技术资料

HIV-1 Tat-interacting protein of 110 kDa [Tip110; p110(nrb)/SART3/p110] is an RNA binding nuclear protein implicated in regulation of HIV-1 gene and host gene transcription,pre-mRNA splicing,and cancer immunology. Recently,we demonstrated a role for Tip110 in regulation of hematopoiesis. Here,we show that TIP110 is also expressed in human embryonic stem cells (hESCs) and expression was decreased with differentiation of these ESCs. TIP110 was found,through up- and down-modulation of expression of Tip110,to be important in maintaining pluripotent factor (NANOG,OCT4,and SOX2) expression in and pluripotency of hESCs,although the mechanisms involved and whether the Tip110 effects are direct remain to be determined. View Publication

IL-27,which is produced by activated APCs,bridges innate and adaptive immunity by regulating the development of Th cells. Recent evidence supports a role for IL-27 in the activation of monocytic cells in terms of inflammatory responses. Indeed,proinflammatory and anti-inflammatory activities are attributed to IL-27,and IL-27 production itself is modulated by inflammatory agents such as LPS. IL-27 primes LPS responses in monocytes; however,the molecular mechanism behind this phenomenon is not understood. In this study,we demonstrate that IL-27 priming results in enhanced LPS-induced IL-6,TNF-α,MIP-1α,and MIP-1β expression in human primary monocytes. To elucidate the molecular mechanisms responsible for IL-27 priming,we measured levels of CD14 and TLR4 required for LPS binding. We determined that IL-27 upregulates TLR4 in a STAT3- and NF-κB-dependent manner. Immunofluorescence microscopy revealed enhanced membrane expression of TLR4 and more distinct colocalization of CD14 and TLR4 upon IL-27 priming. Furthermore,IL-27 priming enhanced LPS-induced activation of NF-κB family members. To our knowledge,this study is the first to show a role for IL-27 in regulating TLR4 expression and function. This work is significant as it reveals new mechanisms by which IL-27 can enhance proinflammatory responses that can occur during bacterial infections. View Publication

The mechanisms underlying pluripotency and differentiation in embryonic and reprogrammed stem cells are unclear. In this work,we characterized the pluripotent state towards neural differentiated state through analysis of trace elements distribution using the Synchrotron Radiation X-ray Fluorescence Spectroscopy. Naive and neural-stimulated embryoid bodies (EB) derived from embryonic and induced pluripotent stem (ES and iPS) cells were irradiated with a spatial resolution of 20 µm to make elemental maps and qualitative chemical analyses. Results show that these embryo-like aggregates exhibit self-organization at the atomic level. Metallic elements content rises and consistent elemental polarization pattern of P and S in both mouse and human pluripotent stem cells were observed,indicating that neural differentiation and elemental polarization are strongly correlated. View Publication

Endoplasmic reticulum (ER) stress occurs during early embryonic development. The aim of this study is to determine whether ER stress occurs during human embryonic stem cell differentiation induced by retinoic acid (RA). H9 human embryonic stem cells were subjected to RA treatment for up to 29. days to induce differentiation. HEK293 cells were treated with RA as a control. The results demonstrate that several ER stress-responsive genes are differentially regulated in H9 and HEK293 cells in response to 5. days of RA treatment. GRP78/Bip was upregulated in H9 cells but downregulated in HEK293 cells. eIF2?? was downregulated in H9 cells but not in HEK293 cells. Phosphorylation of eIF2?? was downregulated in H9 cells but upregulated in HEK293 cells. XBP-1 was downregulated immediately after RA treatment in H9 cells,but its downregulation was much slower in HEK293 cells. Additionally,two ER-resident E3 ubiquitin ligases,gp78 and Hrd1,were both upregulated in H9 cells following 5. days of exposure to RA. Moreover,the protein Bcl2 was undetectable in H9 cells and H9-derived cells but was expressed in HEK293 cells,and it expression in the two types of cells was unaltered by RA treatment. In H9 cells treated with RA for 29. days,GRP78/Bip,XBP-1 and Bcl2 were all upregulated. These results suggest that ER stress is involved in H9 cell differentiation induced by RA. ?? 2011 Elsevier Inc. View Publication

The chemical approach to controlling stem cell fates is emerging as a powerful tool,holding great promise in tissue engineering and regenerative medicine. Various small molecules have been demonstrated capable of modulating stem cell differentiation. In this paper,we studied the effects of 5-aminoimidazole-4-carboxamide-1-ß-riboside (AICAR),an activator of AMP-activated protein kinase (AMPK),on mesenchymal stem cells (MSCs). AICAR at high concentrations (1.0-2.0 mM) significantly inhibited proliferation of both human amnion-derived MSCs (hAMSCs) and rabbit bone marrow-derived MSCs (BM-MSCs). Most importantly,AICAR efficiently promoted the osteogenic differentiation of hAMSCs and BM-MSCs in both growth medium and osteogenic medium. However,Metformin,another AMPK activator,showed no such effects. Meanwhile,AICAR significantly inhibited adipogenic differentiation of hAMSCs and BM-MSCs. Our data suggests that AICAR represents a potent molecule,which can be applied in bone tissue regeneration. View Publication

The aim is to investigate the clinical implications of the Oct-4 and Nestin protein in human breast cancers. A total of 346 cases including 26 fresh and 320 paraffin-embedded tumor tissues were selected for characterizing the frequency of CD44(+)CD24(-) tumor cells by flow cytometry and the differential expression of the stem cell-related genes between CD44(+)CD24(-) and non-CD44(+)CD24(-) tumor cells was analyzed by PCR Array and immunofluorescence. In comparison with the non-CD44(+)CD24(-) tumor cells,the CD44(+)CD24(-),particularly for those with high percentage of Oct-4(+) and Nestin(+),tumor cells had higher tumorigenicity by forming mammospheres in vitro. More importantly,42 (13.125%) out of 320 tumor tissues were positive for Oct-4 and Nestin staining. Universal analysis and multivariate analysis revealed that the expression of Oct-4 and Nestin was associated significantly with younger age,pathogenic degrees,lymph node metastasis and triple-negative breast cancer independently (P textless 0.05) as well as shorter survival (P = 0.001). Oct-4 and Nestin were important regulators of the development of breast cancer,and Oct-4 and Nestin may be used as predictors for the prognosis of breast cancers. View Publication

Within high-grade gliomas,the precise identities and functional roles of stem-like cells remain unclear. In the normal neurogenic niche,ID (Inhibitor of DNA-binding) genes maintain self-renewal and multipotency of adult neural stem cells. Using PDGF- and KRAS-driven murine models of gliomagenesis,we show that high Id1 expression (Id1(high)) identifies tumor cells with high self-renewal capacity,while low Id1 expression (Id1(low)) identifies tumor cells with proliferative potential but limited self-renewal capacity. Surprisingly,Id1(low) cells generate tumors more rapidly and with higher penetrance than Id1(high) cells. Further,eliminating tumor cell self-renewal through deletion of Id1 has modest effects on animal survival,while knockdown of Olig2 within Id1(low) cells has a significant survival benefit,underscoring the importance of non-self-renewing lineages in disease progression. View Publication

Human embryonic stem (hES) cells have the dual ability to self-renew and differentiate into specialized cell types. However,in order to realize the full potential of these cells it is important to understand how the genes responsible for their unique characteristics are regulated. In this study we examine the regulation of the tropomyosin-related kinase (TRK) genes which encode for receptors important in hES cell survival and self-renewal. Although the TRK genes have been studied in many neuronal cell types,the regulation of these genes in hES cells is unclear. Our study demonstrates a novel regulatory relationship between the TRKC gene and the transcription factor SOX2. Our results found that hES cells highly express full-length and truncated forms of the TRKC gene. However,examination of the related TRKB gene showed a lower overall expression of both full-length and truncated forms. Through RNA interference,we knocked down expression levels of SOX2 in hES cells and examined the expression of TRKC,as well as TRKB. Upon loss of SOX2 we found that TRKC mRNA levels were significantly downregulated but TRKB levels remained unchanged,demonstrating an important regulatory dependence on SOX2 by TRKC. We also found that TRKC protein levels were also decreased after SOX2 knock down. Further analysis found the regulatory region of TRKC to be highly conserved among many mammals with potential SOX binding motifs. We confirmed a specific binding motif as a site that SOX2 utilizes to directly interact with the TRKC regulatory region. In addition,we found that SOX2 drives expression of the TRKC gene by activating a luciferase reporter construct containing the TRKC regulatory region and the SOX binding motif. View Publication

The identification of succinate dehydrogenase (SDH),fumarate hydratase (FH) and isocitrate dehydrogenase (IDH) mutations in human cancers has rekindled the idea that altered cellular metabolism can transform cells. Inactivating SDH and FH mutations cause the accumulation of succinate and fumarate,respectively,which can inhibit 2-oxoglutarate (2-OG)-dependent enzymes,including the EGLN prolyl 4-hydroxylases that mark the hypoxia inducible factor (HIF) transcription factor for polyubiquitylation and proteasomal degradation. Inappropriate HIF activation is suspected of contributing to the pathogenesis of SDH-defective and FH-defective tumours but can suppress tumour growth in some other contexts. IDH1 and IDH2,which catalyse the interconversion of isocitrate and 2-OG,are frequently mutated in human brain tumours and leukaemias. The resulting mutants have the neomorphic ability to convert 2-OG to the (R)-enantiomer of 2-hydroxyglutarate ((R)-2HG). Here we show that (R)-2HG,but not (S)-2HG,stimulates EGLN activity,leading to diminished HIF levels,which enhances the proliferation and soft agar growth of human astrocytes. These findings define an enantiomer-specific mechanism by which the (R)-2HG that accumulates in IDH mutant brain tumours promotes transformation and provide a justification for exploring EGLN inhibition as a potential treatment strategy. View Publication

The anti-diabetic drug metformin is rapidly emerging as a potential anti-cancer agent. Metformin,effective in treating type 2 diabetes and the insulin resistance syndromes,improves insulin resistance by reducing hepatic gluconeogenesis and by enhancing glucose uptake by skeletal muscle. Epidemiological studies have consistently associated metformin use with decreased cancer incidence and cancer-related mortality. Furthermore,numerous preclinical and clinical studies have demonstrated anti-cancer effects of metformin,leading to an explosion of interest in evaluating this agent in human cancer. The effects of metformin on circulating insulin levels indicate a potential efficacy towards cancers associated with hyperinsulinaemia; however,metformin may also directly inhibit tumour growth. In this review,we describe the mechanism of action of metformin and summarise the epidemiological,clinical and preclinical evidence supporting a role for metformin in the treatment of cancer. In addition,the challenges associated with translating preclinical results into therapeutic benefit in the clinical setting will be discussed. View Publication

The detection of growth hormone (GH) and its receptor in germinal regions of the mammalian brain prompted our investigation of GH and its role in the regulation of endogenous neural precursor cell activity. Here we report that the addition of exogenous GH significantly increased the expansion rate in long-term neurosphere cultures derived from wild-type mice,while neurospheres derived from GH null mice exhibited a reduced expansion rate. We also detected a doubling in the frequency of large (i.e. stem cell-derived) colonies for up to 120 days following a 7-day intracerebroventricular infusion of GH suggesting the activation of endogenous stem cells. Moreover,gamma irradiation induced the ablation of normally quiescent stem cells in GH-infused mice,resulting in a decline in olfactory bulb neurogenesis. These results suggest that GH activates populations of resident stem and progenitor cells,and therefore may represent a novel therapeutic target for age-related neurodegeneration and associated cognitive decline. View Publication

R848,also known as resiquimod,acts as a ligand for toll-like receptor 7 (TLR7) and activates immune cells. In this study,we examined the effects of R848 on differentiation,survival,and bone-resorbing function of osteoclasts. R848 inhibited osteoclast differentiation of mouse bone marrow-derived macrophages (BMMs) and human peripheral blood-derived monocytes induced by receptor activator of NF-κB ligand in a dose-dependent manner. In addition,it inhibited mouse osteoclast differentiation induced in cocultures of bone marrow cells and osteoblasts in the presence of dihydroxyvitamin D(3) [1,25(OH)(2)D(3)]. However,R848 did not affect the survival or bone-resorbing activity of mouse mature osteoclasts. R848 also upregulated the mRNA expression levels of interleukin (IL)-6,IL-12,interferon (IFN)-γ,and inducible nitric oxide synthase in mouse BMMs expressing TLR7. IFN-β was consistently expressed in the BMMs and addition of neutralizing antibodies against IFN-β to the cultures partially recovered osteoclast differentiation inhibited by R848. These results suggest that R848 targets osteoclast precursors and inhibits their differentiation into osteoclasts via TLR7. View Publication