技术资料

In an attempt to better understand and control the processes that regulate stem cell fate,we have set out to identify small molecules that induce neuronal differentiation in embryonic stem cells (ESCs). A high-throughput phenotypic cell-based screen of kinase-directed combinatorial libraries led to the discovery of TWS119,a 4,6-disubstituted pyrrolopyrimidine that can induce neurogenesis in murine ESCs. The target of TWS119 was shown to be glycogen synthase kinase-3beta (GSK-3beta) by both affinity-based and biochemical methods. This study provides evidence that GSK-3beta is involved in the induction of mammalian neurogenesis in ESCs. This and such other molecules are likely to provide insights into the molecular mechanisms that control stem cell fate,and may ultimately be useful to in vivo stem cell biology and therapy. View Publication

PURPOSE: The molecular signal components essential to paclitaxel-dependent apoptosis in breast cancers are potential targets for combined therapy. However,the signal mechanisms underlying paclitaxel action still need to be better defined. EXPERIMENTAL DESIGN: In a breast cancer cell line,pharmacological agents and transient transfection with dominant interfering and constitutive active mutants were used to identify the signal transduction module involved in the regulation of paclitaxel-induced apoptosis and to evaluate its potential as a therapeutic target. RESULTS: In MDA-MB-435 cells,paclitaxel treatment stimulated the activity of both protein kinase A and p38,and inhibited the activity of the Na(+)/H(+) exchanger isoform 1 (NHE1) with similar IC(50) concentrations as for its activation of apoptosis. Activation and inhibition experiments demonstrated that protein kinase A and p38 participate sequentially upstream of the NHE1 in regulating the paclitaxel-induced apoptotic pathway. Importantly,concurrent specific inhibition of the NHE1 with paclitaxel treatment resulted in a synergistic induction of apoptosis and a reduction in the paclitaxel IC(50) for apoptosis. This sensitization of paclitaxel apoptotic action by specific inhibition of NHE1 was verified in breast cancer cell lines with different paclitaxel sensitivity. CONCLUSIONS: We have,for the first time,identified NHE1 as an essential component of paclitaxel-induced apoptosis in breast cancer cells and,importantly,identified that simultaneous inhibition of the NHE1 results in a synergistic potentiation of low-dose paclitaxel apoptotic action. As specific NHE1 inhibitors have finished Phase II/Phase III clinical trials for myocardial protection,there is the possibility for a rapid biological translation of this novel therapeutic strategy to a clinical setting. View Publication

Neurons generated early in development of the ventral diencephalon have been shown to play a key role in defining the midline and the caudal boundary of the optic chiasm in the mouse retinofugal pathway. These functions have been attributed to a surface bound adhesion molecule,CD44 that is expressed in these chiasmatic neurons. In this study,we investigated the effects of perturbing normal CD44 functions on axon routing in brain slice preparations of the mouse retinofugal pathway. Two CD44 antibodies (Hermes-1 and IM7) were used that bind to distinct epitopes on the extracellular domain of the molecule. We found that both antibodies produced dramatic defects in routing of the retinal axons that arrive early in the chiasm. In preparations of embryonic day 13 (E13) and E14 pathways,the crossed component in the chiasm was significantly reduced after antibody treatment. However,such reduction in axon crossing was not observed in E15 chiasm,indicating that the lately generated crossed axons lost their responses to CD44. Furthermore,the anti-CD44 treatment produced a reduction in the uncrossed component in the E15 but not in younger pathways,suggesting a selective response of the lately generated axons,mostly from ventral temporal retina,but not those generated earlier,to the CD44 at the chiasmatic midline in order to make their turn for the uncrossed pathway. These findings provide evidence that a normal function of CD44 molecules in the chiasmatic neurons is essential for axon crossing and axon divergence at the mouse optic chiasm. View Publication

Expression of the nuclear hormone receptor peroxisome proliferator-activated receptor alpha (PPARalpha) in resting lymphocytes was recently established,although the physiologic role(s) played by this nuclear hormone receptor in these cell types remains unresolved. In this study,we used CD4(+) T cells isolated from PPARalpha(-/-) and wild-type mice,as well as cell lines that constitutively express PPARalpha,in experiments designed to evaluate the role of this hormone receptor in the regulation of T cell function. We report that activated CD4(+) T cells lacking PPARalpha produce increased levels of IFN-gamma,but significantly lower levels of IL-2 when compared with activated wild-type CD4(+) T cells. Furthermore,we demonstrate that PPARalpha regulates the expression of these cytokines by CD4(+) T cells in part,through its ability to negatively regulate the transcription of T-bet. The induction of T-bet expression in CD4(+) T cells was determined to be positively influenced by p38 mitogen-activated protein (MAP) kinase activation,and the presence of unliganded PPARalpha effectively suppressed the phosphorylation of p38 MAP kinase. The activation of PPARalpha with highly specific ligands relaxed its capacity to suppress p38 MAP kinase phosphorylation and promoted T-bet expression. These results demonstrate a novel DNA-binding independent and agonist-controlled regulatory influence by the nuclear hormone receptor PPARalpha. View Publication

We have developed an approach for identifying primitive mobilized peripheral blood cells (PBSC) that express high levels of aldehyde dehydrogenase (ALDH). PBSC were stained with a fluorescent ALDH substrate,termed BODIPY trade mark -aminoacetaldehyde (BAAA),and then analysed using flow cytometry. A population of cells with a low side scatter (SSC) and a high level of BAAA staining,termed the SSCloALDHbr population,was readily discriminated and comprised a mean of 3 +/- 5% of leukapheresis samples. A mean of 73 +/- 11% of the SSCloALDHbr population expressed CD34 and 56 +/- 25% of all the mobilized CD34+ cells resided within the SSCloALDHbr population. The SSCloALDHbr population was largely depleted of cells with mature phenotypes and enriched for cells with immature phenotypes. Sorted SSCloALDHbr and SSCloALDHbr CD34+ PBSC were enriched for progenitors with the ability to (1) generate colony-forming units (CFU) and long-term culture (LTC)-derived CFU,(2) expand in primary and secondary LTC,and (3) generate multiple cell lineages. In 21 cancer patients who had undergone autologous PBSC transplantation,the number of infused SSCloALDHbr cells/kg highly correlated with the time to neutrophil and platelet engraftment (P textless 0.015 and P textless 0.003 respectively). In summary,peripheral blood SSCloALDHbr cells have the phenotypic and functional properties of primitive haematopoietic cells and their number correlates with engraftment following autologous transplantation. View Publication

It has been proposed that bone marrow (BM) hematopoietic stem and progenitor cells are distributed along an oxygen (O2) gradient,where stem cells reside in the most hypoxic areas and proliferating progenitors are found in O2-rich areas. However,the effects of hypoxia on human hematopoietic stem cells (HSCs) have not been characterized. Our objective was to evaluate the functional and molecular responses of human BM progenitors and stem cells to hypoxic conditions. BM lineage-negative (Lin-) CD34+CD38- cells were cultured in serum-free medium under 1.5% O2 (hypoxia) or 20% O2 (normoxia) for 4 days. Using limiting dilution analysis,we demonstrate that the absolute number of SCID-repopulating cells (SRCs) increased by 5.8-fold in hypoxic cultures compared with normoxia,and by 4.2-fold compared with freshly isolated Lin-CD34+CD38- cells. The observed increase in BM-repopulating activity was associated with a preferential expansion of Lin-CD34+CD38- cells. We also demonstrate that,in response to hypoxia,hypoxia-inducible factor-1alpha protein was stabilized,surface expression of angiogenic receptors was upregulated,and VEGF secretion increased in BM Lin-CD34+ cultures. The use of low O2 levels to enhance the survival and/or self-renewal of human BM HSCs in vitro represents an important advance and could have valuable clinical implications. View Publication

We evaluated the feasibility and efficacy of a reduced-intensity conditioning (RIC) regimen of fludarabine and melphalan to achieve rapid complete donor chimerism after allogeneic stem cell transplantation (SCT) in patients with metastatic solid tumors. Between January 1999 and January 2003,8 patients with metastatic breast cancer (BC) and 15 with metastatic renal cell carcinoma (RCC) underwent allogeneic SCT after an RIC regimen of 5 days of fludarabine and 2 days of melphalan. Filgrastim-mobilized stem cells from HLA-identical related or unrelated donors were infused. Prophylaxis for graft-versus-host disease (GVHD) consisted of tacrolimus and methotrexate. All 22 evaluable patients had 100% donor chimerism at day 30 and at all measurement times thereafter. One patient died 19 days after SCT. Nine patients (39%) had grades II to IV acute GVHD and 10 patients (43%) had chronic GVHD. Five patients (22%) died of nonrelapse treatment-related complications. Treatment-related disease response was seen in 10 patients (45%),with 3 complete responses,2 partial responses,and 5 minor responses. Fludarabine-melphalan is a feasible and effective RIC regimen for allogeneic SCT in metastatic BC and RCC. It induces rapid complete donor chimerism without the need for donor lymphocyte infusion. Tumor regression associated with GVHD is consistent with graft-versus-tumor effect. View Publication

OVERVIEW: We show the existence of adult human mesenchymal progenitor cells (hMPCs) that can proliferate,in a cytokine-dependent manner,as individual cells in stirred suspension cultures (SSC) while maintaining their ability to form functional differentiated mesenchymal cell types. MATERIALS AND METHODS: Ficolled human bone marrow (BM)-derived cells were grown in SSC (and adherent controls) in the presence and absence of exogenously added cytokines. Phenotypic,gene expression,and functional assays for hematopoietic and nonhematopoietic cell populations were used to kinetically track cell production. Limiting-dilution analysis was used to relate culture-produced cells to input cell populations. RESULTS: Cytokine cocktail influenced total and progenitor cell expansion,as well as the types of cells generated upon plating. Flow cytometric analysis of CD117,CD123,and CD45 expression showed that cytokine supplementation influenced SSC output. The concomitant growth of CD45(+) and CD45(-) cells in the cultures that exhibited the greatest hMPC expansions suggests that the growth of these cells may benefit from interactions with hematopoietic cells. Functional assays demonstrated that the SSC-derived cells (input CFU-O number: 1990+/-377) grown in the presence of SCF+IL-3 resulted,after 21 days,in the generation of a significantly greater number (ptextless0.05) of bone progenitors (33,700+/-8763 CFU-O) than similarly initiated adherent cultures (214+/-75 CFU-O). RT-PCR analysis confirmed that the SSC-derived cells grown in osteogenic conditions express bone-specific genes (Cbfa1/Runx2,bone sialoprotein,and osteocalcin). CONCLUSIONS: Our approach not only provides an alternative strategy to expand adult BM-derived nonhematopoietic progenitor cell numbers in a scalable and controllable bioprocess,but also questions established biological paradigms concerning the properties of connective-tissue stem and progenitor cells. View Publication

Fanconi Anemia (FA) is an autosomal recessive disorder characterized by cellular hypersensitivity to DNA cross-linking agents. Recent studies suggest that FA proteins share a common pathway with BRCA proteins. To study the in vivo role of the FA group A gene (Fanca),gene-targeting techniques were used to generate Fanca(tm1Hsc) mice in which Fanca exons 1-6 were replaced by a beta-galactosidase reporter construct. Fanca(tm1.1Hsc) mice were generated by Cre-mediated removal of the neomycin cassette in Fanca(tm1Hsc) mice. Fanca(tm1.1Hsc) homozygotes display FA-like phenotypes including growth retardation,microphthalmia and craniofacial malformations that are not found in other Fanca mouse models,and the genetic background affects manifestation of certain phenotypes. Both male and female mice homozygous for Fanca mutation exhibit hypogonadism,and homozygous females demonstrate premature reproductive senescence and an increased incidence of ovarian cysts. We showed that fertility defects in Fanca(tm1.1Hsc) homozygotes might be related to a diminished population of primordial germ cells (PGCs) during migration into the gonadal ridges. We also found a high level of Fanca expression in pachytene spermatocytes. Fanca(tm1Hsc) homozygous males exhibited an elevated frequency of mispaired meiotic chromosomes and increased apoptosis in germ cells,implicating a role for Fanca in meiotic recombination. However,the localization of Rad51,Brca1,Fancd2 and Mlh1 appeared normal on Fanca(tm1Hsc) homozygous meiotic chromosomes. Taken together,our results suggest that the FA pathway plays a role in the maintenance of reproductive germ cells and in meiotic recombination. View Publication

Human umbilical cord blood (UCB) contains high numbers of endothelial progenitors cells (EPCs) characterized by coexpression of CD34 and CD133 markers. Prior studies have shown that CD34+/CD133+ EPCs from the cord or peripheral blood (PB) can give rise to endothelial cells and induce angiogenesis in ischemic tissues. In the present study,it is shown that freshly isolated human cord blood CD34+ cells injected into ischemic adductor muscles gave rise to endothelial and,unexpectedly,to skeletal muscle cells in mice. In fact,the treated limbs exhibited enhanced arteriole length density and regenerating muscle fiber density. Under similar experimental conditions,CD34- cells did not enhance the formation of new arterioles and regenerating muscle fibers. In nonischemic limbs CD34+ cells increased arteriole length density but did not promote formation of new muscle fibers. Endothelial and myogenic differentiation ability was maintained in CD34+ cells after ex vivo expansion. Myogenic conversion of human cord blood CD34+ cells was also observed in vitro by coculture onto mouse myoblasts. These results show that human cord blood CD34+ cells differentiate into endothelial and skeletal muscle cells,thus providing an indication of human EPCs plasticity. The full text of this article is available online at http://www.circresaha.org. View Publication