技术资料

Dyskeratosis congenita (DC) is an inherited bone marrow (BM) failure syndrome associated with mutations in telomerase genes and the acquisition of shortened telomeres in blood cells. To investigate the basis of the compromised hematopoiesis seen in DC,we analyzed cells from granulocyte colony-stimulating factor mobilized peripheral blood (mPB) collections from 5 members of a family with autosomal dominant DC with a hTERC mutation. Premobilization BM samples were hypocellular,and percentages of CD34(+) cells in marrow and mPB collections were significantly below values for age-matched controls in 4 DC subjects. Directly clonogenic cells,although present at normal frequencies within the CD34(+) subset,were therefore absolutely decreased. In contrast,even the frequency of long-term culture-initiating cells within the CD34(+) DC mPB cells was decreased,and the telomere lengths of these cells were also markedly reduced. Nevertheless,the different lineages of mature cells were produced in normal numbers in vitro. These results suggest that marrow failure in DC is caused by a reduction in the ability of hematopoietic stem cells to sustain their numbers due to telomere impairment rather than a qualitative defect in their commitment to specific lineages or in the ability of their lineage-restricted progeny to execute normal differentiation programs. View Publication

Lysophospholipids are signaling molecules that play broad and major roles within the nervous system during both early development and neural injury. We used neural differentiation of human embryonic stem cells (hESC) as an in vitro model to examine the specific effects of lysophosphatidic acid (LPA) at various stages of neural development,from neural induction to mature neurons and glia. We report that LPA inhibits neurosphere formation and the differentiation of neural stem cells (NSC) toward neurons,without modifying NSC proliferation,apoptosis,or astrocytic differentiation. LPA acts through the activation of the Rho/ROCK and the phosphatidylinositol 3-kinase/Akt pathways to inhibit neuronal differentiation. This study is the first demonstration of a role for LPA signaling in neuronal differentiation of hESC. As LPA concentrations increase during inflammation,the inhibition of neuronal differentiation by LPA might contribute to the low level of neurogenesis observed following neurotrauma. View Publication

In response to inflammatory stimuli,monocytes/macrophages secrete greater quantities of the proinflammatory cytokines tumour necrosis factor-alpha (TNF-alpha),interleukin-1beta (IL-1beta) and IL-6. The inflammatory process and the innate immune response are related to the activation of several transcription factors,such as nuclear factor kappaB (NF-kappaB) and activator protein 1 (AP-1). The proteasome is a multimeric protease complex,which plays a vital role in several cellular functions,including the regulation of transcription factors like NF-kappaB. In this study,we used the human monocyte cell line U937 stimulated with lipopolysaccharide (LPS) and phorbol 12-myristate 13-acetate (PMA) as a model to investigate the in vitro effects of MG132,a proteasome inhibitor,on the release of TNF-alpha,IL-1beta and IL-6 and on the expression of their membrane and soluble receptors TNF-R1,IL-1R1 and IL-6R. We also analysed the effects of MG132 on the activation of NF-kappaB and AP-1 and on the IkappaB molecule. MG132 significantly inhibited the secretion of those proinflammatory cytokines. MG132 increased the release of the soluble receptors TNF-R1 and IL-1R1 from U937 cells and decreased their cell-surface expression. MG132 also increased IL-6R cell-surface expression and decreased its release. Proteasome inhibition also led to an increase in LPS+PMA-induced AP-1 activation and the attenuation of LPS+PMA-induced IkappaB degradation,resulting in the abolition of NF-kappaB activation. Our experiments strongly suggest that the proteasome is an important factor in the regulation of proinflammatory cytokines and their receptors. View Publication

Transcripts expressed in cytotoxic T lymphocytes (CTL) have mechanistic and diagnostic importance in transplantation. We used microarrays to select CTL-associated transcripts (CATs) expressed in human CD4(+) CTL,CD8(+) CTL and NK cells,excluding transcripts expressed in B cells,monocytes and kidney. This generated three transcript sets: CD4(+)-associated,CD8(+)-associated and NK-associated. Surprisingly,many CATs were expressed in effector memory cells e.g. granzyme B/GZMB,interferon-gamma/IFNG. Transcript expression was very similar between CD4(+) and CD8(+) CTL. There were no transcripts highly selective for CD4(+) CTL or CD8(+) CTL: for example,cytotoxic molecule transcripts (perforin,granzymes,granulysin) were shared between CD8(+) CTL and CD4(+) CTL although expression remained higher in CD8(+) CTL. Transcripts that differentiated between CD8(+) CTL and CD4(+) CTL were primarily those shared between CD8(+) CTL and NK cells (e.g. NK receptors KLRC1,KLRC3,KLRD1,KLRK1). No transcripts could differentiate CD4(+) CTL from CD8(+) CTL but NK cell-associated transcripts could differentiate NK cells from CTL. This study serves as a foundation for the interpretation of CATs in rejecting allografts and highlights the extensive sharing of CATs among CD4(+) CTL,CD8(+) CTL and effector memory T cells. View Publication

In pediatric acute lymphoblastic leukemia (ALL),overexpression of murine double minute 2 (MDM2) protein by leukemic cells is typically associated with a wild-type (wt)-p53 phenotype and chemoresistance. A recently developed small-molecule antagonist of MDM2,nutlin-3,inhibits the MDM2-p53 interaction,resulting in induction of p53 activity and apoptosis. In this study,we evaluated the cytotoxic effect of nutlin-3 on ALL cells with different p53 status and MDM2 expression,using 18 cell lines and 30 primary leukemia samples. We found that both ALL cell lines and primary ALL samples with wt-p53 are sensitive to nutlin-3. No cytotoxic effect of nutlin-3 was detected in ALL cells with either p53-mutant or -null phenotype. In wt-p53 ALL cells,there was a significant positive correlation between MDM2 expression levels and sensitivity to nutlin-3. Nutlin-3-induced cell death was mediated by p53-induced activation of proapoptotic proteins and by p53-induced repression of the anti-apoptotic protein survivin. As p53 function is inhibited by MDM2 in chemoresistant,MDM2-overexpressing ALL cells,potent killing of these cells by nutlin-3 suggests that this agent may be a novel therapeutic for refractory ALL. View Publication

BACKGROUND Human embryonic stem cells (hESC) should enable novel insights into early human development and provide a renewable source of cells for regenerative medicine. However,because the three-dimensional hESC aggregates [embryoid bodies (hEB)] typically employed to reveal hESC developmental potential are heterogeneous and exhibit disorganized differentiation,progress in hESC technology development has been hindered. METHODOLOGY/PRINCIPAL FINDINGS Using a centrifugal forced-aggregation strategy in combination with a novel centrifugal-extraction approach as a foundation,we demonstrated that hESC input composition and inductive environment could be manipulated to form large numbers of well-defined aggregates exhibiting multi-lineage differentiation and substantially improved self-organization from single-cell suspensions. These aggregates exhibited coordinated bi-domain structures including contiguous regions of extraembryonic endoderm- and epiblast-like tissue. A silicon wafer-based microfabrication technology was used to generate surfaces that permit the production of hundreds to thousands of hEB per cm(2). CONCLUSIONS/SIGNIFICANCE The mechanisms of early human embryogenesis are poorly understood. We report an ultra high throughput (UHTP) approach for generating spatially and temporally synchronised hEB. Aggregates generated in this manner exhibited aspects of peri-implantation tissue-level morphogenesis. These results should advance fundamental studies into early human developmental processes,enable high-throughput screening strategies to identify conditions that specify hESC-derived cells and tissues,and accelerate the pre-clinical evaluation of hESC-derived cells. View Publication

Infection with human immunodeficiency virus 1 (HIV-1) results in the dissemination of virus to gut-associated lymphoid tissue. Subsequently,HIV-1 mediates massive depletion of gut CD4+ T cells,which contributes to HIV-1-induced immune dysfunction. The migration of lymphocytes to gut-associated lymphoid tissue is mediated by integrin alpha4beta7. We demonstrate here that the HIV-1 envelope protein gp120 bound to an activated form of alpha4beta7. This interaction was mediated by a tripeptide in the V2 loop of gp120,a peptide motif that mimics structures presented by the natural ligands of alpha4beta7. On CD4+ T cells,engagement of alpha4beta7 by gp120 resulted in rapid activation of LFA-1,the central integrin involved in the establishment of virological synapses,which facilitate efficient cell-to-cell spreading of HIV-1. View Publication

Human stem cells are powerful tools by which to investigate molecular mechanisms of cell growth and differentiation under normal and pathological conditions. Hedgehog signaling,the dysregulation of which causes several pathologies,such as congenital defects and cancer,is involved in several cell differentiation processes and interferes with adipocyte differentiation of rodent cells. The present study was aimed at investigating the effect of Hedgehog pathway modulation on adipocyte phenotype using different sources of human mesenchymal cells,such as bone marrow stromal cells and human multipotent adipose-derived stem cells. We bring evidence that Hedgehog signaling decreases during human adipocyte differentiation. Inhibition of this pathway is not sufficient to trigger adipogenesis,but activation of Hedgehog pathway alters adipocyte morphology as well as insulin sensitivity. Analysis of glycerol-3-phosphate dehydrogenase activity and expression of adipocyte marker genes indicate that activation of Hedgehog signaling by purmorphamine impairs adipogenesis. In sharp contrast to reports in rodent cells,the maturation process,but not the early steps of human mesenchymal stem cell differentiation,is affected by Hedgehog activation. Hedgehog interferes with adipocyte differentiation by targeting CCAAT enhancer-binding protein alpha and peroxisome proliferator-activated receptor (PPAR) gamma2 expression,whereas PPARgamma1 level remains unaffected. Although Hedgehog pathway stimulation does not modify the total number of adipocytes,adipogenesis appears dramatically impaired,with reduced lipid accumulation,a decrease in adipocyte-specific markers,and acquisition of an insulin-resistant phenotype. This study indicates that a decrease in Hedgehog signaling is necessary but not sufficient to trigger adipocyte differentiation and unveils a striking difference in the adipocyte differentiation process between rodent and human mesenchymal stem cells. View Publication

An immunochromatographic assay (Campy-ICA) using a newly generated single monoclonal antibody against a 15-kDa cell surface protein of Campylobacter jejuni was developed. When cell suspensions of 86 C. jejuni strains and 27 Campylobacter coli strains were treated with a commercially available bacterial protein extraction reagent and the resulting extracts were tested with the Campy-ICA,they all yielded positive results. The minimum detectable limits for the C. jejuni strains ranged from 1.8 x 10(4) to 8.2 x 10(5) CFU/ml of cell suspension,and those for the C. coli strains ranged from 1.4 x 10(5) to 4.6 x 10(6) CFU/ml of cell suspension. All 26 non-Campylobacter species tested yielded negative results with the Campy-ICA. To evaluate the ability of the Campy-ICA to detect C. jejuni and C. coli in human stool specimens,suspensions of 222 stool specimens from patients with acute gastroenteritis were treated with the bacterial protein extraction reagent,and the resulting extracts were tested with the Campy-ICA. The Campy-ICA results showed a sensitivity of 84.8% (28 of 33 specimens) and a specificity of 100% (189 of 189 specimens) compared to the results of isolation of C. jejuni and C. coli from the stool specimens by a bacterial culture test. The Campy-ICA was simple to perform and was able to detect Campylobacter antigen in a fecal extract within 15 min. These results suggest that Campy-ICA testing of fecal extracts may be useful as a simple and rapid adjunct to stool culture for detecting C. jejuni and C. coli in human stool specimens. View Publication

Germinal center (GC) responses to T-dependent Ags require effective collaboration between Th cells,activated B cells,and follicular dendritic cells within a highly organized microenvironment. Studies using gene-targeted mice have highlighted nonredundant molecules that are key for initiating and maintaining the GC niche,including the molecules of the ICOS,CD40,and lymphotoxin (LT) pathways. Signaling through ICOS has multiple consequences,including cytokine production,expression of CD40L on Th cells,and differentiation into CXCR5(+) follicular Th cells,all of which are important in the GC reaction. We have therefore taken advantage of ICOS(-/-) mice to dissect which downstream elements are required to initiate the formation of GC. In the context of a T-dependent immune response,we found that GC B cells from ICOS(-/-) mice express lower levels of LTalphabeta compared with wild-type GC B cells in vivo,and stimulation of ICOS on T cells induces LTalphabeta on B cells in vitro. Administration of agonistic anti-LTbeta receptor Ab was unable to restore the GC response in ICOS(-/-) mice,suggesting that additional input from another pathway is required for optimal GC generation. In contrast,treatment with agonistic anti-CD40 Ab in vivo recovered GC networks and restored LTalphabeta expression on GC B cells in ICOS(-/-) mice,and this effect was dependent on LTbeta receptor signaling. Collectively,these data demonstrate that ICOS activation is a prerequisite for the up-regulation of LTalphabeta on GC B cells in vivo and provide a model for cooperation between ICOS,CD40,and LT pathways in the context of the GC response. View Publication

We have developed an in vitro clonal assay of murine hematopoietic precursor cells that form spleen colonies (CFU-S day 12) or produce in vitro clonable progenitors in the marrow (MRA cells) of lethally irradiated mice. The assay is essentially a long-term bone marrow culture in microtiter wells containing marrow-derived stromal feeders" depleted for hematopoietic activity by irradiation. To test the validity of the assay as a quantitative in vitro stem cell assay� View Publication

Although brain development abnormalities and brain cancer predisposition have been reported in some Fanconi patients,the possible role of Fanconi DNA repair pathway during neurogenesis is unclear. We thus addressed the role of fanca and fancg,which are involved in the activation of Fanconi pathway,in neural stem and progenitor cells during brain development and adult neurogenesis. Fanca(-/-) and fancg(-/-) mice presented with microcephalies and a decreased neuronal production in developing cortex and adult brain. Apoptosis of embryonic neural progenitors,but not that of postmitotic neurons,was increased in the neocortex of fanca(-/-) and fancg(-/-) mice and was correlated with chromosomal instability. In adult Fanconi mice,we showed a reduced proliferation of neural progenitor cells related to apoptosis and accentuated neural stem cells exhaustion with ageing. In addition,embryonic and adult Fanconi neural stem cells showed a reduced capacity to self-renew in vitro. Our study demonstrates a critical role for Fanconi pathway in neural stem and progenitor cells during developmental and adult neurogenesis. View Publication