技术资料

CD4+CD25+ Tregs regulate immunity,but little is known about their own regulation. We now report that the human 60-kDa heat shock protein (HSP60) acts as a costimulator of human Tregs,both CD4+CD25int and CD4+CD25hi. Treatment of Tregs with HSP60,or its peptide p277,before anti-CD3 activation significantly enhanced the ability of relatively low concentrations of the Tregs to downregulate CD4+CD25- or CD8+ target T cells,detected as inhibition of target T cell proliferation and IFN-gamma and TNF-alpha secretion. The enhancing effects of HSP60 costimulation on Tregs involved innate signaling via TLR2,led to activation of PKC,PI3K,and p38,and were further enhanced by inhibition of ERK. HSP60-treated Tregs suppressed target T cells both by cell-to-cell contact and by secretion of TGF-beta and IL-10. In addition,the expression of ERK,NF-kappaB,and T-bet by downregulated target T cells was inhibited. Thus,HSP60,a self-molecule,can downregulate adaptive immune responses by upregulating Tregs innately through TLR2 signaling. View Publication

B cell-activating factor of the tumor necrosis factor (TNF) family,or BAFF,is mainly produced in monocytes and dendritic cells,and indispensable for proliferation,differentiation and survival of B cells. BAFF is a type II membrane-bound protein and the extracellular C-terminal fragment is released from the cells as soluble BAFF (sBAFF),which binds to specific receptors on B cells. Accumulating evidence suggests that BAFF plays an important role in the pathogenesis of autoimmune diseases,such as systemic lupus erythematosus (SLE). In this study,we developed a sensitive sandwich ELISA system to quantify the amount of sBAFF using our own mAb. Treatment of peripheral T cells of SLE patients with an anti-CD3 antibody triggered robust expression of BAFF and subsequent release of sBAFF from the cells. On the other hand,the stimulus induced only marginal elevation of sBAFF from normal T cells. These data indicate that BAFF is expressed in T cells upon stimulation at least under pathological conditions. Expression of BAFF was also largely induced in a human T cell line,Loucy (American Type Tissue Collection CRL-2629),in response to several stimuli,while other T cell lines so far examined produced the cytokine almost constitutively. These data suggest that Loucy recapitulates some of the characteristics of SLE T cells. Investigation of molecular and cellular mechanisms of production of BAFF in Loucy demonstrated that expression of BAFF was regulated through a signal transduction pathway which involves c-jun NH2-terminal kinase and p38,and that shedding of BAFF was catalyzed by a membrane-bound protease,furin. View Publication

IL-7 plays a major role in T lymphocyte homeostasis and has been proposed as an immune adjuvant for lymphopenic patients. This prospect is based,at least in part,on the short-term expansion of peripheral T cells in rIL7-treated mice and primates. Nevertheless,in vivo,following initial increases in T cell proliferation and numbers,lymphocytes return to a quiescent state. As the bases for this cell cycle exit have not yet been elucidated,it is important to assess the long-term biological effects of IL-7 on quiescent human T lymphocyte subsets. In this study,we find that IL-7-stimulated CD4+ naive lymphocytes enter into cell cycle with significantly delayed kinetics as compared with the memory population. Importantly though,these lymphocytes exit from the cell cycle despite the continuous replenishment of rIL-7. This response is distinct in memory and naive CD4+ lymphocytes with memory cells starting to exit from cycle by day 10 vs day 18 for naive cells. Return to quiescence is associated with a cessation in IL-7R signaling as demonstrated by an abrogation of STAT-5 phosphorylation,despite an up-regulation of surface IL-7Ralpha. Indeed,an initial 10-fold decrease in IL-7Ralpha mRNA levels is followed by increased IL-7Ralpha expression in naive as well as memory T cells,with kinetics paralleling cell cycle exit. Altogether,our data demonstrate that IL-7 promotes the extended survival of both naive and memory CD4+ T cells,whereas cycling of these two subsets is distinct and transient. Thus,IL-7 therapy should be designed to allow optimal responsiveness of naive and memory T cell subsets. View Publication

The Wiskott-Aldrich syndrome protein (WASP) is a product of the gene defective in an Xid disorder,Wiskott-Aldrich syndrome. WASP expression is limited to hemopoietic cells,and WASP regulates the actin cytoskeleton. It has been reported that monocytes/macrophages from WASP-deficient Wiskott-Aldrich syndrome patients are severely defective in chemotaxis,resulting in recurrent infection. However,the molecular basis of such chemotactic defects is not understood. Recently,the WASP N-terminal region was found to bind to the three mammalian verprolin homologs: WASP interacting protein (WIP); WIP and CR16 homologous protein (WICH)/WIP-related protein (WIRE); and CR16. Verprolin was originally found to play an important role in the regulation of actin cytoskeleton in yeast. We have shown that WASP,WIP,and WICH/WIRE are expressed predominantly in the human monocyte cell line THP-1 and that WIP and WICH/WIRE are involved in monocyte chemotaxis. When WASP binding to verprolins was blocked,chemotactic migration of monocytes was impaired in both THP-1 cells and primary human monocytes. Increased expression of WASP and WIP enhanced monocyte chemotaxis. Blocking WASP binding to verprolins impaired cell polarization but not actin polymerization. These results indicate that a complex of WASP with mammalian verprolins plays an important role in chemotaxis of monocytes. Our results suggest that WASP and mammalian verprolins function as a unit in monocyte chemotaxis and that the activity of this unit is critical to establish cell polarization. In addition,our results also indicate that the WASP-verprolin complex is involved in other functions such as podosome formation and phagocytosis. View Publication

MICA is a stress-regulated molecule recognized by the NK cell-activating receptor NKG2D. Previously,we demonstrated that MICA is induced on activated T cells but regulation by mitogenic cytokines and its biological consequences remain unexplored. Here,we show that IL-2,IL-4,and IL-15 but not TNF-alpha or IFN-alpha induced MICA expression in T lymphocytes present in peripheral blood mononuclear cells (PBMCs),as assessed by Western blot. IL-2 effect involved Jak3/STAT5,p38 MAPK,p70(56) kinase,Lck/fyn kinases,and NF-kappaB. MICA expression was also observed in Th1 and Th2 cells. However,surface expression was not detected. T lymphocytes present in PBMCs and isolated CD4+ T lymphocytes stimulated with phorbol-12-myristate-13-acetate and ionomycin also induced MICA expression as assessed by Western blot,but only low levels were expressed at the cell surface. Activated but not resting CD4+ T lymphocytes were lysed by IL-15- or IL-2-stimulated NK cells,and susceptibility was increased when HLA class I molecules were blocked. Also,cytokine-stimulated NK cells produced more IFN-gamma after culture with activated CD4+ T lymphocytes. However,the participation of MICA in these responses,if any,was marginal. Confocal microscopy revealed that MICA is retained mostly inside activated CD4+ T cells. Our results suggest that low surface expression of MICA on activated CD4+ T lymphocytes might be a safeguard mechanism to protect them from NK cells in an inflammatory,virus-infected,or tumor microenvironment,where NK and activated CD4+ T cells are recruited. View Publication

CD4+CD25+ regulatory T cells play an important role in peripheral tolerance. Upon T cell receptor (TCR)-mediated activation,the cells fail to proliferate but are induced to have a suppressor function. The intracellular signaling events that lead to their responses have not been elucidated. In this study,we have examined the proximal TCR signaling events in freshly isolated human CD4+CD25+ regulatory T cells after TCR ligation. In contrast to CD4+CD25- T cells,TCR ligation of CD4+CD25+ regulatory T cells by anti-CD3 cross-linking resulted in a lower calcium influx and extracellular signal-regulated kinase 1/2 phosphorylation. Examination of the CD3zeta chain phosphorylation status indicated that CD4+CD25+ regulatory T cells have poor phosphorylation of the protein and consequently,reduced recruitment of zeta-associated protein-70 to the TCR immunoreceptor tyrosine motif. The adaptor protein,Src homology 2 domain-containing leukocyte phosphoprotein of 76 kDa,which relays signals to downstream signaling components,also showed reduced phosphorylation,which correlated with reduced VAV guanine nucleotide exchange factors association. Consistent with other findings,the defect is accompanied with impaired actin cap formation,implicating a failure of actin remodeling of the cells. Together,our results demonstrate that CD4+CD25+ regulatory T cells have altered TCR proximal signaling pathways,which could be critical for inducing the distinct behavior of these cells. View Publication

The t(16:16) and inv(16) are associated with FAB M4Eo myeloid leukemias and result in fusion of the CBFB gene to the MYH11 gene (encoding smooth muscle myosin heavy chain [SMMHC]). Knockout of CBFbeta causes embryonic lethality due to lack of definitive hematopoiesis. Although knock-in of CBFB-MYH11 is not sufficient to cause disease,expression increases the incidence of leukemia when combined with cooperating events. Although mouse models are valuable tools in the study of leukemogenesis,little is known about the contribution of CBFbeta-SMMHC to human hematopoietic stem and progenitor cell self-renewal. We introduced the CBFbeta-MYH11 cDNA into human CD34+ cells via retroviral transduction. Transduced cells displayed an initial repression of progenitor activity but eventually dominated the culture,resulting in the proliferation of clonal populations for up to 7 months. Long-term cultures displayed a myelomonocytic morphology while retaining multilineage progenitor activity and engraftment in NOD/SCID-B2M-/- mice. Progenitor cells from long-term cultures showed altered expression of genes defining inv(16) identified in microarray studies of human patient samples. This system will be useful in examining the effects of CBFbeta-SMMHC on gene expression in the human preleukemic cell,in characterizing the effect of this oncogene on human stem cell biology,and in defining its contribution to the development of leukemia. View Publication

Apoptosis is a key pathogenic mechanism in sepsis that induces extensive death of lymphocytes and dendritic cells,thereby contributing to the immunosuppression that characterizes the septic disorder. Numerous animal studies indicate that prevention of apoptosis in sepsis improves survival and may represent a potential therapy for this highly lethal disorder. Recently,novel cell-penetrating peptide constructs such as HIV-1 TAT basic domain and related peptides have been developed to deliver bioactive cargoes and peptides into cells. In the present study,we investigated the effects of sepsis-induced apoptosis in Bcl-x(L) transgenic mice and in wild-type mice treated with an antiapoptotic TAT-Bcl-x(L) fusion protein and TAT-BH4 peptide. Lymphocytes from Bcl-x(L) transgenic mice were resistant to sepsis-induced apoptosis,and these mice had a approximately 3-fold improvement in survival. TAT-Bcl-x(L) and TAT-BH4 prevented Escherichia coli-induced human lymphocyte apoptosis ex vivo and markedly decreased lymphocyte apoptosis in an in vivo mouse model of sepsis. In conclusion,TAT-conjugated antiapoptotic Bcl-2-like peptides may offer a novel therapy to prevent apoptosis in sepsis and improve survival. View Publication

Current therapies for delayed- or nonunion bone fractures are still largely ineffective. Previous studies indicated that the VEGF homolog placental growth factor (PlGF) has a more significant role in disease than in health. Therefore we investigated the role of PlGF in a model of semi-stabilized bone fracture healing. Fracture repair in mice lacking PlGF was impaired and characterized by a massive accumulation of cartilage in the callus,reminiscent of delayed- or nonunion fractures. PlGF was required for the early recruitment of inflammatory cells and the vascularization of the fracture wound. Interestingly,however,PlGF also played a role in the subsequent stages of the repair process. Indeed in vivo and in vitro findings indicated that PlGF induced the proliferation and osteogenic differentiation of mesenchymal progenitors and stimulated cartilage turnover by particular MMPs. Later in the process,PlGF was required for the remodeling of the newly formed bone by stimulating osteoclast differentiation. As PlGF expression was increased throughout the process of bone repair and all the important cell types involved expressed its receptor VEGFR-1,the present data suggest that PlGF is required for mediating and coordinating the key aspects of fracture repair. Therefore PlGF may potentially offer therapeutic advantages for fracture repair. View Publication

The ability of acute myeloid leukemic (AML) blasts to differentiate into leukemic dendritic cells (DC) thus acquiring the potential to present known and unknown leukemic antigens efficiently,holds promise as a possible new treatment for AML patients with minimal residual disease. Recent advances in culture methods have made the clinical use of leukemic DC feasible. However,additional measures appear to be essential in order to potentiate vaccines and to overcome the intrinsic tolerant state of the patients immune system. This review describes ways to improve AML-DC vaccines and discusses critical aspects concerning the development of clinical vaccination protocols. View Publication