技术资料

Overexpression of high mobility group AT-hook 2 (HMGA2) is found in a number of benign and malignant tumors,including the clonal PIGA(-) cells in 2 cases of paroxysmal nocturnal hemoglobinuria (PNH) and some myeloproliferative neoplasms (MPNs),and recently in hematopoietic cell clones resulting from gene therapy procedures. In nearly all these cases overexpression is because of deletions or translocations that remove the 3' untranslated region (UTR) which contains binding sites for the regulatory micro RNA let-7. We were therefore interested in the effect of HMGA2 overexpression in hematopoietic tissues in transgenic mice (ΔHmga2 mice) carrying a 3'UTR-truncated Hmga2 cDNA. ΔHmga2 mice expressed increased levels of HMGA2 protein in various tissues including hematopoietic cells and showed proliferative hematopoiesis with increased numbers in all lineages of peripheral blood cells,hypercellular bone marrow (BM),splenomegaly with extramedullary erythropoiesis and erythropoietin-independent erythroid colony formation. ΔHmga2-derived BM cells had a growth advantage over wild-type cells in competitive repopulation and serial transplantation experiments. Thus overexpression of HMGA2 leads to proliferative hematopoiesis with clonal expansion at the stem cell and progenitor levels and may account for the clonal expansion in PNH and MPNs and in gene therapy patients after vector insertion disrupts the HMGA2 locus. View Publication

α-Lipoic acid (LA) is a thiol with antioxidant properties that protects against oxidative stress-induced apoptosis. LA is absorbed from the diet,taken up by cells and tissues,and subsequently reduced to dihydrolipoic acid (DHLA). Recently,DHLA has been used as the hydrophilic nanomaterial preparations,and therefore,determination of its bio-safety profile is essential. In this article,we show that DHLA (50-100 μM) induces apoptotic processes in mouse embryonic stem cells (ESC-B5),but exerts no injury effects at treatment dosages below 50 μM. Higher concentrations of DHLA (50-100 μM) directly increased the reactive oxygen species (ROS) content in ESC-B5 cells,along with a significant increase in cytoplasmic free calcium and nitric oxide (NO) levels,loss of mitochondrial membrane potential (MMP),activation of caspases-9 and -3,and cell death. Pretreatment with NO scavengers suppressed the apoptotic biochemical changes induced by 100 μM DHLA and promoted the gene expression levels of p53 and p21 involved in apoptotic signaling. Our results collectively indicate that DHLA at concentrations of 50-100 μM triggers apoptosis of ESC-B5 cells,which involves both ROS and NO. Importantly,at doses of less than 50 μM (0-25 μM),DHLA does not exert hazardous effects on ESC-B5 cell properties,including viability,development and differentiation. These results provide important information in terms of dosage safety and biocompatibility of DHLA to facilitate its further use as a precursor for biomaterial preparation. View Publication

PURPOSE: The purpose of this study was to determine whether histone deacetylase (HDAC) inhibitors (HDACI) such as vorinostat or entinostat (SNDX-275) could increase the lethality of the dual Bcr/Abl-Aurora kinase inhibitor KW-2449 in various Bcr/Abl(+) human leukemia cells,including those resistant to imatinib mesylate (IM). EXPERIMENTAL DESIGN: Bcr/Abl(+) chronic myelogenous leukemia (CML) and acute lymphoblastic leukemia (ALL) cells,including those resistant to IM (T315I,E255K),were exposed to KW-2449 in the presence or absence of vorinostat or SNDX-275,after which apoptosis and effects on signaling pathways were examined. In vivo studies combining HDACIs and KW2449 were carried out by using a systemic IM-resistant ALL xenograft model. RESULTS: Coadministration of HDACIs synergistically increased KW-2449 lethality in vitro in multiple CML and Ph(+) ALL cell types including human IM resistant cells (e.g.,BV-173/E255K and Adult/T315I). Combined treatment resulted in inactivation of Bcr/Abl and downstream targets (e.g.,STAT5 and CRKL),as well as increased reactive oxygen species (ROS) generation and DNA damage (γH2A.X). The latter events and cell death were significantly attenuated by free radical scavengers (TBAP). Increased lethality was also observed in primary CD34(+) cells from patients with CML,but not in normal CD34(+) cells. Finally,minimally active vorinostat or SNDX275 doses markedly increased KW2449 antitumor effects and significantly prolonged the survival of murine xenografts bearing IM-resistant ALL cells (BV173/E255K). CONCLUSIONS: HDACIs increase KW-2449 lethality in Bcr/Abl(+) cells in association with inhibition of Bcr/Abl,generation of ROS,and induction of DNA damage. This strategy preferentially targets primary Bcr/Abl(+) hematopoietic cells and exhibits enhanced in vivo activity. Combining KW-2449 with HDACIs warrants attention in IM-resistant Bcr/Abl(+) leukemias. View Publication

Age-related macular degeneration (AMD) is one of the major causes of blindness in aging population that progresses with death of retinal pigment epithelium (RPE) and photoreceptor degeneration inducing impairment of central vision. Discovery of human induced pluripotent stem (hiPS) cells has opened new avenues for the treatment of degenerative diseases using patient-specific stem cells to generate tissues and cells for autologous cell-based therapy. Recently,RPE cells were generated from hiPS cells. However,there is no evidence that those hiPS-derived RPE possess specific RPE functions that fully distinguish them from other types of cells. Here,we show for the first time that RPE generated from hiPS cells under defined conditions exhibit ion transport,membrane potential,polarized vascular endothelial growth factor secretion,and gene expression profile similar to those of native RPE. The hiPS-RPE could therefore be a very good candidate for RPE replacement therapy in AMD. However,these cells show rapid telomere shortening,DNA chromosomal damage,and increased p21 expression that cause cell growth arrest. This rapid senescence might affect the survival of the transplanted cells in vivo and therefore,only the very early passages should be used for regeneration therapies. Future research needs to focus on the generation of safe" as well as viable hiPS-derived somatic cells." View Publication

The term laminopathies defines a group of genetic disorders caused by defects in the nuclear envelope,mostly the lamins. Lamins are the main constituents of the nuclear lamina,a filamentous meshwork associated with the inner nuclear membrane that provides mechanical stability and plays important roles in processes such as transcription,DNA replication and chromatin organization. More than 300 mutations inlamin A/C have been associated with diverse clinical phenotypes,understanding the molecular basis of these diseases may provide a rationale for treating them. Here we describe the generation of induced pluripotent stem cells (iPSCs) from a patient with inherited dilated cardiomiopathy and 2 patients with distinct accelerated forms of aging,atypical Werner syndrome and Hutchinson Gilford progeria,all of which are caused by mutations in lamin A/C. These cell lines were pluripotent and displayed normal nuclear membrane morphology compared to donor fibroblasts. Their differentiated progeny reproduced the disease phenotype,reinforcing the idea that they represent excellent tools for understanding the role of lamin A/C in normal physiology and the clinical diversity associated with these diseases. View Publication

BACKGROUND Medulloblastoma is a highly malignant pediatric brain tumor that requires surgery,whole brain and spine irradiation,and intense chemotherapy for treatment. A more sophisticated understanding of the pathophysiology of medulloblastoma is needed to successfully reduce the intensity of treatment and improve outcomes. Nuclear factor kappa-B (NFκB) is a signaling pathway that controls transcriptional activation of genes important for tight regulation of many cellular processes and is aberrantly expressed in many types of cancer. METHODS To test the importance of NFκB to medulloblastoma cell growth,the effects of multiple drugs that inhibit NFκB,pyrrolidine dithiocarbamate,diethyldithiocarbamate,sulfasalazine,curcumin and bortezomib,were studied in medulloblastoma cell lines compared to a malignant glioma cell line and normal neurons. Expression of endogenous NFκB was investigated in cultured cells,xenograft flank tumors,and primary human tumor samples. A dominant negative construct for the endogenous inhibitor of NFκB,IκB,was prepared from medulloblastoma cell lines and flank tumors were established to allow specific pathway inhibition. RESULTS We report high constitutive activity of the canonical NFκB pathway,as seen by Western analysis of the NFκB subunit p65,in medulloblastoma tumors compared to normal brain. The p65 subunit of NFκB is extremely highly expressed in xenograft tumors from human medulloblastoma cell lines; though,conversely,the same cells in culture have minimal expression without specific stimulation. We demonstrate that pharmacological inhibition of NFκB in cell lines halts proliferation and leads to apoptosis. We show by immunohistochemical stain that phosphorylated p65 is found in the majority of primary tumor cells examined. Finally,expression of a dominant negative form of the endogenous inhibitor of NFκB,dnIκB,resulted in poor xenograft tumor growth,with average tumor volumes 40% smaller than controls. CONCLUSIONS These data collectively demonstrate that NFκB signaling is important for medulloblastoma tumor growth,and that inhibition can reduce tumor size and viability in vivo. We discuss the implications of NFκB signaling on the approach to managing patients with medulloblastoma in order to improve clinical outcomes. View Publication

Use of animal feeder layers and serum containing media in the derivation and propagation of induced pluripotent stem cells (iPSCs) can hinder clinical translation,because of the presence of xeno-material/pathogens. A defined and standardized system would be ideal for generating a homogenous population of iPSCs,which closely resembles human embryonic stem cells (hESCs). This article presents a novel and extensive comparison between in-house produced iPSCs and hESCs under feeder" and "feeder-free" conditions� View Publication

Chromosomal translocations of the mixed lineage leukemia (MLL) gene are a common cause of acute leukemias. The oncogenic function of MLL fusion proteins is,in part,mediated through aberrant activation of Hoxa genes and Meis1,among others. Here we demonstrate using a tamoxifen-inducible Cre-mediated loss of function mouse model that DOT1L,an H3K79 methyltransferase,is required for both initiation and maintenance of MLL-AF9-induced leukemogenesis in vitro and in vivo. Through gene expression and chromatin immunoprecipitation analysis we demonstrate that mistargeting of DOT1L,subsequent H3K79 methylation,and up-regulation of Hoxa and Meis1 genes underlie the molecular mechanism of how DOT1L contributes to MLL-AF9-mediated leukemogenesis. Our study not only provides the first in vivo evidence for the function of DOT1L in leukemia,but also reveals the molecular mechanism for DOT1L in MLL-AF9 mediated leukemia. Thus,DOT1L may serve as a potential therapeutic target for the treatment of leukemia caused by MLL translocations. View Publication

Pluripotent stem cells can be genetically labeled to facilitate differentiation studies. In this paper,we describe a gene-targeting protocol to knock in a GFP cassette into key gene loci in human pluripotent stem cells (hPSCs),and then use the genetically tagged hPSCs to guide in vitro differentiation,immunocytochemical and electrophysiological profiling and in vivo characterization after cell transplantation. The Olig transcription factors have key roles in the transcription regulatory pathways for the genesis of motor neurons (MNs) and oligodendrocytes (OLs). We have generated OLIG2-GFP hPSC reporter lines that reliably mark MNs and OLs for monitoring their sequential differentiation from hPSCs. The expression of the GFP reporter recapitulates the endogenous expression of OLIG genes. The in vitro characterization of fluorescence-activated cell sorting-purified cells is consistent with cells of the MN or OL lineages,depending on the stages at which they are collected. This protocol is efficient and reliable and usually takes 5-7 months to complete. The genetic tagging-differentiation methodology used herein provides a general framework for similar work for differentiation of hPSCs into other lineages. View Publication

Xenotransplantation of acute myeloid leukemia (AML) into immunodeficient mice has been critical for understanding leukemogenesis in vivo and defining self-renewing leukemia-initiating cell subfractions (LICs). Although AML-engraftment capacity is considered an inherent property of LICs,substrains of NOD/SCID mice that possess additional deletions such as the IL2Rγc(null) (NSG) have been described as a more sensitive recipient to assay human LIC function. Using 23 AML-patient samples,39% demonstrated no detectable engraftment in NOD/SCID and were categorized as AMLs devoid of LICs. However,33% of AML patients lacking AML-LICs were capable of engrafting NSG recipients,but produced a monoclonal T-cell proliferative disorder similar to T-ALL. These grafts demonstrated self-renewal capacity as measured by in vivo serial passage and were restricted to CD34-positive fraction,and were defined as LICs. Molecular analysis for translocations in MLL genes indicated that these AML patient-derived LICs all expressed the MLL-AFX1 fusion product. Our results reveal that the in vivo human versus xenograft host microenvironment dictates the developmental capacity of human LICs residing in a small subset of patients diagnosed with AML harboring MLL mutations. These findings have implications both for the basic biology of CSC function,and for the use of in vivo models of the leukemogenic process in preclinical or diagnostic studies. View Publication

Estrogens regulate osteoblast differentiation and mineralization. We identified GATA4 as a transcription factor expressed in osteoblasts and directly regulated by 17β-estradiol in this cell type but not in breast cancer cells,another estrogen-responsive tissue. Chromatin immunoprecipitation sequencing (chromatin immunoprecipitation sequencing) reveals that estrogen receptor α (ERα) binds to chromatin near GATA4 at five different enhancers. GATA4 and ERα are both recruited to ERα binding sites near genes that are specifically expressed in osteoblasts and control osteoblast differentiation. Maximal binding of GATA4 precedes ERα binding,and GATA4 is necessary for histone 3 lysine 4 dimethylation at ERα binding sites,suggesting that GATA4 is a pioneer factor for ERα. As such,knockdown of GATA4 reduced recruitment of ERα to DNA. Our study illustrates that GATA4 is a pioneer factor for ERα recruitment to osteoblast-specific enhancers. View Publication

Human pluripotent stem cells (PSCs),encompassing embryonic stem cells and induced pluripotent stem cells,proliferate extensively and differentiate into virtually any desired cell type. PSCs endow regenerative medicine with an unlimited source of replacement cells suitable for human therapy. Several hurdles must be carefully addressed in PSC research before these theoretical possibilities are translated into clinical applications. These obstacles are: (1) cell proliferation; (2) cell differentiation; (3) genetic integrity; (4) allogenicity; and (5) ethical issues. We discuss these issues and underline the fact that the answers to these questions lie in a better understanding of the biology of PSCs. To contribute to this aim,we have developed a free online expression atlas,Amazonia!,that displays for each human gene a virtual northern blot for PSC samples and adult tissues (http://www.amazonia.transcriptome.eu). View Publication