Phenotypic and functional differentiation of KG-1 into dendritic-like cells

The cell line KG-1 has been used as an in vitro model for human dendritic cell (DC) differentiation. We have investigated the response of KG-1 cells to stimulation with a number of factors known to induce differentiation and/or maturation of DCs in vitro. KG-1 cells showed no differentiation in response to LPS, CpG oligodeoxynucleotide or CD40 ligation. Culture in the presence of TNF-alpha induced some differentiation, but only treatment with PMA and ionomycin (with or without prior culture in GM-CSF and IL-4) induced morphological and phenotypic changes consistent with DC-like maturation, and even these maximally differentiated KG-1 cells showed lower levels of surface marker expression, macromolecular endocytosis, and ability to stimulate in allogeneic MLR compared with in vitro monocyte-derived DCs. Our data show that KG-1 cells differentiate in vitro into cells with DC-like functional characteristics under the influence of strong inducers of cellular activation, but lack the potency of mature DCs in key aspects of professional antigen presenting cells.     

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.     

Vaccinia virus impairs directional migration and chemokine receptor switch of human dendritic cells

A crucial event for the induction of an anti-viral immune response is the coordinated, phenotype-dependent migration of dendritic cells (DC) to sites of infection and secondary lymphoid organs. Here we show that the vaccinia virus (VV) strains Western Reserve (WR) and modified virus Ankara (MVA) inhibit directional migration of mature DC toward the lymphoid chemokines CCL19 and CXCL12 without affecting surface expression of the respective chemokine receptors or impairing undirected cellular locomotion. Instead, infection with VV results in a deficiency of extracellular signal-regulated kinase-1 and a disturbance of intracellular calcium mobilization, indicating a viral interference with signaling events downstream of the surface chemokine receptors. In immature DC, apart from inhibiting chemokine-induced migration of infected DC, infection with both VV strains increases expression of the inflammatory chemokine receptors CCR1 and CXCR1 on non-infected bystander DC, which depends on the activity of IFN-alpha. Although functional, these chemokine receptors are resistant to lipopolysaccharide-induced down-regulation. In addition, VV-infected and non-infected bystander DC fail to up-regulate the lymphoid chemokine receptor CCR7 upon activation, together pointing to a disability to undergo the chemokine receptor switch. This study shows that VV targets directional migration of professional antigen-presenting cells at multiple functional levels, revealing a potent viral strategy of immune escape.     

Requirements for growth of immature thymocytes from fetal and adult mice in vitro

We report here defined culture conditions that allow reproducibly the growth of the majority of immature thymocytes from both fetal (14-15 days of gestation) and adult mice. The combination of phorbol myristate acetate (PMA), ionomycin and recombinant interleukin 2 (IL2) is both sufficient and necessary to induce growth of about 1/6.2 (range 1/3-1/9) and 1/4.3 (range 1/2-1/7) immature thymocytes from adult and fetal mice, respectively, in serum-free cultures. Several other combinations tested (e.g. PMA + IL2, concanavalin A + IL2) were poorly or not active. None of the agents tested alone (PMA, ionomycin, concanavalin A, pokeweed mitogen, IL2) had any effect. We found no evidence for a role of IL1 and IL3 on growth of these cells. The growth of activated immature thymocytes from either fetal or adult mice was inhibited by a monoclonal antibody against mouse IL2 receptors. Under the same conditions that stimulated growth of most immature thymocytes, they did not mature into cells expressing Lyt-2, L3T4 or T cell antigen receptor (KJ16) after 7 to 15 days of continuous proliferation in culture. Nor did they give rise to cells with cytolytic activity after 7-9 days of culture. In some but not all experiments cultures of immature thymocytes from adult mice but not from fetal mice generated cells (1 out of 120-310) with helper function for B lymphocytes. While we confirmed here that approximately 50-70% freshly isolated immature thymocytes express receptors for IL2, our results indicate that these cells need to be activated (by e.g. PMA + ionomycin) to respond to IL2. A possible mechanism to account for the expression of nonfunctionally competent IL2 receptors is proposed and our results concerning the maturation of immature thymocytes in vitro are discussed.     

Langerhans cells acquire a CD8+ dendritic cell phenotype on maturation by CD40 ligation

Dendritic cell (DC) reconstitution experiments and phenotypic analysis of DC subpopulations have allowed the definition in the mouse of two main DC categories: CD8+ lymphoid DCs and CD8- myeloid DCs. With regard to Langerhans cells (LCs), which represent immature DCs differentiating into mature DCs on migration to the lymph nodes after an antigenic stimulation, although classically considered as myeloid DCs, there is no experimental evidence of their origin. It has been recently shown that mouse LCs, negative for CD8 and LFA-1, undergo CD8/LFA-1 up-regulation on migration, suggesting that LCs belong to the CD8+ lymphoid DC lineage. To further reinforce this hypothesis, we have analyzed the modulation of CD8 expression by LCs on culture with molecules known to induce LC maturation. Our results show that LC acquired a CD8+ lymphoid phenotype on CD40 ligation.     

Chronic hypoxia reprograms human immature dendritic cells by inducing a proinflammatory phenotype and TREM‐1 expression

DCs are powerful antigen‐presenting cells central in the orchestration of innate and acquired immunity. DC development, migration, and activities are intrinsically linked to the microenvironment. DCs migrate through pathologic tissues before reaching their final destination in the lymph nodes. Hypoxia, a condition of low partial oxygen pressure, is a common feature of many pathologic situations, capable of modifying DC phenotype and functional behavior. We studied human monocyte‐derived immature DCs generated under chronic hypoxic conditions (H‐iDCs). We demonstrate by gene expression profiling the upregulation of a cluster of genes coding for antigen‐presentation, immunoregulatory, and pattern recognition receptors, suggesting a stimulatory role for hypoxia on iDC immunoregulatory functions. In particular, we show that H‐iDCs express triggering receptor expressed on myeloid cells(TREM‐1), a member of the Ig superfamily of immunoreceptors and an amplifier of inflammation. This effect is reversible because H‐iDC reoxygenation results in TREM‐1 down‐modulation. TREM‐1 engagement promotes upregulation of T‐cell costimulatory molecules and homing chemokine receptors, typical of mature DCs, and increases the production of proinflammatory, Th1/Th17‐priming cytokines/chemokines, resulting in increased T‐cell responses. These results suggest that TREM‐1 induction by the hypoxic microenvironment represents a mechanism of regulation of Th1‐cell trafficking and activation by iDCs differentiated at pathologic sites.     

Differential responsiveness to constitutive vs. inducible chemokines of immature and mature mouse dendritic cells.

Upon exposure to immune or inflammatory stimuli, dendritic cells (DC) migrate from peripheral tissues to lymphoid organs, where they present antigen. The molecular basis for the peculiar trafficking properties of DC is largely unknown. In this study, mouse DC were generated from CD34+ bone marrow precursors and cultured with granulocyte-macrophage-CSF and Flt3 ligand for 9 days. Chemokines active on immature DC include MIP1alpha, RANTES, MIP1beta, MCP-1, MCP-3, and the constitutively expressed SDF1, MDC, and ELC. TNF-alpha-induced DC maturation caused reduction of migration to inducible chemokines (MIP1alpha, RANTES, MIP1beta, MCP-1, and MCP-3) and increased migration to SDF1, MDC, and ELC. Similar results were obtained by CD40 ligation or culture in the presence of bacterial lipopolysaccharide. TNF-alpha down-regulated CC chemokine receptor (CCR)1, CCR2, and CCR5 and up-regulated CCR7 mRNA levels, in agreement with functional data. This study shows that selective responsiveness of mature and immature DC to inducible vs. constitutively produced chemokines can contribute to the regulated trafficking of DC.     

Mature monocyte-derived dendritic cells respond more strongly to CCL19 than to CXCL12: consequences for directional migration

The chemokine receptor CCR7 is crucial for migration of mature dendritic cells (DC) directed toward secondary lymphoid organs; however, there is little knowledge about the function of the homeostatic chemokine receptor CXCR4 in DC and its contribution to directional migration of DC during inflammation. By comparing the impact of chemokine receptor engagement on mature DC we found that the CCR7 ligand CCL19 holds a stronger chemotactic potency than the CXCR4 ligand CXCL12. Moreover, CCL19 elicited rapid, steep and long-lasting mobilization of intracellular calcium in individual cells and induced intense phosphorylation of extracellular signal-regulated kinase 1/2 and protein kinase B, while the intracellular signals elicited by CXCL12 were in part distinct and significantly weaker. Analysis of chemokine receptor expression revealed that although CCR7 and CXCR4 were expressed by a similar percentage of DC, the mean fluorescence intensity of CCR7 was up to six times higher, suggesting a higher receptor density. Based on these correlations we propose that the type of chemokine signal in conjunction with the expression and functional activity of the respective chemokine receptor is also determining the migration rate and potency of a chemotactic response in mature DC. In conclusion, our data support the fundamental role of CCR7 for rapidly guiding DC toward secondary lymphoid organs at an extra- and intracellular molecular level and on the contrary render CXCR4 a weaker contributor to directional migration of DC during inflammation.     

Effect of phorbol ester and calcium ionophore on human thymocytes

Positive selection of immature thymocytes is a developmental process in which TCR ligation with low avidity induces generation of mature T cells. In mouse thymocytes, CD4(+)8(+) double-positive (DP) cells which were treated with a proper combination of calcium ionophore ionomycin and phorbol 12-myristate 13-acetate (PMA) have been reported to differentiate into CD4 single positive cells. However, in human thymocytes the effects of PMA and ionomycin have remained unclear. Here we report that DP cells that were treated with PMA and ionomycin up-regulated bcl-2 and down-regulated CD1 expression. However, CD3 expression remained low. This treatment induced prolonged CD4 down-regulation in DP cells which was an effect also seen in mature peripheral blood T cells. PMA/ionomycin-treated DP cells showed high cell proliferation and resistance to dexamethasone-induced apoptosis. These results indicate that PKC activation and calcium elevation may be part of the biochemical signals that induce positive selection of human DP cells and the system described in this paper may be a useful model to study the signals involved in the selection of human thymocytes.     

Paired synovium and lymph nodes from rheumatoid arthritis patients differ in dendritic cell and chemokine expression

The aim of this study was to compare the cellular composition and organization of rheumatoid (RA) synovium, which has several of the characteristics of lymphoid organs, with lymph nodes. To clarify further whether RA synovium can be classified as an ectopic lymphoid organ, paired RA synovium and lymph node (LN) tissues from 11 patients were compared in terms of T-cell-B-cell and germinal centre (GC) organization, dendritic cell (DC) subsets, and chemokine expression. Tonsil, a normal secondary lymphoid organ, was used as a tissue control. In paired RA LN and synovium, more follicular DC-positive GCs were observed in LN, but when observed in synovium, they shared the same T-cell-B-cell organization and mean GC size. In LN, a predominance of mature DC-LAMP-positive DCs of myeloid (CD11c-positive) or lymphoid (CD123-positive) origin was observed, whereas paired RA synovium was characterized by the relative accumulation of immature CD1a-positive DCs. In the same way, CCL19-CCL21/CCR7, a chemokine/chemokine receptor complex involved in mature DC migration, was more frequently seen in LN than in paired RA synovium. In synovium, such expression was associated with lymphoid follicle formation, with or without a GC. Conversely, CCL20, a chemokine involved in immature DC migration, was expressed in RA synovium and tonsils but not in paired LNs. In conclusion, although similarities were observed, this study, using paired samples, indicates that the RA synovium lacks some of the features that are characteristic of a lymphoid organ.     

IL-21 enhances SOCS gene expression and inhibits LPS-induced cytokine production in human monocyte-derived dendritic cells

Dendritic cells (DCs) play an important role in innate and adaptive immune responses. In addition to their phagocytic activity, DCs present foreign antigens to na?ve T cells and regulate the development of adaptive immune responses. Upon contact with DCs, activated T cells produce large quantities of cytokines such as interferon-gamma (IFN-gamma) and interleukin (IL)-21, which have important immunoregulatory functions. Here, we have analyzed the effect of IL-21 and IFN-gamma on lipopolysaccharide (LPS)-induced maturation and cytokine production of human monocyte-derived DCs. IL-21 and IFN-gamma receptor genes were expressed in high levels in immature DCs. Pretreatment of immature DCs with IL-21 inhibited LPS-stimulated DC maturation and expression of CD86 and human leukocyte antigen class II (HLAII). IL-21 pretreatment also dramatically reduced LPS-stimulated production of tumor necrosis factor alpha, IL-12, CC chemokine ligand 5 (CCL5), and CXC chemokine ligand 10 (CXCL10) but not that of CXCL8. In contrast, IFN-gamma had a positive feedback effect on immature DCs, and it enhanced LPS-induced DC maturation and the production of cytokines. IL-21 weakly induced the expression Toll-like receptor 4 (TLR4) and translation initiation region (TIR) domain-containing adaptor protein (TIRAP) genes, whereas the expression of TIR domain-containing adaptor-inducing IFN-beta (TRIF), myeloid differentiation (MyD88) 88 factor, or TRIF-related adaptor molecule (TRAM) genes remained unchanged. However, IL-21 strongly stimulated the expression of suppressor of cytokine signaling (SOCS)-1 and SOCS-3 genes. SOCS are known to suppress DC functions and interfere with TLR4 signaling. Our results demonstrate that IL-21, a cytokine produced by activated T cells, can directly inhibit the activation and cytokine production of myeloid DCs, providing a negative feedback loop between DCs and T lymphocytes.     

Active matrix metalloprotease-9 in and migration pattern of dendritic cells matured in clinical grade culture conditions

Dendritic cells (DC) represent potent antigen presenting cells (APC) that are capable of generating tumor-specific immunity. In DC-based vaccination the migration of the infused DC from the site of injection to the secondary lymphoid organs might be critical to induce an effective immune response. Therefore we analyzed the migrating properties of maturing DC generated from human blood monocytes under culture conditions in compliance with the good manufacturing practice (GMP) guidelines. Highly purified CD14+ monocytes were differentiated into immature DC (iDC), then optimally matured as evidenced by CD83 expression. Time-lapse videomicroscopy and Transwell migration assays performed with or without Matrigel, proved mature DC (mDC) to be highly migrating cells compared to iDC although mDC migratory response varied markedly according to individuals (n= 15). Moreover, as shown by gelatin zymography and ELISA, mDC predominantly expressed both the active form of the matrix metalloprotease-9 (MMP-9) and low amounts of its physiological inhibitor, the tissue inhibitor of metalloprotease-1 (TIMP-1) which may explain their high migrating capacity through Matrigel layers. Macrophage inflammatory protein-3beta (MIP-3beta), strongly increased mDC migration through Matrigel by up-regulating the membrane MMP-9 active form suggesting that injected mDC could be selectively guided to T-cell areas of lymph nodes by this chemokine. Taken together, we demonstrate for the first time that mDC, but not iDC, prepared in clinical grade conditions are both physiologically invasive cells expressing chemokine-active and -sensitive MMP-9, which may be critical for their trafficking through tissues after injection. Consequently, we argue that migration characteristics should be included into a gold standard for DC administrated to patients.     

Distinct effect of CD40 and TNF-signaling on the chemokine/chemokine receptor expression and function of the human monocyte-derived dendritic cells

A key and limiting step in the process of human monocyte-derived dendritic cells （mDCs） for clinical use is their in vitro maturation and in vivo migration. We previously observed that CD40 signal facilitated human mDC growth and maturation. To further explore this process, mDCs generated with GM-CSF and IL-4 were co-cultured with apoptotic tumor cells for 24 hours, followed by incubating with anti-CD40 monoclonal antibody or TNF-a for 48 hours to generate mature DCs. The chemokine/chemokine receptor expression and functions of mature DCs upon various stimuli were determined. The expression of costimulatory molecules on apoptotic tumor cell-loaded mature DCs co-cultured with either anti-CD40 antibody （anti-CD40-DCs） or TNF-a （TNF-DCs） were up-regulated compared to immature DCs, consistent with the abilities of these cytokine to drive DC maturation in vitro. The mRNA levels of chemokines such as stromal cell-derived factor-1a （SDF-1a）, EBV-induced molecule 1 ligand chemokine （ELC）, and IFN inducible protein-10 （IP-10） in anti-CD40 activated DCs were increased and the dendritic cell-specific chemokine 1 （DC-CK1） was moderately up-regulated as compared with other mature DCs. The corresponding chemokine receptors CXCR4 and CCR7 of anti-CD40-DCs were significantly expressed. The CXCR3 expression on activated T cells stimulated by anti-CD40-DCs was also increased. Moreover, the anti-CD40-DCs had a stronger ability to stimulate T cell proliferation than any other DCs. The NF-xB activity was much higher in anti-CD40-DCs than that of TNF-DCs. These results offer further evidence of the importance of the CD40 signal in developing efficient human DC vaccines for cancer immune therapy. Cellular ＆ Molecular Immunology.     

Differentiation and activation of equine monocyte‐derived dendritic cells are not correlated with CD206 or CD83 expression

Dendritic cells (DC) are the main immune mediators inducing primary immune responses. DC generated from monocytes (MoDC) are a model system to study the biology of DC in vitro, as they represent inflammatory DC in vivo. Previous studies on the generation of MoDC in horses indicated that there was no distinct difference between immature and mature DC and that the expression profile was distinctly different from humans, where CD206 is expressed on immature MoDC whereas CD83 is expressed on mature MoDC. Here we describe the kinetics of equine MoDC differentiation and activation, analysing both phenotypic and functional characteristics. Blood monocytes were first differentiated with equine granulocyte–macrophage colony‐stimulating factor and interleukin‐4 generating immature DC (iMoDC). These cells were further activated with a cocktail of cytokines including interferon‐γ) but not CD40 ligand to obtain mature DC (mMoDC). To determine the expression of a broad range of markers for which no monoclonal antibodies were available to analyse the protein expression, microarray and quantitative PCR analysis were performed to carry out gene expression analysis. This study demonstrates that equine iMoDC and mMoDC can be distinguished both phenotypically and functionally but the expression pattern of some markers including CD206 and CD83 is dissimilar to the human system.     

Phenotype and functional analysis of human monocyte-derived dendritic cells loaded with biodegradable poly(lactide-co-glycolide) microspheres for immunotherapy

Dendritic cells (DC) are increasingly explored as cellular vaccines for tumor immunotherapy. In most reported DC-based cancer vaccine trials, DC have been pulsed with soluble tumor antigen-derived peptide ligands of MHC molecules. Considering that the half-life of peptide/MHC complexes on the cell surface is relatively short and that soluble exogenous protein antigens cannot be efficiently processed via the MHC class I-processing pathway, the current vaccination procedure is not optimal for the induction of strong T cell responses aiming at tumor rejection. Recently, we have shown that antigen presentation can be prolonged when synthetic peptides were encapsulated in biodegradable poly(D,L-lactide-co-glycolide) (PLGA) microspheres (MS) for uptake by DC. In the present study, we investigated the phenotypic and functional consequences of MS uptake by human monocyte-derived dendritic cells (MoDC) in vitro. We found that immature MoDC that were prepared in serum free media suitable for clinical application were able to phagocytose high numbers of MS, while matured MoDC showed a reduced capacity for phagocytosis of MS. The ingestion of MS did not change the cell surface expression of CD80, CD83, CD86 and HLA-DR of immature and mature DC, suggesting that MS uptake did not induce DC maturation but that maturation by cytokines or LPS was unaltered in the presence of MS. Furthermore, MS-loaded mature MoDC expressed normal levels of the chemokine receptor CCR7 and migrated as efficiently towards CCL19 or CCL21 as unloaded MoDC. DC viability and the secretion of TNF-alpha and IL-12 was not significantly changed by MS loading. Taken together, our data indicate that PLGA-MS loading has no negative effects on the pivotal properties of MoDC in vitro. It should therefore be feasible to further develop this antigen loading strategy for clinical use in immunotherapy against viral infections and tumors.     

Induction of FOXP3-expressing regulatory CD4pos T cells by human mature autologous dendritic cells

Current literature suggests that T cells recognizing antigen on mature dendritic cells (DC) differentiate into effector T cells whereas tolerance is induced when antigen is presented by immature DC. We investigated the consequences of the interactions between immature or lipopolysaccharide-matured DC and CD4(pos) T lymphocytes in absence of foreign antigen. While immature DC did not induce significant CD4(pos) T cell activation, we observed that a significant fraction of CD4(pos) T cells cultured with mature autologous DC displayed phenotypic features of activation and produced IL-2, IFN-gamma, IL-10 and TGF-beta. Furthermore, CD4(pos) T lymphocytes primed by mature, but not immature, autologous DC acquired regulatory properties. Indeed, when added to an allogeneic mixed leukocyte reaction, they suppressed the response of alloreactive T lymphocytes to the priming DC while responses to third-party stimulators were spared. The generation of CD4(pos) T cells with regulatory function by autologous stimulation did not require the presence of natural CD4(pos)CD25(pos) regulatory T cells. In addition, the acquisition of regulatory function by CD4(pos)CD25(neg) T cells stimulated by autologous mature DC was accompanied by the induction of FOXP3 expression. Our data suggest that during inflammatory conditions, presentation of self antigens by mature DC to autologous T lymphocytes could contribute to the generation of regulatory mechanisms.     

Matched skin and sentinel lymph node samples of melanoma patients reveal exclusive migration of mature dendritic cells

Mature and immature myeloid dendritic cells (DCs) are thought to differentially modulate T-cell responses in secondary lymphoid tissues. Although mature DCs are believed to induce T-cell activation under proinflammatory conditions, immature DCs are believed to maintain a state of T-cell tolerance under steady state conditions. However, little is known about the actual activation state of human DCs under these different conditions. Here, we compare the frequency and activation state of human DCs between matched skin and sentinel lymph node (SLN) samples, after intradermal administration of either granulocyte/macrophage colony-stimulating factor (GM-CSF) or saline, at the excision site of stage I primary melanoma. Although DCs remained immature (CD1a+CD83-) and mostly situated in the epidermis of the saline-injected skin (fully consistent with a quiescent steady state), mature (CD1a+CD83+) DC frequencies significantly increased in the GM-CSF-injected skin and correlated with the number of mature DCs in the SLN, indicative of increased DC migration. Interestingly, irrespective of GM-CSF or saline administration, all CD1a+ myeloid DCs in the SLN were phenotypically mature (ie, CD83+). These data are indicative of migration of small numbers of phenotypically mature DCs to lymph nodes under steady state conditions.     

In vitro thymocyte differentiation in MHC class I-negative Xenopus larvae

CTX is a surface antigen whose expression in larval and adult Xenopus is primarily restricted to MHC class I-negative immature cortical thymocytes. In adult Xenopus, surface expression of CTX marks a population of MHC class I(-) CD8(+) immature thymocytes that appears to be the equivalent of the mammalian CD4CD8 double positive subset. The present study reveals that transient in vitro exposure of immature CTX(+) thymocytes from MHC class I-negative tadpoles to suboptimal mitogenic concentrations of phorbol ester (PMA) plus ionomycin, induces larval cells to differentiate into more mature T-lymphoblasts that express high level of surface CD5 and CD45. These T-lymphoblasts have downregulated CTX, Rag 1 and TdT genes, whereas TCR-beta genes remain actively transcribed. Signaling induced by PMA/ionomycin modulates both class I and class II expression of MHC class I/II-negative larval thymocytes.This study also reveals that larval T-lymphoblasts are composed of two distinct subsets: CD5(high)CD8(-) and CD5 (high)CD8 (high).     

Disparate functions of immature and mature human myeloid dendritic cells: implications for dendritic cell-based vaccines

Although antigen-loaded dendritic cells (DC) are being investigated as antitumor vaccines, which DC differentiation state is most effective is not clear. Three DC functions that may be critical for immunization potential are expression of CD80/86, cytokine production following CD40 engagement, and migration to chemokine receptor 7-binding chemokines. We therefore examined highly purified human monocyte-derived immature and mature DC for these properties from normal donors and cancer patients. Although high expression of CD80/86 and migration to 6Ckine + macrophage-inflammatory protein-3beta were properties of mature DC, cytokine production following CD40 ligation was superior by immature DC. Loss of cytokine secretion occurred with multiple maturation conditions, was not apparently reversible, and was also seen with lipopolysaccharide stimulation in correlation with down-regulated Toll-like receptor expression. Our results suggest that the functions thought to contribute to optimal T cell priming are not coexpressed by the same DC population and that immature and mature DC likely possess distinct CD40-mediated signaling events.     

HLA-Class II Bound Self-Peptides From a Non-Professional APC are Derived from Intracellular Proteins.

Myeloid progenitor cells temporarily express HLA Class II molecules during development. As a first step of inquiry into the function of Class II on these cells, the profile of major self peptides bound to KG-1 myeloid leukemia cells was characterized. Searches of protein data bases revealed that all self peptides corresponded to intracellular, rather than exogenous or transmembrane, precursor proteins. Because the absence of a conventional self-peptide repertoire could be related to altered trafficking of Class II molecules, the biosynthesis of HLA-DR and the invariant chain proteins was determined. The MHC Class II associated invariant chain protein is synthesized normally in KG-1 cells, but processed fragments of invariant chain, CLIPs, occupy the antigen binding groove of KG-1 Class II molecules at a much lower frequency compared to mature APCs. Low CLIP occupancy of HLA-DR is a characteristic shared by KG-1 cells, normal CD 34 + progenitor cells and HLA-DR + breast carcinoma cells. The unusual profile of MHC Class II bound peptides and the low level of CLIP bound to HLA-DR suggest that the antigen processing pathway of KG-1 is different from that characterized in professional APCs and that exogenous antigen processing may be a developmentally acquired characteristic in the myeloid lineage.