hu-NOG). We also demonstrated that a novel thrombopoietin mimetic,NIP-004,was effective for treating IFN-alpha-induced thrombocytopenia in hu-NOG mice. From ultrastructural study,IFN-alpha inhibited the maturation of demarcation membranes in megakaryocytes,although NIP-004 prevented the inhibitory effects of IFN-alpha. These results defined the pathogenesis of IFN-alpha-induced thrombocytopenia and suggested possible future clinical applications for thrombopoietin mimetics. View Publication

Reprogramming of mouse and human somatic cells can be achieved by ectopic expression of transcription factors,but with low efficiencies. We report that DNA methyltransferase and histone deacetylase (HDAC) inhibitors improve reprogramming efficiency. In particular,valproic acid (VPA),an HDAC inhibitor,improves reprogramming efficiency by more than 100-fold,using Oct4-GFP as a reporter. VPA also enables efficient induction of pluripotent stem cells without introduction of the oncogene c-Myc. View Publication

To better understand endogenous parameters that influence pluripotent cell differentiation we used human embryonic stem cells (hESCs) as a model system. We demonstrate that differentiation trajectories in aggregate (embryoid body [EB])-induced differentiation,a common approach to mimic some of the spatial and temporal aspects of in vivo development,are affected by three factors: input hESC composition,input hESC colony size,and EB size. Using a microcontact printing approach,size-specified hESC colonies were formed by plating single-cell suspensions onto micropatterned (MP) extracellular matrix islands. Subsequently,size-controlled EBs were formed by transferring entire colonies into suspension culture enabling the independent investigation of colony and aggregate size effects on differentiation induction. Gene and protein expression analysis of MP-hESC populations revealed that the ratio of Gata6 (endoderm-associated marker) to Pax6 (neural-associated marker) expression increased with decreasing colony size. Moreover,upon forming EBs from these MP-hESCs,we observed that differentiation trajectories were affected by both colony and EB size-influenced parameters. In MP-EBs generated from endoderm-biased (high Gata6/Pax6) input hESCs,higher mesoderm and cardiac induction was observed at larger EB sizes. Conversely,neural-biased (low Gata6/Pax6) input hESCs generated MP-EBs that exhibited higher cardiac induction in smaller EBs. Our analysis demonstrates that heterogeneity in hESC colony and aggregate size,typical in most differentiation strategies,produces subsets of appropriate conditions for differentiation into specific cell types. Moreover,our findings suggest that the local microenvironment modulates endogenous parameters that can be used to influence pluripotent cell differentiation trajectories. View Publication

Outcomes of 159 young patients with inherited metabolic disorders (IMDs) undergoing transplantation with partially HLA-mismatched unrelated donor umbilical cord blood were studied to investigate the impact of graft and patient characteristics on engraftment,overall survival (OS),and graft-versus-host disease (GVHD). Patients received myeloablative chemotherapy (busulfan,cyclophosphamide,ATG) and cyclosporine-based GVHD prophylaxis. Infused cell doses were high (7.57 x 10(7)/kg) because of the patients' young age (median,1.5 years) and small size (median,12 kg). Median follow-up was 4.2 years (range,1-11 years). The cumulative incidences of neutrophil and platelet engraftment were 87.1% (95% confidence interval [CI],81.8%-92.4%) and 71.0% (95% CI,63.7%-78.3%). A total of 97% achieved high (textgreater 90%) donor chimerism. Serum enzyme normalized in 97% of patients with diseases for which testings exist. Grade III/IV acute GVHD occurred in 10.3% (95% CI,5.4%-15.2%) of patients. Extensive chronic GVHD occurred in 10.8% (95% CI,5.7%-15.9%) of patients by 1 year. OS at 1 and 5 years was 71.8% (95% CI,64.7%-78.9%) and 58.2% (95% CI,49.7%-66.6%) in all patients and 84.5% (95% CI,77.0%-92.0%) and 75.7% (95% CI,66.1%-85.3%) in patients with high (80-100) performance score. In multivariate analysis,favorable factors for OS were high pretransplantation performance status,matched donor/recipient ethnicity,and higher infused colony forming units. View Publication

Mature mammary epithelial cells are generated from undifferentiated precursors through a hierarchical process,but the molecular mechanisms involved,particularly in the human mammary gland,are poorly understood. To address this issue,we isolated highly purified subpopulations of primitive bipotent and committed luminal progenitor cells as well as mature luminal and myoepithelial cells from normal human mammary tissue and compared their transcriptomes obtained using three different methods. Elements unique to each subset of mammary cells were identified,and changes that accompany their differentiation in vivo were shown to be recapitulated in vitro. These include a stage-specific change in NOTCH pathway gene expression during the commitment of bipotent progenitors to the luminal lineage. Functional studies further showed NOTCH3 signaling to be critical for this differentiation event to occur in vitro. Taken together,these findings provide an initial foundation for future delineation of mechanisms that perturb primitive human mammary cell growth and differentiation. View Publication

BACKGROUND: Methylation of CpG dinucleotides is a fundamental mechanism of epigenetic regulation in eukaryotic genomes. Development of methods for rapid genome wide methylation profiling will greatly facilitate both hypothesis and discovery driven research in the field of epigenetics. In this regard,a single molecule approach to methylation profiling offers several unique advantages that include elimination of chemical DNA modification steps and PCR amplification. RESULTS: A single molecule approach is presented for the discernment of methylation profiles,based on optical mapping. We report results from a series of pilot studies demonstrating the capabilities of optical mapping as a platform for methylation profiling of whole genomes. Optical mapping was used to discern the methylation profile from both an engineered and wild type Escherichia coli. Furthermore,the methylation status of selected loci within the genome of human embryonic stem cells was profiled using optical mapping. CONCLUSION: The optical mapping platform effectively detects DNA methylation patterns. Due to single molecule detection,optical mapping offers significant advantages over other technologies. This advantage stems from obviation of DNA modification steps,such as bisulfite treatment,and the ability of the platform to assay repeat dense regions within mammalian genomes inaccessible to techniques using array-hybridization technologies. View Publication

This study was to evaluate the enhancement value of chloroquine (CQ) in cancer cell killing when used in combination with Akt inhibitors. The results showed that the combination of CQ and Akt inhibitors is much more effective than either one alone. Importantly,the CQ-mediated chemosensitization of cell killing effects by Akt inhibitors is cancer specific. In particular,when combined with 10 microM CQ,1,3-dihydro-1-(1-((4-(6-phenyl-1H-imidazo[4,5-g]quinoxalin-7-yl)phenyl)methyl)-4-piperidinyl)-2H-benzimidazol-2-one (an Akt1 and 2 inhibitor; compound 8) killed cancer cells 10-120 times more effectively than normal cells. Thus,CQ is a very effective and cancer-specific chemosensitizer when used in combination with Akt inhibitors. View Publication

Some cases of pre-B cell acute lymphoblastic leukemia (pre-B-ALL) are caused by the Philadelphia (Ph) chromosome-encoded BCR-ABL oncogene,and these tend to have a poor prognosis. Inhibitors of the PI3K/AKT pathway reduce BCR-ABL-mediated transformation in vitro; however,the specific PI3K isoforms involved are poorly defined. Using a murine model of Ph+ pre-B-ALL,we found that deletion of both Pik3r1 and Pik3r2,genes encoding class IA PI3K regulatory isoforms,severely impaired transformation. BCR-ABL-dependent pre/pro-B cell lines could be established at low frequency from progenitors that lacked these genes,but the cells were smaller,proliferated more slowly,and failed to cause leukemia in vivo. These cell lines displayed nearly undetectable PI3K signaling function and were resistant to the PI3K inhibitor wortmannin. However,they maintained activation of mammalian target of rapamycin (mTOR) and were more sensitive to rapamycin. Treatment with rapamycin caused feedback activation of AKT in WT cell lines but not PI3K-deficient lines. A dual inhibitor of PI3K and mTOR,PI-103,was more effective than rapamycin at suppressing proliferation of mouse pre-B-ALL and human CD19+CD34+)Ph+ ALL leukemia cells treated with the ABL kinase inhibitor imatinib. Our findings provide mechanistic insights into PI3K dependency in oncogenic networks and provide a rationale for targeting class IA PI3K,alone or together with mTOR,in the treatment of Ph+ ALL. View Publication

The optimization of a purely negative depletion,enrichment process for circulating tumor cells (CTCs) in the peripheral blood of head and neck cancer patients is presented. The enrichment process uses a red cell lysis step followed by immunomagnetic labeling,and subsequent depletion,of CD45 positive cells. A number of relevant variables are quantified,or attempted to be quantified,which control the performance of the enrichment process. Six different immunomagnetic labeling combinations were evaluated as well as the significant difference in performance with respect to the blood source: buffy coats purchased from the Red Cross,fresh,peripheral blood from normal donors,and fresh peripheral blood from human cancer patients. After optimization,the process is able to reduce the number of normal blood cells in a cancer patient's blood from 4.05 x 10(9) to 8.04 x 10(3) cells/mL and still recover,on average,2.32 CTC per mL of blood. For all of the cancer patient blood samples tested in which CTC were detected (20 out of 26 patients) the average recovery of CTCs was 21.7 per mL of blood,with a range of 282 to 0.53 CTC. Since the initial number of CTC in a patient's blood is unknown,and most probably varies from patient to patient,the recovery of the CTC is unknown. However,spiking studies of a cancer cell line into normal blood,and subsequent enrichment using the optimized protocol indicated an average recovery of approximately 83%. Unlike a majority of other published studies,this study focused on quantifying as many factors as possible to facilitate both the optimization of the process as well as provide information for current and future performance comparisons. The authors are not aware any other reported study which has achieved the performance reported here (a 5.66 log(10)) in a purely negative enrichment mode of operation. Such a mode of operation of an enrichment process provides significant flexibility in that it has no bias with respect to what attributes define a CTC; thereby allowing the researcher or clinician to use any maker they choose to define whether the final,enrich product contains CTCs or other cell type relevant to the specific question (i.e.,does the CTC have predominantly epithelial or mesenchymal characteristics?). View Publication