技术资料

HIV-1 infection leads to numerous B cell abnormalities,including hypergammaglobulinemia,nonspecific B cell activation,nonspecific class switching,increased cell turnover,breakage of tolerance,increased immature/transitional B cells,B cell malignancies,as well as a loss of capacity to generate and maintain memory,all of which contribute to a global impairment of the immune humoral compartment. Several cytokines and soluble factors,which are increased in sera of HIV-1-infected individuals,have been suggested to directly or indirectly contribute to these B cell dysfunctions,and one of these is the B cell-activating factor (BAFF). We report in this study that HIV-1 (X4- and R5-tropic) upregulates BAFF expression and secretion by human monocytes. Moreover,we show that the virus-mediated production of BAFF by monocytes relies on a type I IFN response by a small percentage of plasmacytoid dendritic cells (pDCs) present in the monocyte cultures. HIV-1-induced type I IFN by pDCs triggers BAFF production in both classical and intermediate monocytes,but not in nonclassical monocytes,which nonetheless display a very strong basal BAFF production. We report also that basal BAFF secretion was higher in monocytes obtained from females compared with those from male donors. This study provides a novel mechanistic explanation for the increased BAFF levels observed during HIV-1 infection and highlights the importance of pDC/monocyte crosstalk to drive BAFF secretion. View Publication

The ontogeny of human Langerhans cells (LCs) remains poorly characterized,in particular the nature of LC precursors and the factors that may drive LC differentiation. Here we report that thymic stromal lymphopoietin (TSLP),a keratinocyte-derived cytokine involved in epithelial inflammation,cooperates with transforming growth factor (TGF)-β for the generation of LCs. We show that primary human blood BDCA-1(+),but not BDCA-3(+),dendritic cells (DCs) stimulated with TSLP and TGF-β harbor a typical CD1a(+)Langerin(+) LC phenotype. Electron microscopy established the presence of Birbeck granules,an intracellular organelle specific to LCs. LC differentiation was not observed from tonsil BDCA-1(+) and BDCA-3(+) subsets. TSLP + TGF-β LCs had a mature phenotype with high surface levels of CD80,CD86,and CD40. They induced a potent CD4(+) T-helper (Th) cell expansion and differentiation into Th2 cells with increased production of tumor necrosis factor-α and interleukin-6 compared with CD34-derived LCs. Our findings establish a novel LC differentiation pathway from BDCA-1(+) blood DCs with potential implications in epithelial inflammation. Therapeutic targeting of TSLP may interfere with tissue LC repopulation from circulating precursors. View Publication

Plasmacytoid dendritic cells (pDCs) play a vital role in activation of anti-HIV-1 immunity,and suppression of pDCs might mitigate immune responses against HIV-1. HIV-1 gp120 high-mannose has been attributed immunosuppressive roles in human myeloid DCs,but no receptors for high-mannose have so far been reported on human pDCs. Here we show that upon activation with HIV-1 or by a synthetic compound triggering the same receptor in human pDCs as single-stranded RNA,human pDCs upregulate the mannose receptor (MR,CD206). To examine the functional outcome of this upregulation,inactivated intact or viable HIV-1 particles with various degrees of mannosylation were cultured with pDCs. Activation of pDCs was determined by assaying secretion of IFN-alpha,viability,and upregulation of several pDC-activation markers: CD40,CD86,HLA-DR,CCR7,and PD-L1. The level of activation negatively correlated with degree of mannosylation,however,subsequent reduction in the original mannosylation level had no effect on the pDC phenotype. Furthermore,two of the infectious HIV-1 strains induced profound necrosis in pDCs,also in a mannose-independent manner. We therefore conclude that natural mannosylation of HIV-1 is not involved in HIV-1-mediated immune suppression of pDCs. View Publication

As sentinels of the immune system,dendritic cells (DCs) play an essential role in regulating cellular immune responses. One of the main challenges of developing DC-targeted therapies includes the delivery of antigen to DCs in order to promote the activation of antigen-specific effector CD8 T cells. With the goal of creating antigen-directed immunotherapeutics that can be safely administered directly to patients,Immune Design has developed a platform of novel integration-deficient lentiviral vectors that target and deliver antigen-encoding nucleic acids to human DCs. This platform,termed ID-VP02,utilizes a novel genetic variant of a Sindbis virus envelope glycoprotein with posttranslational carbohydrate modifications in combination with Vpx,a SIVmac viral accessory protein,to achieve efficient targeting and transduction of human DCs. In addition,ID-VP02 incorporates safety features in its design that include two redundant mechanisms to render ID-VP02 integration-deficient. Here,we describe the characteristics that allow ID-VP02 to specifically transduce human DCs,and the advances that ID-VP02 brings to conventional third-generation lentiviral vector design as well as demonstrate upstream production yields that will enable manufacturing feasibility studies to be conducted. View Publication

Invariant natural killer T (iNKT) cells are a unique lymphocyte subpopulation that mediates antitumor activities upon activation. A current strategy to harness iNKT cells for cancer treatment is endogenous iNKT cell activation using patient-derived dendritic cells (DCs). However,the limited number and functional defects of patient DCs are still the major challenges for this therapeutic approach. In this study,we investigated whether human embryonic stem cells (hESCs) with an ectopically expressed CD1d gene could be exploited to address this issue. Using a lentivector carrying an optimized expression cassette,we generated stably modified hESC lines that consistently overexpressed CD1d. These modified hESC lines were able to differentiate into DCs as efficiently as the parental line. Most importantly,more than 50% of such derived DCs were CD1d+. These CD1d-overexpressing DCs were more efficient in inducing iNKT cell response than those without modification,and their ability was comparable to that of DCs generated from monocytes of healthy donors. The iNKT cells expanded by the CD1d-overexpressing DCs were functional,as demonstrated by their ability to lyse iNKT cell-sensitive glioma cells. Therefore,hESCs stably modified with the CD1d gene may serve as a convenient,unlimited,and competent DC source for iNKT cell-based cancer immunotherapy. View Publication

We describe here the effects of three drugs that are either approved or have the potential for treating multiple sclerosis (MS) patients through the in vitro activities of human natural killer (NK) cells and dendritic cells (DCs). Our results indicate that 1,25(OH)2D3,the biologically active metabolite of vitamin D3,calcipotriol and FTY720 augment IL-2-activated NK cell lysis of K562 and RAJI tumor cell lines as well as immature (i) and mature (m) DCs,with variable efficacies. These results are corroborated with the ability of the drugs to up-regulate the expression of NK cytotoxicity receptors NKp30 and NKp44,as well as NKG2D on the surfaces of NK cells. Also,they down-regulate the expression of the killer inhibitory receptor CD158. The three drugs down-regulate the expression of CCR6 on the surface of iDCs,whereas vitamin D3 and calcipotriol tend to up-regulate the expression of CCR7 on mDCs,suggesting that they may influence the migration of DCs into the lymph nodes. Finally,vitamin D3,calcipotriol and FTY720 enhance NK17/NK1 cell lysis of K562 cells,suggesting that a possible mechanism of action for these drugs is via activating these newly described cells. In conclusion,our results show novel mechanisms of action for vitamin D3,calcipotriol and FTY720 on cells of the innate immune system. View Publication

BACKGROUND Many cancers,including melanoma,exclusively express constitutive proteasomes (cPs) and are unable to express immunoproteasomes (iPs). In contrast,mature DCs used for immunotherapy exclusively express iPs. Since proteasomes generate peptides presented by HLA class I molecules,we hypothesized that mature melanoma antigen-loaded DCs engineered to process antigens through cPs would be superior inducers of antimelanoma immunity in vivo. METHODS Subjects with metastatic melanoma were vaccinated with mature DCs transfected with RNAs encoding melanoma antigens MART1,MAGE-3,gp100,and tyrosinase. These DCs were derived from monocytes that were untransfected (Arm A; n = 4),transfected with control siRNA (Arm B; n = 3),or transfected with siRNAs targeting the 3 inducible iP subunits (Arm C; n = 5). RESULTS Vaccination stimulated antigen-specific T cell responses in all subjects,which peaked after 3-4 vaccinations,but remained elevated in Arm C subjects. Also in Arm C,circulating melanoma cell levels (as detected by quantitative PCR) fell,and T cell lytic activity against autologous melanoma was induced. In HLA-A2 subjects,CD8 T cells that bound tetramers loaded with cP-derived melanoma antigenic peptides were found in the peripheral blood only in Arm C subjects. Of 2 subjects with active disease (both in Arm C),one had a partial clinical response,while the other,who exhibited diffuse dermal and soft tissue metastases,had a complete response. CONCLUSION These results suggest that the efficacy of melanoma DC-based immunotherapy is enhanced when tumor antigen-loaded DCs used for vaccination express cPs. TRIAL REGISTRATION Clinicaltrials.gov NCT00672542. FUNDING Duke Clinical Research Institute/Duke Translational Medicine Institute,Duke Melanoma Consortium,and Duke University Department of Surgery. View Publication

The antitumor activity of LPS was first described by Dr. William Coley. However,its role in lung cancer remains unclear. The aim of our study was to elucidate the dose-dependent effects of LPS (0.1-10 μg/mouse) in a mouse model of B16-F10-induced metastatic lung cancer. Lung tumor growth increased at 3 and 7 d after the administration of low-dose LPS (0.1 μg/mouse) compared with control mice. This was associated with an influx of plasmacytoid dendritic cells (pDCs),regulatory T cells,myeloid-derived suppressor cells,and CD8(+) regulatory T cells. In contrast,high-dose LPS (10 μg/mouse) reduced lung tumor burden and was associated with a greater influx of pDCs,as well as a stronger Th1 and Th17 polarization. Depletion of pDCs during low-dose LPS administration resulted in a decreased lung tumor burden. Depletion of pDCs during high-dose LPS treatment resulted in an increased tumor burden. The dichotomy in LPS effects was due to the phenotype of pDCs,which were immunosuppressive after the low-dose LPS,and Th1- and T cytotoxic-polarizing cells after the high-dose LPS. Adoptive transfer of T cells into nude mice demonstrated that CD8(+) T cells were responsible for pDC recruitment following low-dose LPS administration,whereas CD4(+) T cells were required for pDC influx after the high-dose LPS. In conclusion,our data suggest differential effects of low-dose versus high-dose LPS on pDC phenotype and tumor progression or regression in the lungs of mice. View Publication

In this study,we examined the effects of cryoprotectant,freezing and thawing,and adenovirus (Adv) transduction on the viability,transgene expression,phenotype,and function of human dendritic cells (DCs). DCs were differentiated from cultured peripheral blood (PB) monocytes following Elutra isolation using granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin-4 (IL-4) for 6 days and then transduced using an Adv vector with an IL-12 transgene. Fresh,cryopreserved,and thawed transduced immature DCs were examined for their: 1) cellular concentration and viability; 2) antigenicity using an allogeneic mixed lymphocyte reaction (MLR); 3) phenotype (HLA-DR and CD11c) and activation (CD83); and 4) transgene expression based on IL-12 secretion. Stability studies revealed that transduced DCs could be held in cryoprotectant for as long as 75 min at 2-8°C prior to freezing with little effect on their viability and cellularity. Further,cryopreservation,storage,and thawing reduced the viability of the transduced DCs by an average of 7.7%; and had no significant impact on DC phenotype and activation. In summary,cryopreservation,storage,and thawing had no significant effect on DC viability,function,and transgene expression by Adv-transduced DCs. View Publication

HIV elite controllers (EC) are a rare group of HIV-infected patients who are able to maintain undetectable viral loads during a long period of time in the absence of antiretroviral treatment. Adaptive immunity and host genetic factors,although implicated,do not entirely explain this phenomenon. On the other hand,plasmacytoid dendritic cells (pDCs) are the principal type I interferon (IFN) producers in response to viral infection,and it is unknown whether pDCs are involved in the control of HIV infection in EC. In our study,we analyzed peripheral pDC levels and IFN-α production by peripheral blood mononuclear cells (PBMCs) in EC compared to other groups of HIV-infected patients,the ability of pDCs to reduce HIV production in vitro,and the mechanisms potentially involved. We showed preserved pDC counts and IFN-α production in EC. We also observed a higher capacity of pDCs from EC to reduce HIV production and to induce T cell apoptosis,whereas pDCs from viremic patients barely responded without previous Toll-like receptor 9 (TLR-9) stimulus. The preserved functionality of pDCs from EC to reduce viral production may be one of the mechanisms involved in the control of HIV viremia in these subjects. These results demonstrate the importance of innate immunity in HIV pathogenesis,and an understanding of pDC mechanisms would be helpful for the design of new therapies. View Publication

New vaccines against pertussis are needed to evoke full protection and long-lasting immunological memory starting from the first administration in neonates--the major target of the life-threatening pertussis infection. A novel live attenuated Bordetella pertussis vaccine strain,BPZE1,has been developed by eliminating or detoxifying three important B. pertussis virulence factors: pertussis toxin,dermonecrotic toxin,and tracheal cytotoxin. We used a human preclinical ex vivo model based on monocyte-derived dendritic cells (MDDCs) to evaluate BPZE1 immunogenicity. We studied the effects of BPZE1 on MDDC functions,focusing on the impact of Bordetella-primed dendritic cells in the regulation of Th and suppressor T cells (Ts). BPZE1 is able to activate human MDDCs and to promote the production of a broad spectrum of proinflammatory and regulatory cytokines. Moreover,conversely to its parental wild-type counterpart BPSM,BPZE1-primed MDDCs very efficiently migrate in vitro in response to the lymphatic chemokine CCL21,due to the inactivation of pertussis toxin enzymatic activity. BPZE1-primed MDDCs drove a mixed Th1/Th17 polarization and also induced functional Ts. Experiments performed in a Transwell system showed that cell contact rather than the production of soluble factors was required for suppression activity. Overall,our findings support the potential of BPZE1 as a novel live attenuated pertussis vaccine,as BPZE1-challenged dendritic cells might migrate from the site of infection to the lymph nodes,prime Th cells,mount an adaptive immune response,and orchestrate Th1/Th17 and Ts responses. 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