In vitro generation of human CD86+ dendritic cells from CD34+ haematopoietic progenitors by PMA and in serum-free medium

The cytokine requirements to differentiate CD34+ progenitor cells from different origins either cord blood (CB) or peripheral blood (PB) into dendritic cells (DC) are known to be different. In addition to DC, macrophages and neutrophils are generated. On the other hand, phorbol esters such as PMA induce primary human CD34+ bone marrow (BM) progenitor cells to differentiate into functional DC and no other lineages are generated. In addition, FCS is used as culture supplement in most of the protocols described which contains additional foreign antigens potentially skewing the resulting immune response. Therefore, we evaluated the ability to differentiate CB- and PB-CD34+ progenitor cells into DC with PMA and under serum-free conditions. In this study, we delineate the maturation of cultured human blood DC by analysis of expression co-stimulatory molecule B7-2 (CD86). Human mature DC with typical morphology and surface antigen phenotype (CD1a-, CD83+ and CD86+) were obtained from CB- and PB-CD34+ progenitor cells after 1 week of culture in serum-free medium upon stimulation with PMA alone. The same result was obtained from ex vivo-expanded BM-CD34+ cells. CD86+ yield was increased by PMA compared to cytokine cocktails (28.0% +/- 7.0 versus 15.3% +/- 5.6 for CB and 44.6% +/- 7.5 versus 28.1% +/- 7.5 for PB, respectively). CD86 was most up-regulated in the presence of the calcium ionophore ionomycin. However, the number of viable cells after differentiation was decreased by PMA plus ionomycin (P < 0.05) or plus TNF-alpha (P > 0.05) as compared with that in PMA alone. We conclude that PMA is a potent activator to differentiate human CD34+ cells into mature DC in serum-free medium. This may be used for in vitro studies of primed or genetically modified DC against infectious and tumour-associated antigens.     

骨髓CD34+细胞体外扩增诱导树突状细胞实验研究

目的探讨应用不同细胞因子组合方案从骨髓CD34+细胞体外扩增诱导树突状细胞(DC)的可行性及评价不同诱导方案诱导DC的效果.方法免疫磁珠法纯化骨髓CD34+细胞.在有血清条件下应用两步法SCF+FL+TPO+IL-3扩增2周,然后以GM-CSF+IL-4+TNF-α(GI方案)或GM-CSF+TNF-α(GT方案)诱导DC;或者一步法SCF+FL+TPO+IL-3+GM-CSF+TNF-α直接作用2周扩增诱导DC.通过相差显微镜、电子显微镜、流式细胞仪分析、异硫氰酸荧光素标记的葡聚糖(FITC-DX)内吞实验检测DC的生物学特性.结果诱导后细胞较0 d或诱导前细胞高表达DC相关标记(CD1a、CD80、CD86、CD40、CD54、HLA-DR).两步法GI方案诱导10 d,总细胞扩增倍数、CDla+DC扩增倍数分别为(198±178)倍和(122±129)倍,与GT方案比较无统计学意义,但诱导细胞CD1a、CD80、CD86的表达明显高于后者.一步法扩增诱导2周时总细胞数扩增(43±16)倍,CD1a+DC数是0 d接种细胞的(4±2)倍.结论两步法能从正常CD34+细胞诱导产生大量DC,GI方案优于GT方案.两者扩增效率均优于一步法.     

Alteration and acquisition of Siglecs during in vitro maturation of CD34+ progenitors into human mast cells

Using human mast cells (MC) derived by culture of CD34+ peripheral blood precursors, a comprehensive study was performed of expression of 11 known Siglecs. Analysis was initially performed at the mRNA level using gene arrays. Positive results were then validated at the protein level using indirect immunofluorescence and flow cytometry, and for some Siglecs, Western blot analysis was also used. Culture-derived MC expressed mRNA for CD22 (Siglec-2), CD33 (Siglec-3), Siglec-5, Siglec-6, Siglec-8 and Siglec-10. Flow cytometry confirmed surface expression of all these molecules except for CD22 and Siglec-10, where levels were low or undetectable. However, Western blotting was able to detect MC expression of CD22 and Siglec-10, suggesting that these proteins were mostly cytoplasmic. CD34+ precursor cells from peripheral blood constitutively expressed surface CD33, Siglec-5 and Siglec-10. As they matured into MC, their constitutive levels of CD33 changed little, Siglec-5 and Siglec-10 declined, and Siglec-6 and Siglec-8 appeared de novo, all in parallel with accumulation of histamine and other MC markers, such as surface expression of FcepsilonRIalpha, and CD51. Phenotypic analysis of LAD-2 MC yielded a similar pattern of Siglec expression except that CD22 expression was particularly prominent. Finally, immunohistochemistry confirmed expression of these same Siglecs by mature tryptase-positive MC in human lung tissues. These data demonstrate an extensive and previously unappreciated pattern of Siglec expression on human MC. Whether engagement and signaling through these inhibitory Siglecs can impact MC biology will require further investigation.     

Implication of delayed TNF-alpha exposure on dendritic cell maturation and expansion from cryopreserved cord blood CD34+ hematopoietic progenitors

Most currently used systems for dendritic cell (DC) production from progenitors entail tumor necrosis factor alpha (TNF-alpha) at the onset of cell culture, based on the notion that TNF-alpha might be required in the early stages of DC development. To optimize conditions for DC expansion from cryopreserved cord blood (CB) CD34+ hematopoietic progenitors, we took a dynamic approach to define the timing of TNF-alpha exposure to the culture. We cultured cord blood CD34+ cells in RPMI-1640 with 10% human AB plasma, stem cell factor (days 1-6), granulocyte-macrophage colony-stimulating factor (days 1-18), interleukin-4 (days 6-18) and varying schedules of TNF-alpha (0-144 h after thawing). Expression of the DC-associated markers, including CD83/CD1a, HLA DR/CD86/CD80, CD14/CD40, was monitored every 3 days. Our data demonstrate that delayed TNF-alpha exposure by 48-72 h after thawing gave rise to two- to three-fold increase in the yield of CD83+ DCs that were highly active in stimulating allogeneic T-cell proliferation compared to immediate TNF-alpha exposure. Thus, the immediate exposure of cryopreserved cord blood CD34+ cells to TNF-alpha, potentially compromising DC expansion, should be avoided. This finding should be of significant consideration when using cryopreserved CD34+ progenitor cells as a source of immunologically competent DCs in a clinical setting.     

Functional specializations of human epidermal Langerhans cells and CD14+ dermal dendritic cells

Little is known about the functional differences between the human skin myeloid dendritic cell (DC) subsets, epidermal CD207(+) Langerhans cells (LCs) and dermal CD14(+) DCs. We showed that CD14(+) DCs primed CD4(+) T cells into cells that induce naive B cells to switch isotype and become plasma cells. In contrast, LCs preferentially induced the differentiation of CD4(+) T cells secreting T helper 2 (Th2) cell cytokines and were efficient at priming and crosspriming naive CD8(+) T cells. A third DC population, CD14(-)CD207(-)CD1a(+) DC, which resides in the dermis, could activate CD8(+) T cells better than CD14(+) DCs but less efficiently than LCs. Thus, the human skin displays three DC subsets, two of which, i.e., CD14(+) DCs and LCs, display functional specializations, the preferential activation of humoral and cellular immunity, respectively.     

Culture and characterization of microvascular endothelial cells derived from human brain

Primary cultures of human cerebral endothelial cells were established from microvessels isolated from cortical fragments removed at surgery for seizure disorder and from brains at autopsy. A uniform population of cells growing in close association to each other formed confluent monolayers by 7 to 10 days in culture. They contained factor VIII/Von Willebrand antigen, the most specific marker for cells of endothelial origin, and showed lectin-binding sites for Ulex europaeus agglutinin characteristic of human endothelium. Cultured cells formed thin, continuous monolayers, contained few pinocytotic vesicles, and were joined together by tight junctional complexes. More than 99% of the intercellular junctions restricted the transendothelial passage of horseradish peroxidase. Monolayers of human brain microvessel endothelial cells thus resemble cerebral endothelium in vivo and should provide a useful in vitro model for studies of the biology of these cells and their role in the pathogenesis of certain human central nervous system diseases associated with abnormal blood-brain barrier function.     

Effects of human mesenchymal stem cells on the differentiation of dendritic cells from CD34+ cells

Mesenchymal stem cells (MSCs) have profound immunomodulatory functions both in vitro and in vivo. However, their effects on the differentiation of dendritic cells (DCs) are unknown. In this study, we employed an in vitro model to investigate the effects of human MSCs on the development of DCs. CD34(+) cells isolated from cord blood were cultured under conventional DC(cDC) or plasmacytoid DC (pDC) differentiation conditions, in the presence or absence of MSCs or their conditioned medium. Here we show that both MSCs and their conditioned medium dramatically increased the numbers of cells generated under either condition. The percentage of cells with the cDC phenotype is significantly reduced in the presence of MSCs or their conditioned medium, whereas the percentage of pDC increased. The capacity of cDCs from MSCs or their conditioned medium-treated CD34(+) cells to stimulate allogeneic T cells was weakened. Furthermore, MSCs can skew the DC function from cDC to pDC, thus biasing the immune system toward Th2 and away from Th1 responses. Blocking the prostaglandin E(2) (PGE(2)) synthesis of MSCs can reverse most of these influences of MSCs on DCs differentiation and function. Therefore, MSCs can significantly influence DC development through PGE(2) production.     

Immunofluorescence analysis of cytokine and granule protein expression during eosinophil maturation from cord blood–derived CD34 progenitors

Background: In allergic inflammation and asthma, eosinophils are major effector cells. They have been shown to synthesize at least 23 cytokines, some of which are stored intracellularly in their unique crystalloid granules together with cationic granule protein. Little is known about the synthesis and storage of cytokines relative to cationic granule proteins in maturing eosinophils during eosinophilopoiesis. Objective: Our purpose was to analyze the expression of eosinophil-derived mediators, major basic protein (MBP), eosinophil cationic protein (ECP), IL-6, and RANTES, during early stages of eosinophil maturation in CD34⁺ cell-derived colonies. Methods: Purified human cord blood CD34⁺ cells were grown in methylcellulose cultures in the presence of recombinant human IL-3 and IL-5. By confocal laser scanning microscopy, the coexpression of eosinophil granular proteins MBP and ECP was determined concurrently with IL-6 and RANTES during eosinophil maturation on days 16, 19, 23, and 28 of culture. Results: Immunoreactivity against MBP, ECP, IL-6, and RANTES was not detectable in freshly purified CD34⁺ cells. Maturing eosinophils (>95%) exhibited positive immunostaining for all these proteins between days 16 and 28 of culture. At early stages of culture, discrete immunostaining was observed around the periphery but not in the center of granular structures. By day 28 cultured eosinophil-like cells showed evidence of the acquisition of crystalloid granule-like structures, analogous to those observed in mature peripheral blood eosinophils. Conclusions: Eosinophils express and store cytokines simultaneously with cationic granule proteins during the process of maturation. We propose that the storage of cytokines during the development of eosinophils is an early event and it may be integral to inflammatory responses involving these cells. The results of this study suggest a potential immunoregulatory function for maturing eosinophils. (J Allergy Clin Immunol 2000;105:1178-84.)     

PGE_2促进人脐血CD34~+造血祖细胞向淋巴样树突状细胞分化

为了探讨前列腺素E2(protaglandin E2,PGE2)对人外周血CD14+单核细胞和脐血CD34+造血祖细胞(hematopoieticprogenitor cells,HPC)体外诱导pDC分化的影响。分别采用IL-4+GM-CSF+TNF-α和SCF+Flt-3L+GM-CSF+TNF-α诱导人外周血CD14+单核细胞和CD34+HPC向pDC分化,采用流式细胞仪分析细胞表型,并观察PGE2加入培养体系后对pDC分化的影响。结果:以CD34+HPC为来源,比CD14+单核细胞能诱导出更多数量且具有功能的pDC。培养体系中加入PGE2显著增强了CD34+HPC向pDC的分化,而对CD14+单核细胞的分化却无明显促进作用。PGE2可有效促进脐血CD34+HPC在多种细胞因子的作用下向pDC的成熟分化。     

Respective involvement of TGF-beta and IL-4 in the development of Langerhans cells and non-Langerhans dendritic cells from CD34+ progenitors

In vivo, dendritic cells (DC) form a network comprising different populations. In particular, Langerhans cells (LC) appear as a unique population of cells dependent on transforming growth factor beta(TGF-beta) for its development. In this study, we show that endogenous TGF-beta is required for the development of both LC and non-LC DC from CD34+ hematopoietic progenitor cells (HPC) through induction of DC progenitor proliferation and of CD1a+ and CD14+ DC precursor differentiation. We further demonstrate that addition of exogenous TGF-beta polarized the differentiation of CD34+ HPC toward LC through induction of differentiation of CD14+ DC precursors into E-cadherin+, Lag+CD68-, and Factor XIIIa-LC, displaying typical Birbeck granules. LC generated from CD34+ HPC in the presence of exogenous TGF-beta displayed overlapping functions with CD1a+ precursor-derived DC. In particular, unlike CD14(+)-derived DC obtained in the absence of TGF-beta, they neither secreted interleukin-10 (IL-10) on CD40 triggering nor stimulated the differentiation of CD40-activated naive B cells. Finally, IL-4, when combined with granulocyte-macrophage colony-stimulating factor (GM-CSF), induced TGF-beta-independent development of non-LC DC from CD34+ HPC. Similarly, the development of DC from monocytes with GM-CSF and IL-4 was TGF-beta independent. Collectively these results show that TGF-beta polarized CD34+ HPC differentiation toward LC, whereas IL-4 induced non-LC DC development independently of TGF-beta.     

Down-regulation by a new anti-inflammatory compound, FR167653, of differentiation and maturation of human monocytes and bone marrow CD34+ cells to dendritic cells

FR167653 (1-[7-(4-fluorophenyl)-1,2,3,4-tetrahydro-8 (4-pyridyl) pyrazoro [5-1-c] [1,2,4] triazin-2-yl]-2-phenylethanedion sulfate monohydrate), one of the pyridinyl imidazoles, is an immunosuppressive agent which was developed to inhibit proinflammatory cytokine production. We examined the effect of FR167653 on the differentiation and maturation phases of both human bone marrow-derived dendritic cells (BM-DC) and blood monocyte-derived DC (Mo-DC). DC induced from either BM-DC or Mo-DC progenitors in the presence of FR167653 had lower expression of CD1a, CD83 and CD86 (B7.2). FR167653 also significantly suppressed the ability of Mo-DC to produce both TNF-alpha and IL-1beta in response to LPS stimulation. Mixed lymphocyte reaction (MLR) stimulation was significantly lower in FR167653-treated Mo-DC than in control Mo-DC, although the suppressive effect of FR167653 was much less on BM-DC. These results indicate novel immunosuppressive properties of FR167653, which may be therapeutically useful in controlling chronic immune and/or inflammatory diseases through down-regulation of DC differentiation and maturation.     

Expansion and differentiation of CD14+CD16(-) and CD14+ +CD16+ human monocyte subsets from cord blood CD34+ hematopoietic progenitors

To determine whether monocytes can be generated from CD34+ hematopoietic progenitors in large numbers, cord blood CD34+ cells were first expanded for 3-10 days in X-VIVO 10 medium supplemented with FCS, stem cell factor (SCF), thrombopoietin (TPO), and Flt-3 Ligand (Flt-3L), and then differentiated in IMDM medium supplemented with FCS, SCF, Flt-3L, IL-3 and M-CSF for 7-14 days. These two step cultures resulted in up to a 600-fold mean increase of total CD14+ cells. Using this approach, two subpopulations of monocytes were obtained: CD14+CD16(-) and CD14++CD16+ occurring at 2:1 ratio. 1.25(OH)2 Vitamin D3 added to the differentiation medium altered this ratio by decreasing proportion of CD14++CD16+ monocytes. In comparison to CD14+CD16(-), the CD14++CD16+ cells showed different morphology and an enhanced expression of CD11b, CD33, CD40, CD64, CD86, CD163, HLA-DR, and CCR5. Both subpopulations secreted TNF and IL-12p40 but little or no IL-10. CD14++CD16+ monocytes released significantly more IL-12p40, were better stimulators of MLR but showed less S. aureus phagocytosis. These subpopulations are clearly different from those present in the blood and may be novel monocyte subsets that represent different stages in monocyte differentiation with distinct biological function.     

Production of human B cells from CD34+CD38- T- B- progenitors in organ culture by sequential cytokine stimulation

We investigated sequential cytokine addition on human hematopoietic stem cell (HSC) differentiation in murine fetal liver (FL), fetal spleen (FS) and bone marrow (BM) organ cultures (OC). Tissues were colonized with unpurified or FACS sorted CD34+CD38-CD10-CD19-CD3-CD8-CD4-(T- B-) cells from human cord blood (HUCB). CD19+ cell production and kinetics differed in each tissue. Fetal liver organ cultures (FLOC) inoculated with CD34+CD38-T-B- cells produced fewer CD19+ cells than fetal liver organ culture (FLOC) cultured with unpurified HUCB. CD19+ cell production was restored in the CD34+CD38-T-B- organ cultures by treating with SCF, LIF and IL-6 followed by IL-7 and removing all cytokines for the last 3 days of culture (a six-fold increase). FLOC also produced CD34+CD38-T-B- cells and monocyte-lineage CD33+CD14- cells, both of which increased after cytokine treatment. Re-colonization of secondary FLOC with CD34+CD38-T-B- cells generated in primary FLOC produced additional B-cells, monocytes and CD34+CD38- cells suggesting that the primary cells retained HSC activity. Expansion and differentiation of HSCs depended on the microenvironment of the recipient tissue as well as addition of cytokines in the appropriate order.     

Enhanced induction of dendritic cell maturation and HLA-A*0201-restricted CEA-specific CD8+ CTL response by exosomes derived from IL-18 gene-modified CEA-positive tumor cells

Dendritic cells (DC)-derived or tumor-derived exosomes are a population of nanometer sized membrane vesicles that can induce specific anti-tumor immunity. However, the immunogenic potential and efficiency of exosomes-based tumor vaccine are not satisfactory enough to achieve a curative effect in clinical trials. In this article we investigated whether IL-18 genetic modification of tumor cells can increase the efficacy of exosomes derived from IL-18 gene-modified tumor cells. We transfected carcinoembryonic antigen (CEA)-expressing tumor cells with a recombinant adenovirus encoding human IL-18 (AdhIL-18) and prepared the exosomes, Exo/IL-18, from IL-18 gene-modified tumor cells. We found that Exo/IL-18 naturally contain CEA and bioactive IL-18. Moreover, Exo-IL-18 are potent in chemoattracting DC and T cells, enhancing the proliferation and Th1 cytokine release of PBMC, and promoting the phenotypic and functional maturation of DC. Furthermore, Exo/IL-18-pulsed DC are quite potent to induce HLA-A*0201-restricted, CEA-specific CD8⁺ CTL from the PBMC of HLA-A*0201 CEA⁺ cancer patients in vitro. In almost all of these experiments, Exo/IL-18 show more potent functions than the conventionally prepared exosomes derived from parent tumor cells without IL-18 gene modification. Our findings suggest that Exo/IL-18 has more potent capability to induce specific anti-tumor immunity, and our strategy of IL-18 modification of exosomes is a feasible approach to develop exosomes-based tumor vaccines.S. Dai and X. Zhou contributed equally to this study.     

Adhesion of CD16+ K cells to antibody-coated targets is mediated by CD2 and CD18 receptors.

In order to investigate the function of CD2 and CD18 receptors in antibody-dependent cellular cytotoxicity (ADCC), Fab' fragments of the monoclonal antibodies 9.6 (anti-CD2) and 60.3 (anti-CD18) were preincubated with the human natural killer (NK) clone EB4.19 and tested for conjugate formation and cytotoxic function against the human B-cell line KMS and the mouse thymoma line SL-2. We concluded that: (1) the FcR CD16 does not participate in conjugate formation; (2) adhesion between target and effector cells mediated by CD2 and CD18 is a prerequisite for subsequent activation of the lytic programme through the CD16 receptor.     

Plasmodium chabaudi-infected erythrocytes adhere to CD36 and bind to microvascular endothelial cells in an organ-specific way

Adherence of erythrocytes infected with Plasmodium falciparum to microvascular endothelial cells (sequestration) is considered to play an important role in parasite virulence and pathogenesis. However, the real importance of sequestration for infection and disease has never been fully assessed. The absence of an appropriate in vivo model for sequestration has been a major barrier. We have examined the rodent malaria parasite Plasmodium chabaudi chabaudi AS in mice as a potential model. Erythrocytes infected with this parasite adhere in vitro to purified CD36, a critical endothelium receptor for binding P. falciparum-infected erythrocytes. P. c. chabaudi-infected erythrocytes adhere in vitro to endothelial cells in a gamma interferon-dependent manner, suggesting the involvement of additional adhesion molecules in the binding process, as is also the case with P. falciparum-infected cells. Furthermore, plasma or sera from infected and hyperimmune mice, respectively, have the ability to block binding of infected erythrocytes to endothelial cells. In vivo, erythrocytes containing mature P. c. chabaudi parasites are sequestered from the peripheral circulation. Sequestration is organ specific, occurring primarily in the liver, although intimate contact between infected erythrocytes and endothelial cells is also observed in the spleen and brain. The results are discussed in the context of the use of this model to study (i) the relationship between endothelial cell activation and the level of sequestration and (ii) the primary function of sequestration in malaria infection.     

Biological activity of dendritic cells generated from cord blood CD34+ hematopoietic progenitors in IL-7- and IL-13-conditioned cultures

Introduction  Dendritic cells (DCs) are required for initiation of the immune response and may therefore be used for the production of cancer vaccines. As mature DCs (mDCs) are the most potent antigen-presenting cells, there is increasing interest in generating them ex vivo. The present study was designed to obtain mDCs from CD34⁺ hematopoietic progenitors by culturing them in different media. Materials and Methods  Cord blood CD34⁺ hematopoietic progenitors were expanded for 7 days in FST medium ontaining fms-related tyrosine kinase 3 ligand (Flt3-L), stem cell factor (SCF), and thrombopoietin (TPO). Then the cells were divided into three parts and cultured for 21 days in different media: FST medium or FST enriched in interleukin (IL)-3 (FST3 medium) or supplemented with IL-7 and IL-13 (FST713 medium). At the end of culture part of the cells was harvested, counted, and analyzed while the other part was matured with proinflammatory cytokines for 2 days. The cells’ phenotypes, ability to induce proliferation of allogeneic lymphocytes in the mixed lymphocyte reaction (allo-MLR), chemotaxis, phago–cytosis, and O₂ ⁻ production were determined. Results  The average fold increase of DCs at the end of culture in FST medium was 127, in FST3 1043, and in FST713 71. In comparison with the other media, FST713 medium supported the generation of mDCs that were characterized by higher expression of CD83, costimulatory molecules, and HLA-DR, enhanced ability to induce allo-MLR and migration to –macrophage inflammatory protein (MIP) 3β poor phagocytosis, and O₂⁻ production. Conclusions  This study indicates that FST713 medium allows the generation of limited numbers of more mature DCs, while FST3 medium leads to the production of immature DCs in high numbers.