技术资料

Cell-adhesion molecules,once believed to function primarily in tethering cells to extracellular ligands,are now recognized as having broader functions in cellular signalling cascades. The CD44 transmembrane glycoprotein family adds new aspects to these roles by participating in signal-transduction processes--not only by establishing specific transmembrane complexes,but also by organizing signalling cascades through association with the actin cytoskeleton. CD44 and its associated partner proteins monitor changes in the extracellular matrix that influence cell growth,survival and differentiation. View Publication

Guggulipid is an extract of the guggul tree Commiphora mukul and has been widely used to treat hyperlipidemia in humans. The plant sterol guggulsterone (GS) is the active agent in this extract. Recent studies have shown that GS can act as an antagonist ligand for farnesoid X receptor (FXR) and decrease expression of bile acid-activated genes. Here we show that GS,although an FXR antagonist in coactivator association assays,enhances FXR agonist-induced transcription of bile salt export pump (BSEP),a major hepatic bile acid transporter. In HepG2 cells,in the presence of an FXR agonist such as chenodeoxycholate or GW4064,GS enhanced endogenous BSEP expression with a maximum induction of 400-500{\%} that induced by an FXR agonist alone. This enhancement was also readily observed in FXR-dependent BSEP promoter activation using a luciferase reporter construct. In addition,GS alone slightly increased BSEP promoter activation in the absence of an FXR agonist. Consistent with the results in HepG2,guggulipid treatment in Fisher rats increased BSEP mRNA. Interestingly,in these animals expression of the orphan nuclear receptor SHP (small heterodimer partner),a known FXR target,was also significantly increased,whereas expression of other FXR targets including cholesterol 7alpha-hydroxylase (Cyp 7a1),sterol 12alpha-hydroxylase (Cyp 8b1),and the intestinal bile acid-binding protein (I-BABP),remained unchanged. Thus,we propose that GS is a selective bile acid receptor modulator that regulates expression of a subset of FXR targets. Guggulipid treatment in rats lowered serum triglyceride and raised serum high density lipoprotein levels. Taken together,these data suggest that guggulsterone defines a novel class of FXR ligands characterized by antagonist activities in coactivator association assays but with the ability to enhance the action of agonists on BSEP expression in vivo. View Publication

Caspase-directed apoptosis usually fragments cells,releasing nonfunctional,prothrombogenic,membrane-bound apoptotic bodies marked for rapid engulfment by macrophages. Blood platelets are functional anucleate cells generated by specialized fragmentation of their progenitors,megakaryocytes (MKs),but committed to a constitutive caspase-independent death. Constitutive formation of the proplatelet-bearing MK was recently reported to be caspase-dependent,apparently involving mitochondrial release of cytochrome c,a known pro-apoptogenic factor. We extend those studies and report that activation of caspases in MKs,either constitutively or after Fas ligation,yields platelets that are functionally responsive and evade immediate phagocytic clearance,and retain mitochondrial transmembrane potential until constitutive platelet death ensues. Furthermore,the exclusion from the platelet progeny of caspase-9 present in the progenitor accounts for failure of mitochondrial release of cytochrome c to activate caspase-3 during platelet death. Thus,progenitor cell death by apoptosis can result in birth of multiple functional anucleate daughter cells. View Publication

The aim of this study was to standardize in vitro culture conditions for human acute lymphoblastic leukemia (ALL) cells. The cells were cultured in medium containing 10% fetal calf serum (FCS) and in the four serum-free media X-vivo 10,X-vivo 15,X-vivo 20 and Stem Span. Native ALL blasts could proliferate in all four serum-free media,but the strongest responses were usually observed with Stem Span. Native leukemia blasts were also cultured in the presence of various single cytokines or cytokine combinations. The highest proliferation was usually observed in the presence of Flt3-Ligand (Flt3-L) when single cytokines were examined,and these responses could be further increased especially by combining Flt3-L with interleukin 3 (IL3),IL7 or stem cell factor (SCF). Proliferation could also be increased when ALL blasts were cultured in the presence of two commercially available fibroblast cell lines (Hs27 and HFL1). Based on these results we suggest that in vitro culture conditions for native human ALL blasts can be standardized by using serum-free culture media supplemented with exogenous Flt3-L+IL3+SCF,and the use of accessory cells can also be standardized by using well-characterized fibroblast cell lines. Detectable ALL blast proliferation can then be observed for most patients. Our experimental model can thereby be used for in vitro evaluation of possible antileukemic treatment strategies,and it will then allow comparison of experimental results between different studies. View Publication

Haematopoietic stem cells (HSCs) have the ability to renew themselves and to give rise to all lineages of the blood; however,the signals that regulate HSC self-renewal remain unclear. Here we show that the Wnt signalling pathway has an important role in this process. Overexpression of activated beta-catenin expands the pool of HSCs in long-term cultures by both phenotype and function. Furthermore,HSCs in their normal microenvironment activate a LEF-1/TCF reporter,which indicates that HCSs respond to Wnt signalling in vivo. To demonstrate the physiological significance of this pathway for HSC proliferation we show that the ectopic expression of axin or a frizzled ligand-binding domain,inhibitors of the Wnt signalling pathway,leads to inhibition of HSC growth in vitro and reduced reconstitution in vivo. Furthermore,activation of Wnt signalling in HSCs induces increased expression of HoxB4 and Notch1,genes previously implicated in self-renewal of HSCs. We conclude that the Wnt signalling pathway is critical for normal HSC homeostasis in vitro and in vivo,and provide insight into a potential molecular hierarchy of regulation of HSC development. View Publication

CD44 is a multistructural cell-surface glycoprotein that can theoretically generate close to 800 isoforms by differential alternative splicing. At present,several dozen isoforms are known. The polymorphic nature of CD44 might explain its multifunctionality and its ability to interact with many cell-surface and extracellular ligands,the principal one being hyaluronic acid (HA). Of the many CD44 functions,our review focuses on its involvement in cell-cell and cell-matrix interactions,as well as on its implication in the support of cell migration and the presentation of growth factors to their cognate receptors. Cells involved in pathological activities such as cancer cells and destructive inflammatory cells,and also normal cells engaged in physiological functions,use cell-surface CD44 for their localization and expansion at extravascular sites. This article reviews the evidence that the joint synovium of patients with rheumatoid arthritis (RA) contains considerable amounts of various CD44 isoforms as well as the HA ligand. The review also shows that anti-CD44 monoclonal antibody (mAb) directed against constant epitopes,shared by all CD44 isoforms,can markedly reduce the inflammatory activity of arthritis induced by collagen or proteoglycans in mice. Anti-CD44 mAb also interferes with the migration of RA synovial-like fibroblasts in vitro and is able to disturb the destructive interaction between RA synovial-like fibroblasts and the cartilaginous matrix. However,the transition from the experimental model to the patient's bedside is dependent on the ability to target the CD44 of cells engaged in RA pathology,while skipping the CD44 of normal cells. 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

Optimal induction of clonal expansion by normal CD4 T cells requires a ligand that can engage the T cell receptor as well as functionally defined costimulatory activity on the same antigen-presenting cell surface. While the presence of effective costimulation induces proliferation,T cell receptor ligation in its absence renders T cells inactive or anergic. The molecular basis of this costimulatory activity remains to be defined. Here we describe a monoclonal antibody that can block the costimulatory activity of splenic accessory cells. Treatment with this antibody not only blocks the proliferation of CD4 T cells to a T cell receptor ligand,but also induces T cell nonresponsiveness to subsequent stimulation. Sequence analysis of the antigen recognized by this antibody indicates that it recognizes a protein that is identical to heat-stable antigen. Gene transfer experiments directly demonstrate that this protein has costimulatory activity. Thus,heat-stable antigen meets the criteria for a costimulator of T cell clonal expansion. View Publication

Sir2 and Hst1 are NAD+-dependent deacetylases involved in transcriptional repression in yeast. The two enzymes are highly homologous yet have different sensitivity to the small-molecule inhibitor splitomicin (compound 1) (Bedalov,A.,Gatbonton,T.,Irvine,W. P.,Gottschling,D. E.,and Simon,J. A. (2001) Proc. Natl. Acad. Sci. U. S. A. 98,15113-15118). We have now defined a critical amino acid residue within a small helical module of Hst1 that confers relative resistance to splitomicin. Parallel cell-based screens of 100 splitomicin analogues led to the identification of compounds that exhibit a higher degree of selectivity toward Sir2 or Hst1. A series of compounds based on a splitomicin derivative,dehydrosplitomicin (compound 2),effectively phenocopied a yeast strain that lacked Hst1 deacetylase while having no effect on the silencing activities of Sir2. In addition,we identified a compound with improved selectivity for Sir2. Selectivity was affirmed using whole-genome DNA microarray analysis. This study underscores the power of phenotypic screens in the development and characterization of selective inhibitors of enzyme functions. View Publication

IL-3,IL-5,and GM-CSF are related hematopoietic cytoines that are important for allergic inflammation. The receptors for human IL-5,IL-3,and GM-CSF are members of the hematopoietin receptor superfamily and are comprised of a cytokine-specific alpha chain and the common beta chain that is shared among these cytokines for signaling. Each of these cytokines contributes to the differentiation and function of leukocyte subpopulations and have clinical importance in protective immunity and in the pathophysiology of a spectrum of immunologic diseases that are as diverse as allergy and asthma,pulmonary alveolar proteinosis,neurodegenerative diseases,and malignancies. Delineating the biology of these cytokines is enabling the development of new strategies for diagnosing and treating these diseases and modulating immune responses. View Publication

The phosphatidylinositol-3 kinase (PI3K) pathway plays a central role in regulating numerous biologic processes,including survival,adhesion,migration,metabolic activity,proliferation,differentiation,and end cell activation through the generation of the potent second messenger PI-3,4,5-trisphosphate (PI-3,4,5-P(3)). To ensure that activation of this pathway is appropriately suppressed/terminated,the ubiquitously expressed 54-kDa tumor suppressor PTEN hydrolyzes PI-3,4,5-P(3) to PI-4,5-P(2),whereas the 145-kDa hematopoietic-restricted SH2-containing inositol 5'-phosphatase SHIP (also known as SHIP1),the 104-kDa stem cell-restricted SHIP sSHIP,and the more widely expressed 150-kDa SHIP2 break it down to PI-3,4-P(2). In this review,we focus on the properties of these phospholipid phosphatases and summarize recent data showing that the activities of these negative regulators often are modulated by simply altering their protein levels. We also highlight the critical role that SHIP plays in lipopolysaccharide-induced macrophage activation and in endotoxin tolerance. View Publication

Type 1 interferon-producing cells (IPCs),also known as plasmacytoid dendritic cell (DC) precursors,represent the key effectors in antiviral innate immunity and triggers for adaptive immune responses. IPCs play important roles in the pathogenesis of systemic lupus erythematosus (SLE) and in modulating immune responses after hematopoietic stem cell transplantation. Understanding IPC development from hematopoietic progenitor cells (HPCs) may provide critical information in controlling viral infection,autoimmune SLE,and graft-versus-host disease. FLT3-ligand (FLT3-L) represents a key IPC differentiation factor from HPCs. Although hematopoietic cytokines such as interleukin-3 (IL-3),IL-7,stem cell factor (SCF),macrophage-colony-stimulating factor (M-CSF),and granulocyte M-CSF (GM-CSF) promote the expansion of CD34+ HPCs in FLT3-L culture,they strongly inhibit HPC differentiation into IPCs. Here we show that thrombopoietin (TPO) cooperates with FLT3-L,inducing CD34+ HPCs to undergo a 400-fold expansion in cell numbers and to generate more than 6 x 10(6) IPCs per 10(6) CD34+ HPCs within 30 days in culture. IPCs derived from HPCs in FLT3-L/TPO cultures display blood IPC phenotype and have the capacity to produce large amounts of interferon-alpha (IFN-alpha) and to differentiate into mature DCs. This culture system,combined with the use of adult peripheral blood CD34+ HPCs purified from G-CSF-mobilized donors,permits the generation of more than 10(9) IPCs from a single blood donor. View Publication