技术资料

The immune system is replenished by self-renewing hematopoietic stem cells (HSCs) that produce multipotent progenitors (MPPs) with little renewal capacity. E-proteins,the widely expressed basic helix-loop-helix transcription factors,contribute to HSC and MPP activity,but their specific functions remain undefined. Using quantitative in vivo and in vitro approaches,we show that E47 is dispensable for the short-term myeloid differentiation of HSCs but regulates their long-term capabilities. E47-deficient progenitors show competent myeloid production in short-term assays in vitro and in vivo. However,long-term myeloid and lymphoid differentiation is compromised because of a progressive loss of HSC self-renewal that is associated with diminished p21 expression and hyperproliferation. The activity of E47 is shown to be cell-intrinsic. Moreover,E47-deficient HSCs and MPPs have altered expression of genes associated with cellular energy metabolism,and the size of the MPP pool but not downstream lymphoid precursors in bone marrow or thymus is rescued in vivo by antioxidant. Together,these observations suggest a role for E47 in the tight control of HSC proliferation and energy metabolism,and demonstrate that E47 is not required for short-term myeloid differentiation. View Publication

P-selectin glycoprotein ligand-1 (PSGL-1) is a homodimeric transmembrane mucin on leukocytes. During inflammation,reversible interactions of PSGL-1 with selectins mediate leukocyte rolling on vascular surfaces. The transmembrane domain of PSGL-1 is required for dimerization,and the cytoplasmic domain propagates signals that activate β(2) integrins to slow rolling on integrin ligands. Leukocytes from knock-in ΔCD" mice express a truncated PSGL-1 that lacks the cytoplasmic domain. Unexpectedly� View Publication

Bright/Arid3a has been characterized both as an activator of immunoglobulin heavy-chain transcription and as a proto-oncogene. Although Bright expression is highly B lineage stage restricted in adult mice,its expression in the earliest identifiable hematopoietic stem cell (HSC) population suggests that Bright might have additional functions. We showed that textgreater99% of Bright(-/-) embryos die at midgestation from failed hematopoiesis. Bright(-/-) embryonic day 12.5 (E12.5) fetal livers showed an increase in the expression of immature markers. Colony-forming assays indicated that the hematopoietic potential of Bright(-/-) mice is markedly reduced. Rare survivors of lethality,which were not compensated by the closely related paralogue Bright-derived protein (Bdp)/Arid3b,suffered HSC deficits in their bone marrow as well as B lineage-intrinsic developmental and functional deficiencies in their peripheries. These include a reduction in a natural antibody,B-1 responses to phosphocholine,and selective T-dependent impairment of IgG1 class switching. Our results place Bright/Arid3a on a select list of transcriptional regulators required to program both HSC and lineage-specific differentiation. View Publication

Dendritic cell (DC)-based immunotherapy has potential for treating infections and malignant tumors,but the functional capacity of DC must be assessed in detail,especially maturation and Ag-specific CTL priming. Recent reports suggest that DC that are provided with continuous maturation signals in vivo after transfer into patients are required to elicit the full DC functions. We demonstrate in this study that the rSendai virus vector (SeV) is a novel and ideal stimulant,providing DC with a continuous maturation signal via viral RNA synthesis in the cytosol,resulting in full maturation of monocyte-derived DC(s). Both RIG-I-dependent cytokine production and CD4 T cell responses to SeV-derived helper Ags are indispensable for overcoming regulatory T cell suppression to prime melanoma Ag recognized by T cell-1-specific CTL in the regulatory T cell abundant setting. DC stimulated via cytokine receptors,or TLRs,do not show these functional features. Therefore,SeV-infected DC have the potential for DC-directed immunotherapy. View Publication

Because lymphoid progenitors can give rise to natural killer (NK) cells,NK ontogeny has been considered to be exclusively lymphoid. Here,we show that rare human CD34(+) hematopoietic progenitors develop into NK cells in vitro in the presence of cytokines (interleukin-7,interleukin-15,stem cell factor,and fms-like tyrosine kinase-3 ligand). Adding hydrocortisone and stromal cells greatly increases the frequency of progenitor cells that give rise to NK cells through the recruitment of myeloid precursors,including common myeloid progenitors and granulocytic-monocytic precursors to the NK-cell lineage. WNT signaling was involved in this effect. Cells at more advanced stages of myeloid differentiation (with increasing expression of CD13 and macrophage colony-stimulating factor receptor [M-CSFR]) could also differentiate into NK cells in the presence of cytokines,stroma,and hydrocortisone. NK cells derived from myeloid precursors (CD56(-)CD117(+)M-CSFR(+)) showed more expression of killer immunoglobulin-like receptors,a fraction of killer immunoglobulin-like receptor-positive-expressing cells that lacked NKG2A,a higher cytotoxicity compared with CD56(-)CD117(+)M-CSFR(-) precursor-derived NK cells and thus resemble the CD56(dim) subset of NK cells. Collectively,these studies show that NK cells can be derived from the myeloid lineage. View Publication

To further clarify the transformation from monoclonal gammopathy of undetermined significance (MGUS) to plasma cell myeloma (PCM),we compared interphase fluorescence in situ hybridization (FISH) patterns in 381 MGUS and 301 PCM patients. According to the World Health Organization and the International Myeloma Working Group,a threshold of 10% of bone marrow plasma cells separated MGUS from PCM. After magnetic activated cell sorting for CD138(+) cells,FISH succeeded in 272 of 301 (90.4%) PCM,but in only 302 of 381 (79.3%) MGUS cases (P textless 0.001). Cytogenetic alterations were more frequent in PCM (237 of 272; 87.1%) than MGUS (169 of 302; 56.0%; P = 0.0002). PCM showed a median of two cytogenetic alterations (range,0-9) and MGUS one (range,0-6). Considering only cases with a yield of plasma cells allowing five or more FISH probes,del(13)(q14) was found in 99 of 251 (39.3%) PCM but in only 59 of 267 (22.1%) MGUS (P = 0.0001),del(17p) in 15 PCM (6.0%) and in 6 MGUS (2.2%) patients (P = 0.029). A t(4;14)/IGH-FGFR3 was detected in 28 PCM (11.1%) and 5 MGUS (1.9%; P textless 0.001). The t(11;14)/IGH-CCND1 and the t(14;16)/IGH-MAF showed no significant differences. Cytomorphology detected higher numbers of plasma cells than multiparameter flow cytometry (median ratio 4.25). This study underlines the genetic heterogeneity of MGUS similar to PCM. Genetic analysis might contribute to more diversified monitoring strategies for MGUS patients. View Publication

Although microbial infections can alter steady-state hematopoiesis,the mechanisms that drive such changes are not well understood. We addressed a role for IFN-γ signaling in infection-induced bone marrow suppression and anemia in a murine model of human monocytic ehrlichiosis,an emerging tick-borne disease. Within the bone marrow of Ehrlichia muris-infected C57BL/6 mice,we observed a reduction in myeloid progenitor cells,as defined both phenotypically and functionally. Infected mice exhibited a concomitant increase in developing myeloid cells within the bone marrow,an increase in the frequency of circulating monocytes,and an increase in splenic myeloid cells. The infection-induced changes in progenitor cell phenotype were critically dependent on IFN-γ,but not IFN-α,signaling. In mice deficient in the IFN-γ signaling pathway,we observed an increase in myeloid progenitor cells and CDllb(lo)Gr1(lo) promyelocytic cells within the bone marrow,as well as reduced frequencies of mature granulocytes and monocytes. Furthermore,E. muris-infected IFN-γR-deficient mice did not exhibit anemia or an increase in circulating monocytes,and they succumbed to infection. Gene transcription studies revealed that IFN-γR-deficient CDllb(lo)Gr1(lo) promyelocytes from E. muris-infected mice exhibited significantly reduced expression of irf-1 and irf-8,both key transcription factors that regulate the differentiation of granulocytes and monocytes. Finally,using mixed bone marrow chimeric mice,we show that IFN-γ-dependent infection-induced myelopoiesis occurs via the direct effect of the cytokine on developing myeloid cells. We propose that,in addition to its many other known roles,IFN-γ acts to control infection by directly promoting the differentiation of myeloid cells that contribute to host defense. View Publication

Bruton tyrosine kinase (Btk) is essential for B cell development and function and also appears to be important for myeloid cells. The bone marrow of Btk-deficient mice shows enhanced granulopoiesis compared with that of wild-type mice. In purified granulocyte-monocyte-progenitors (GMP) from Btk-deficient mice,the development of granulocytes is favored at the expense of monocytes. However,Btk-deficient neutrophils are impaired in maturation and function. Using bone marrow chimeras,we show that this defect is cell-intrinsic to neutrophils. In GMP and neutrophils,Btk plays a role in GM-CSF- and Toll-like receptor-induced differentiation. Molecular analyses revealed that expression of the lineage-determining transcription factors C/EBPα,C/EBPβ,and PU.1,depends on Btk. In addition,expression of several granule proteins,including myeloperoxidase,neutrophilic granule protein,gelatinase and neutrophil elastase,is Btk-dependent. In the Arthus reaction,an acute inflammatory response,neutrophil migration into tissues,edema formation,and hemorrhage are significantly reduced in Btk-deficient animals. Together,our findings implicate Btk as an important regulator of neutrophilic granulocyte maturation and function in vivo. View Publication

Injury induces the recruitment of bone marrow-derived cells (BMDCs) that contribute to the repair and regeneration process. The behavior of BMDCs in injured tissue has a profound effect on repair,but the regulation of BMDC behavior is poorly understood. Aberrant recruitment/retention of these cells in wounds of diabetic patients and animal models is associated with chronic inflammation and impaired healing. BMD Gr-1(+)CD11b(+) cells function as immune suppressor cells and contribute significantly to tumor-induced neovascularization. Here we report that Gr-1(+)CD11b(+) cells also contribute to injury-induced neovascularization,but show altered recruitment/retention kinetics in the diabetic environment. Moreover,diabetic-derived Gr-1(+)CD11b(+) cells fail to stimulate neovascularization in vivo and have aberrant proliferative,chemotaxis,adhesion,and differentiation potential. Previously we demonstrated that gene transfer of HOXA3 to wounds of diabetic mice is taken up by and expressed by recruited BMDCs. This is associated with a suppressed inflammatory response,enhanced neovascularization,and accelerated wound healing. Here we show that sustained expression of Hoxa3 in diabetic-derived BMD Gr-1(+)CD11b(+) cells reverses their diabetic phenotype. These findings demonstrate that manipulation of adult stem/progenitor cells ex vivo could be used as a potential therapy in patients with impaired wound healing. View Publication

It is unknown how dendritic cells (DCs) become specialized as mucosal DCs and maintain intestinal homeostasis. We report that a subset of bone marrow cells freshly isolated from C57BL/6 mice express the retinoic acid (RA)-synthesizing enzyme aldehyde dehydrogenase family 1,subfamily A2 (ALDH1a2) and are capable of providing RA to DC precursors in the bone marrow microenvironment. RA induced bone marrow-derived DCs to express CCR9 and ALDH1a2 and conferred upon them mucosal DC functions,including induction of Foxp3(+) regulatory T cells,IgA-secreting B cells,and gut-homing molecules. This response of DCs to RA was dependent on a narrow time window and stringent dose effect. RA promoted bone marrow-derived DC production of bioactive TGF-β by inhibiting suppressor of cytokine signaling 3 expression and thereby enhancing STAT3 activation. These RA effects were evident in vivo,in that mucosal DCs from vitamin A-deficient mice had reduced mucosal DC function,namely failure to induce Foxp3(+) regulatory T cells. Furthermore,MyD88 signaling enhanced RA-educated DC ALDH1a2 expression and was required for optimal TGF-β production. These data indicate that RA plays a critical role in the generation of mucosal DCs from bone marrow and in their functional activity. View Publication

BACKGROUND The development of novel influenza vaccines inducing a broad immune response is an important objective. The aim of this study was to evaluate live vaccines which induce both strong humoral and cell-mediated immune responses against the novel human pandemic H1N1 influenza virus,and to show protection in a lethal animal challenge model. METHODOLOGY/PRINCIPAL FINDINGS For this purpose,the hemagglutinin (HA) and neuraminidase (NA) genes of the influenza A/California/07/2009 (H1N1) strain (CA/07) were inserted into the replication-deficient modified vaccinia Ankara (MVA) virus--a safe poxviral live vector--resulting in MVA-H1-Ca and MVA-N1-Ca vectors. These live vaccines,together with an inactivated whole virus vaccine,were assessed in a lung infection model using immune competent Balb/c mice,and in a lethal challenge model using severe combined immunodeficient (SCID) mice after passive serum transfer from immunized mice. Balb/c mice vaccinated with the MVA-H1-Ca virus or the inactivated vaccine were fully protected from lung infection after challenge with the influenza H1N1 wild-type strain,while the neuraminidase virus MVA-N1-Ca induced only partial protection. The live vaccines were already protective after a single dose and induced substantial amounts of neutralizing antibodies and of interferon-gamma-secreting (IFN-gamma) CD4- and CD8 T-cells in lungs and spleens. In the lungs,a rapid increase of HA-specific CD4- and CD8 T cells was observed in vaccinated mice shortly after challenge with influenza swine flu virus,which probably contributes to the strong inhibition of pulmonary viral replication observed. In addition,passive transfer of antisera raised in MVA-H1-Ca vaccinated immune-competent mice protected SCID mice from lethal challenge with the CA/07 wild-type virus. CONCLUSIONS/SIGNIFICANCE The non-replicating MVA-based H1N1 live vaccines induce a broad protective immune response and are promising vaccine candidates for pandemic influenza. View Publication

Systemic lupus erythematosus (SLE) is characterized by increased vascular risk due to premature atherosclerosis independent of traditional risk factors. We previously proposed that IFN-α plays a crucial role in premature vascular damage in SLE. IFN-α alters the balance between endothelial cell apoptosis and vascular repair mediated by endothelial progenitor cells (EPCs) and myeloid circulating angiogenic cells (CACs). In this study,we demonstrate that IFN-α promotes an antiangiogenic signature in SLE and control EPCs/CACs,characterized by transcriptional repression of IL-1α and β,IL-1R1,and vascular endothelial growth factor A,and upregulation of IL-1R antagonist and the decoy receptor IL-1R2. IL-1β promotes significant improvement in the functional capacity of lupus EPCs/CACs,therefore abrogating the deleterious effects of IFN-α. The beneficial effects from IL-1 are mediated,at least in part,by increases in EPC/CAC proliferation,by decreases in EPC/CAC apoptosis,and by preventing the skewing of CACs toward nonangiogenic pathways. IFN-α induces STAT2 and 6 phosphorylation in EPCs/CACs,and JAK inhibition abrogates the transcriptional antiangiogenic changes induced by IFN-α in these cells. Immunohistochemistry of renal biopsies from patients with lupus nephritis,but not anti-neutrophil cytoplasmic Ab-positive vasculitis,showed this pathway to be operational in vivo,with increased IL-1R antagonist,downregulation of vascular endothelial growth factor A,and glomerular and blood vessel decreased capillary density,compared with controls. Our study introduces a novel putative pathway by which type I IFNs may interfere with vascular repair in SLE through repression of IL-1-dependent pathways. This could promote atherosclerosis and loss of renal function in this disease. View Publication