技术资料

Valproate,an anticonvulsant drug used to treat bipolar disorder,was studied for its ability to promote neurogenesis from embryonic rat cortical or striatal primordial stem cells. Six days of valproate exposure increased by up to fivefold the number and percentage of tubulin beta III-immunopositive neurons,increased neurite outgrowth,and decreased by fivefold the number of astrocytes without changing the number of cells. Valproate also promoted neuronal differentiation in human fetal forebrain stem cell cultures. The neurogenic effects of valproate on rat stem cells exceeded those obtained with the neurotrophins brain-derived growth factor (BDNF) or NT-3,and slightly exceeded the effects obtained with another mood stabilizer,lithium. No effect was observed with carbamazepine. Most of the newly formed neurons were GABAergic,as shown by 10-fold increases in neurons that immunostained for GABA and the GABA-synthesizing enzyme GAD65/67. Double immunostaining for bromodeoxyuridine and tubulin beta III showed that valproate increased by four- to fivefold the proliferation of neuronal progenitors derived from rat stem cells and increased cyclin D2 expression. Valproate also regulated the expression of survival genes,Bad and Bcl-2,at different times of treatment. The expression of prostaglandin E synthase,analyzed by quantitative RT-PCR,was increased by ninefold as early as 6 h into treatment by valproate. The enhancement of GABAergic neuron numbers,neurite outgrowth,and phenotypic expression via increases in the neuronal differentiation of neural stem cell may contribute to the therapeutic effects of valproate in the treatment of bipolar disorder. View Publication

BACKGROUND: The aim of this study was to examine the potential usefulness of a mammaglobin multigene reverse transcription-PCR (RT-PCR) assay and a mammaglobin sandwich ELISA as diagnostic tools in breast cancer. METHODS: We studied peripheral blood samples from 147 untreated Senegalese women with biopsy-confirmed breast cancer and gathered patient information regarding demographic,and clinical staging of disease. The samples were tested for mammaglobin and three breast cancer-associated gene transcripts by a multigene real-time RT-PCR assay and for serum mammaglobin protein by a sandwich ELISA assay. RESULTS: In 77% of the breast cancer blood samples,a positive signal was obtained in the multigene RT-PCR assay detecting mammaglobin and three complementary transcribed genes. Fifty samples from healthy female donors tested negative. Significant correlations were found between mammaglobin protein in serum,presence of mammaglobin mRNA-expressing cells in blood,stage of disease,and tumor size. Circulating mammaglobin protein was detected in 68% of the breast cancer sera,and was increased in 38% in comparison with a mixed control population. The RT-PCR assay and the ELISA for mammaglobin produced a combined sensitivity of 84% and specificity of 97%. CONCLUSION: The ELISA and RT-PCR for mammaglobin and mammaglobin-producing cells could be valuable tools for diagnosis and prognosis of breast cancer. View Publication

GW572016 (Lapatinib) is a tyrosine kinase inhibitor in clinical development for cancer that is a potent dual inhibitor of epidermal growth factor receptor (EGFR,ErbB-1) and ErbB-2. We determined the crystal structure of EGFR bound to GW572016. The compound is bound to an inactive-like conformation of EGFR that is very different from the active-like structure bound by the selective EGFR inhibitor OSI-774 (Tarceva) described previously. Surprisingly,we found that GW572016 has a very slow off-rate from the purified intracellular domains of EGFR and ErbB-2 compared with OSI-774 and another EGFR selective inhibitor,ZD-1839 (Iressa). Treatment of tumor cells with these inhibitors results in down-regulation of receptor tyrosine phosphorylation. We evaluated the duration of the drug effect after washing away free compound and found that the rate of recovery of receptor phosphorylation in the tumor cells reflected the inhibitor off-rate from the purified intracellular domain. The slow off-rate of GW572016 correlates with a prolonged down-regulation of receptor tyrosine phosphorylation in tumor cells. The differences in the off-rates of these drugs and the ability of GW572016 to inhibit ErbB-2 can be explained by the enzyme-inhibitor structures. View Publication

Embryonic stem (ES) cells have the potential to serve as an alternative source of hematopoietic precursors for transplantation and for the study of hematopoietic cell development. Using coculture of human ES (hES) cells with OP9 bone marrow stromal cells,we were able to obtain up to 20% of CD34+ cells and isolate up to 10(7) CD34+ cells with more than 95% purity from a similar number of initially plated hES cells after 8 to 9 days of culture. The hES cell-derived CD34+ cells were highly enriched in colony-forming cells,cells expressing hematopoiesis-associated genes GATA-1,GATA-2,SCL/TAL1,and Flk-1,and retained clonogenic potential after in vitro expansion. CD34+ cells displayed the phenotype of primitive hematopoietic progenitors as defined by co-expression of CD90,CD117,and CD164,along with a lack of CD38 expression and contained aldehyde dehydrogenase-positive cells as well as cells with verapamil-sensitive ability to efflux rhodamine 123. When cultured on MS-5 stromal cells in the presence of stem cell factor,Flt3-L,interleukin 7 (IL-7),and IL-3,isolated CD34+ cells differentiated into lymphoid (B and natural killer cells) as well as myeloid (macrophages and granulocytes) lineages. These data indicate that CD34+ cells generated through hES/OP9 coculture display several features of definitive hematopoietic stem cells. View Publication

Cell-to-cell virus transmission is one of the most efficient mechanisms of human immunodeficiency virus (HIV) spread,requires CD4 and coreceptor expression in target cells,and may also lead to syncytium formation and cell death. Here,we show that in addition to this classical coreceptor-mediated transmission,the contact between HIV-producing cells and primary CD4 T cells lacking the appropriate coreceptor induced the uptake of HIV particles by target cells in the absence of membrane fusion or productive HIV replication. HIV uptake by CD4 T cells required cellular contacts mediated by the binding of gp120 to CD4 and intact actin cytoskeleton. HIV antigens taken up by CD4 T cells were rapidly endocytosed to trypsin-resistant compartments inducing a partial disappearance of CD4 molecules from the cell surface. Once the cellular contact was stopped,captured HIV were released as infectious particles. Electron microscopy revealed that HIV particles attached to the surface of target cells and accumulated in large (0.5-1.0 microm) intracellular vesicles containing 1-14 virions,without any evidence for massive clathrin-mediated HIV endocytosis. The capture of HIV particles into trypsin-resistant compartments required the availability of the gp120 binding site of CD4 but was independent of the intracytoplasmic tail of CD4. In conclusion,we describe a novel mechanism of HIV transmission,activated by the contact of infected and uninfected primary CD4 T cells,by which HIV could exploit CD4 T cells lacking the appropriate coreceptor as an itinerant virus reservoir. View Publication

Outgrowth,long-term self-renewal,and terminal maturation of human erythroid progenitors derived from umbilical cord blood in serum-free medium can be modulated by steroid hormones. Homogeneous erythroid cultures,as characterized by flow cytometry and dependence on a specific mixture of physiologic proliferation factors,were obtained within 8 days from a starting population of mature and immature mononuclear cells. Due to previous results in mouse and chicken erythroblasts,the proliferation-promoting effect of glucocorticoids was not unexpected. Surprisingly,however,androgen had a positive effect on the sustained expansion of human female but not male erythroid progenitors. Under optimal conditions,sustained proliferation of erythroid progenitors resulted in a more than 10(9)-fold expansion within 60 days. Terminal erythroid maturation was significantly improved by adding human serum and thyroid hormone (3,5,3'-triiodothyronine [T3]) to the differentiation medium. This resulted in highly synchronous differentiation of the cells toward enucleated erythrocytes within 6 days,accompanied by massive size decrease and hemoglobin accumulation to levels comparable to those in peripheral blood erythrocytes. Thus,obviously,different ligand-activated nuclear hormone receptors massively influence the decision between self-renewal and terminal maturation in the human erythroid compartment. View Publication

NK cells play a critical role in the rejection of xenografts. In this study,we report on an investigation of the effect of complement regulatory protein,a decay accelerating factor (DAF: CD55),in particular,on NK cell-mediated cytolysis. Amelioration of human NK cell-mediated pig endothelial cell (PEC) and pig fibroblast cell lyses by various deletion mutants and point substitutions of DAF was tested,and compared with their complement regulatory function. Although wild-type DAF and the delta-short consensus repeat (SCR) 1-DAF showed clear inhibition of both complement-mediated and NK-mediated PEC lyses,delta-SCR2-DAF and delta-SCR3-DAF failed to suppress either process. However,delta-SCR4-DAF showed a clear complement regulatory effect,but had no effect on NK cells. Conversely,the point substitution of DAF (L147 x F148 to SS and KKK(125-127) to TTT) was half down-regulated in complement inhibitory function,but the inhibition of NK-mediated PEC lysis remained unchanged. Other complement regulatory proteins,such as the cell membrane-bound form factor H,fH-PI,and C1-inactivator,C1-INH-PI,and CD59 were also assessed,but no suppressive effect on NK cell-mediated PEC lysis was found. These data suggest,for DAF to function on NK cells,SCR2-4 is required but no relation to its complement regulatory function exists. View Publication

NK cells protect hosts against viral pathogens and transformed cells,and dendritic cells (DCs) play important roles in activating NK cells. We now find that murine IL-15Ralpha-deficient DCs fail to support NK cell cytolytic activity and elaboration of IFN-gamma,despite the fact that these DCs express normal levels of costimulatory molecules and IL-12. By contrast,IL-15Ralpha expression on NK cells is entirely dispensable for their activation by DCs. In addition,blockade with anti-IL-15Ralpha and anti-IL-2Rbeta but not anti-IL-2Ralpha-specific Abs prevents NK cell activation by wild-type DCs. Finally,presentation of IL-15 by purified IL-15Ralpha/Fc in trans synergizes with IL-12 to support NK cell priming. These findings suggest that murine DCs require IL-15Ralpha to present IL-15 in trans to NK cells during NK cell priming. View Publication

Adult bone marrow-derived cells can participate in muscle regeneration after bone marrow transplantation. In recent studies a single hematopoietic stem cell (HSC) was shown to give rise to cells that not only reconstituted all of the lineages of the blood,but also contributed to mature muscle fibers. However,the relevant HSC derivative with this potential has not yet been definitively identified. Here we use fluorescence-activated cell sorter-based protocols to test distinct hematopoietic fractions and show that only fractions containing c-kit(+) immature myelomonocytic precursors are capable of contributing to muscle fibers after i.m. injection. Although these cells belong to the myeloid lineage,they do not include mature CD11b(+) myelomonocytic cells,such as macrophages. Of the four sources of mature macrophages tested that were derived either from monocytic culture,bone marrow,peripheral blood after granulocyte colony-stimulating factor mobilization,or injured muscle,none contributed to muscle. In addition,after transplantation of bone marrow isolated from CD11b-Cre-transgenic mice into the Cre-reporter strain (Z/EG),no GFP myofibers were detected,demonstrating that macrophages expressing CD11b do not fuse with myofibers. Irrespective of the underlying mechanisms,these data suggest that the HSC derivatives that integrate into regenerating muscle fibers exist in the pool of hematopoietic cells known as myelomonocytic progenitors. View Publication

Mixed chimaerism and graft rejection are higher after reduced-intensity allogeneic stem cell transplantation (RIST) with T-cell depleted (TCD) allografts. As host immune status before RIST affects engraftment,we hypothesized that targeted depletion of host lymphocytes prior to RIST would abrogate graft rejection and promote donor chimaerism. Lymphocyte-depleting chemotherapy was administered at conventional doses to subjects prior to RIST with the intent of decreasing CD4(+) counts to textless0.05 x 10(9)cells/l. Subjects (n = 18) then received reduced-intensity conditioning followed by ex vivo TCD human leucocyte antigen-matched sibling allografts. All evaluable patients (n = 17) were engrafted; there were no late graft failures. At day +28 post-RIST,12 patients showed complete donor chimaerism. Mixed chimaerism in the remaining five patients was associated with higher numbers of circulating host CD3(+) cells (P = 0.0032) after lymphocyte-depleting chemotherapy and was preferentially observed in T lymphoid rather than myeloid cells. Full donor chimaerism was achieved in all patients after planned donor lymphocyte infusions. These data reflect the importance of host immune status prior to RIST and suggest that targeted host lymphocyte depletion facilitates the engraftment of TCD allografts. Targeted lymphocyte depletion may permit an individualized approach to conditioning based on host immune status prior to RIST. View Publication

Butein has been reported to exert anti-inflammatory effect but the possible mechanism involved is still unclear. Here,we report the inhibitory effect of butein on nitric oxide (NO) production and inducible nitric oxide synthase (iNOS) gene expression. Butein also inhibited the induction of tumor necrosis factor-alpha and cyclooxygenase 2 by LPS. To further investigate the mechanism responsible for the inhibition of iNOS gene expression by butein,we examined the effect of butein on LPS-induced nuclear factor-kappaB (NF-kappaB) activation. The LPS-induced DNA binding activity of NF-kappaB was significantly inhibited by butein,and this effect was mediated through inhibition of the degradation of inhibitory factor-kappaB and phosphorylation of Erk1/2 MAP kinase. Furthermore,increased binding of the osteopontin alphavbeta3 integrin receptor by butein may explain its inhibitory effect on LPS-mediated NO production. Taken together,these results suggest that butein inhibits iNOS gene expression,providing possible mechanisms for its anti-inflammatory action. View Publication

The Lyn tyrosine kinase plays essential inhibitory signaling roles within hematopoietic cells by recruiting inhibitory phosphatases such as SH2-domain containing phosphatase-1 (SHP-1),SHP-2,and SH2-domain containing 5'-inositol phosphatase (SHIP-1) to the plasma membrane in response to specific stimuli. Lyn-deficient mice display a collection of hematopoietic defects,including autoimmune disease as a result of autoantibody production,and perturbations in myelopoiesis that ultimately lead to splenomegaly and myeloid neoplasia. In this study,we demonstrate that loss of Lyn results in a stem/progenitor cell-intrinsic defect leading to an age-dependent increase in myeloid,erythroid,and primitive hematopoietic progenitor numbers that is independent of autoimmune disease. Despite possessing increased numbers of erythroid progenitors,and a more robust expansion of these cells following phenylhydrazine challenge,Lyn-deficient mice are more severely affected by the chemotherapeutic drug 5-fluorouracil,revealing a greater proportion of cycling progenitors. We also show that mice lacking SHIP-1 have defects in the erythroid and myeloid compartments similar to those in mice lacking Lyn or SHP-1,suggesting an intimate relationship between Lyn,SHP-1,and SHIP-1 in regulating hematopoiesis. View Publication