Unresponsiveness of CD4+ T Cells from a Non-Responder Strain to HgCl2 is Not Due to CD8+-Mediated Immunosuppression: an Analysis of the Very Early Activation Antigen CD69

Injections of HgCl₂ lead to autoimmune manifestations in genetically predisposed rats and mice. In this study, the authors examined the responsiveness of T subsets from different mouse strains to HgCl₂ by tracing their expression of the very early activation antigen CD69. The authors found increased expression of the CD69 antigen on CD4⁺ T cells from the responder A.SW and BALB/c mice, but not on CD4⁺ T cells from the non-responder DBA/2 mice, indicating an activation of T helper cells in the responder strains. However, the CD69 antigen was induced on CD8⁺ T cells from all strains irrespective whether they were susceptible or resistant to mercury-induced autoimmunity. Since CD8⁺ T cells have been described as mediating immunosuppression and as being responsible for the resistance to autoimmune induction by mercury, the authors tested whether CD8⁺ T cells inhibited the activation of CD4⁺ T cells by HgCl₂ in the non-responder strains. However, there was no evidence for a suppressive role of CD8⁺ T cells from the DBA/2 mice in the response to HgCl₂. The findings indicate that T helper cells play a central role in the immunological effects of HgCl₂ and unresponsiveness of T helper cells in the nonresponder strains is not due to CD8⁺-mediated immunosuppression.     

Selection during development of VH11+ B cells: a model for natural autoantibody-producing CD5+ B cells

Summary:  Natural autoantibodies constitute a large portion of serum immunoglobulin M (IgM) and bridge the adaptive and innate immune systems, serving as a rapid response to common pathogens. Many arise from a distinctive subset of B cells, termed B-1, that express CD5. Here, we describe our studies with a representative CD5⁺ B-cell-derived natural autoantibody, the V_H11V_κ9 B-cell receptor (BCR) that binds a determinant on senescent erythrocytes. This specificity represents 5–10% of the CD5⁺ B-cell subset, with a large portion accounted for by two novel BCRs, V_H11V_κ9 and V_H12V_κ4. We have found that the development of B-lineage cells with a V_H11 rearrangement is surprisingly restricted at several crucial bottlenecks: (i) one of the most common V_H11 rearrangements generates a heavy-chain protein that only inefficiently assembles a pre-BCR, key for recombinase-activating gene downregulation/allelic exclusion and pre-B-clonal expansion; (ii) cells containing V_H11-µ chains lacking N-addition are favored for progression to the B-cell stage, eliminating most bone marrow V_H11 rearrangements; and (iii) only a subset of V_κ-light chains combine with V_H11 heavy chain to foster progression to the mature B-cell stage. Together, these constrain V_H11 generation to fetal development and may favor production of B cells with the prototype V_H11V_κ9 BCR.     

The role of B7 co-stimulation in activation and differentiation ofCD4+and CD8+T cells

Summary: The functional significance of B7 co-stimulation in T-cell activation was described first in the context of preventing the induction of anergy. The functions of this pathway are far more complex than initially appreciated in view of the existence of two B7 molecules which have specificities for both CD28 and CTLA-4, which serve to amplify and terminate T-cell responses respectively Mice lacking B7 co-stimulators and CD28 and CTLA-4 co-stimulatory receptors are helping to clarify the functions of this key immunoregulatory pathway. In this review we will focus on the role of B7 co-stimulation in the activation and differentiation of CD4⁺ helper cells and CD8⁺ cytotoxic cells. The contribution of B7 co-stimulation to CD⁺ responses depends upon the activation history of the T-cell and the strength of the T-cell antigen receptor signal. B7 co-stimulation contributes to in Cerleukin (IL)-2 production by both naive and previously activated CD4⁺ T cells. B7 co-stimulation is most critical for the differentiation of naive CD4+ T cells to IL-4 producers, but predominately influences IL-2 production by previously activated CD4+ cells. B7 co-stimulation is important in development of cytotoxic T cells through both effects on T-helper cells and by direct co-stimulation of CDS⁺ cells.     

Expression of α5 (CD49e) and α6 (CD49f) Integrin Subunits on T Cells in the Circulation and the Lamina Propria of Normal and Inflammatory Bowel Disease Colonic Mucosa

Intestinal lamina propria T cells are believed to be derived, via the systemic circulation, from gut-associated lymphoid tissue. After migration into the lamina propria, T cells are capable of luminally directed migration following the loss of surface epithelial cells. For adhesion and migration within the extracellular matrix, T cells are likely to utilize the integrin family of adhesion molecules. The aim of this study was to quantitatively and qualitatively investigate the expression of α₅ and α₆ integrin subunits on the surface of human T cells that: (a) migrated out of the lamina propria, (b) remained resident within the matrix and (c) were present in the circulation. In both subpopulations of CD4 and CD8-positive T cells, from both normal and inflamed (inflammatory bowel disease) colonic mucosa, there were significantly fewer α₅ and α₆-positive cells than in the peripheral blood. In addition, there were significantly fewer α₆ integrin molecules on the surface of CD4 and CD8-positive lamina propria T-cell subpopulations, compared with those in the circulation. Our studies suggest that, following migration into the lamina propria, there is down-regulation of α₅ and α₆ integrin-subunit expression on the surface of T cells. Molecules other than members of very late activation antigen-5 (VLA-5) (α₅β₁) and VLA-6 (α₆β₁) families of adhesion molecules are likely to be important in interactions with extracellular components in the lamina propria of normal and inflamed human colonic mucosa.     

Allotype-Associated Differences in Concentrations of Human IgA2

Concentrations of immunoglobulin (Ig)A₂ were determined in 176 Finnish blood donor sera. Their IgA, IgM, IgE, IgG₁, IgG₂, IgG₃ and IgG₄ concentrations and Gm allotypes had been determined earlier. The mean concentration of IgA₂ was higher in individuals carrying the Gm(ax) allele (0.15 g/l) than in those negative for Gm(x) (0.103 g/l). The difference was statistically significant ( P  = 0.006). As ≥ 70% of IgA was usually IgA₁, its concentration could be calculated fairly reliably by subtracting the IgA₂ value from the IgA value. The mean IgA₁ concentration (2.03 g/l) seemed to be independent of the Gm allotypes.     

T Helper-Independent Activation of Human CD8+ Cells: the Role of CD28 Costimulation

The concept that activation of MHC class I-restricted CD8⁺ cells entirely depends on help from MHC class II-restricted CD4⁺ T cells has recently been supplemented with an alternative model in which CD8⁺ cells can directly be activated by MHC class I-expressing professional antigen-presenting cells (APC), which are able to deliver an accessory signal. The authors analysed the role of CD28-mediated costimulation for T helper cell-independent activation of purified human CD8⁺ T cells in two different in vitro models. Freshly isolated CD8⁺ cells could be activated (proliferation, IL-2 production and cytotoxic activity) by anti-CD3-presenting FcγR⁺ mouse cells transfected with the human CD28 ligand, CD80, as the only accessory signal. On the other hand, activation of CD8⁺ cells by allogeneic MHC class I on EBV-transformed B cells, which express two different CD28 ligands, CD80 and CD86, also proceeded very efficiently (proliferation, cytotoxic activity and CD25 expression), but was either not, or only partially, blocked by anti-CD80 and anti-CD86 MoAb or CTLA-4Ig. This indicates that other costimulatory signals are also effective, and that CD28 triggering is not absolutely required for initial T-cell activation. CsA and CD80/CD86-blocking agents were synergistic in completely inhibiting activation of CD8⁺ cells in the MLR with allogeneic B-cell lines. This combination also induced non-responsiveness of CD8⁺ cells upon restimulation in the absence of blocking agents. Therefore, although professional APC can apparently provide multiple costimulatory signals for direct activation of CD8⁺ T cells, the signal derived from CD80/CD86 is unique in providing CsA-resistance.     

The Allogeneic but not Syngeneic Dendritic Cells Effectively Generated Regulatory T Cells from Total Cd4+ Population without Exogenous Cytokines

Dendritic cells (DC) play a critical role in both the expansion of natural regulatory T cells (nTreg) and conversion of induced Treg (iTreg) from their precursors. In the present study, we evaluated the potential of DC to generate Treg from total CD4⁺ population which contains both nTreg and the precursors, and found that allogeneic (allo-DC) but not syngeneic DC (syn-DC) could effectively generated Foxp3⁺ Treg from total CD4⁺ population in the absence of exogenous cytokines. Compared with freshly purified CD4⁺ T cells, allo-DC-stimulated CD4⁺ T cells showed increased percentage of CD4⁺CD25⁺Foxp3⁺ Treg by 5–7-folds while syn-DC-stimulated CD4⁺ T cells did not. Furthermore, we demonstrated that the significant amounts of endogenous IL-2 and TGF-β, at least partially, contributed to the expansion of nTreg and conversion of iTreg in this cocultural system, respectively. Importantly, similar to nTreg, these allo-DC-generated Treg were capable of suppressing T cell response in vitro . Thus, our research provides a novel and efficient strategy for generation of Treg from total CD4⁺ population.     

Anti CD5 Sustains the Proliferative Response of IgM-Activated Human CD5+B Cells

The CD5 molecule is expressed by most T cells but it is present on a minor B cell subset. Whilst several studies have provided information on the physiological role of T cell CD5, the functional role of CD5 on B lymphocytes remains unclear. To address this question, tonsillar CD5⁺ B cells were sorted by dual-colour fluorescence and FACS. Sorted cells were stimulated with polyclonal anti-IgM antibodies (Ab), and monoclonal (MoAb) F(ab')₂ fragments of anti-CD5. Proliferative responses were evaluated by enumeration of Ki-67 positive cells using quantitative flow cytometry. Co-stimulation with anti-CD5 MoAb for 3 days did not affect the anti-IgM and IL2-induced proliferation of CD5⁺ B cells. This was seen under conditions where the anti-CD5 was soluble, adsorbed to the microwells or cross-linked by anti-mouse antibodies. Fewer CD25⁺ cells were detected, however, in the presence of anti-CD5. In contrast, the proliferative response of CD5⁺ B cells prestimulated for 3 days with IL-2 and anti-IgM, was sustained in a further 3-day culture period when anti-CD5 was added. It is concluded that CD5 occupancy might provide an additional signal to activated CD5⁺ B cells favouring their proliferation and differentiation into autoantibody secreting cells.     

Probing the activation requirements for naive CD8+ T cells with Drosophila cell transfectants as antigen presenting cells

Summary: Activation of T cells involves multiple receptor-ligand interactions between T cells and antigen presenting cells (APC), At least two signals are required for T-cell activation: Signal 1 results from recognition of MHC/peptide complexes on the APC by cell surface T-cell receptors (TCR). whereas Signal 2 is induced by the interactions of co-stimulatory molecules on APC with their complementary receptors on T cells. This review focuses on our attempts to understand these various signals in a model system involving the 2C TCR. The structural basis of Signal 1 was investigated by determining the crystal structure of 2C TCR alone and in complex with MHC/peptide. Analysis of these structures has provided some basic rules for how TCR and MHC/peptide interact; however, the critical question of how this interaction transduces Signal I to T cells remains unclear. The effects of Signal 1 and Signal 2 on T-cell activation were examined with naive T cells from the 2C TCR transgenic mice, defined peptides as antigen and transfected Drosophila cells as APC. The results suggest that, except under extreme conditions, Signal I alone is unable to activate naive CD8 T cells despite the induction of marked TCR downregulation. Either B7 or intercellular adhesion molecule (ICAM)-l can provide the second signal for CD8 T-cell activation. However, especially at low MHC/peptide densities, optimal activation and differentiation of CD8 T cells required interaction with both B7 and [CAM-1 on the same APC. Thus, the data suggest that at least two qualitatively different co-stimulation signals are required for full activation of CD8 T cells under physiological conditions.     

Activation of Human T and B Cells by Rabbit Anti-Human β2-Microglobulin

Rabbit anti-human β₂-microglobulin (anti-β₂m) increased the highest DNA synthesis in un-separated lymphocytes or artificially composed mixtures enriched in T and B cells. In enriched T and B cells no or low stimulation was seen. The maximal response by IgG anti-β₂m was seen in proportions of enriched T/B cells, being 3:1 for blood lymphocytes and 1:1 for spleen cells, which are the same as the physiological proportions of T and B cells in these lymphoid organs. Whereas unseparated lymphocytes gave a peat response on day 3, enriched B cells had a peak response on day 6. Fab anti-β₂m did not activate enriched T cells but increased DNA synthesis in enriched B cells to about the same extent as unseparated lymphocytes and mixtures of enriched T and B cells. The proportion of sheep erythrocyte rosette-forming cells (E-RFC) decreased after stimulation by anti-β₂m and increased after stimulation by phytohaemagglutinin. However, as revealed by autoradiography, a proportion of lymphocytes activated by anti-β₂m were E-RFC and this proportion increased with increasing stimulation by anti-β₂m. DNA synthesis induced by anti-β₂m was unchanged for spleen cells and slightly decreased for blood lymphocytes when phagocytic cells were removed by iron treatment. Supernatants from lymphocytes activated by anti-β₂m only induced low DNA synthesis in enriched T or B cells. Experiments with mitomycin treated cells indicate that cooperation and close contact between T and B cells are needed for activation by IgG anti-β₂m. T cells are needed for B cell activation by anti-β₂m and B cells are required for T cell activation to occur.     

Roles of Cav channels and AHNAK1 in T cells: the beauty and the beast

Summary:  T lymphocytes require Ca²⁺ entry though the plasma membrane for their activation and function. Recently, several routes for Ca²⁺ entry through the T-cell plasma membrane after activation have been described. These include calcium release-activated channels (CRAC), transient receptor potential (TRP) channels, and inositol-1,4,5-trisphosphate receptors (IP₃Rs). Herein we review the emergence of a fourth new route for Ca²⁺ entry, composed of Ca_v channels (also known as L-type voltage-gated calcium channels) and the scaffold protein AHNAK1 (AHNAK/desmoyokin). Both helper (CD4⁺) and killer (CD8⁺) T cells express high levels of Ca_v1 α1 subunits (α1S, α1C, α1D, and α1F) and AHNAK1 after their differentiation and require these molecules for Ca²⁺ entry during an immune response. In this article, we describe the observations and open questions that ultimately suggest the involvement of multiple consecutive routes for Ca²⁺ entry into lymphocytes, one of which may be mediated by Ca_v channels and AHNAK1.     

Lymphocytic Choriomeningitis Virus Infection is Associated with Long-Standing Perturbation of LFA-1 Expression on CD8+ T Cells

Flow cytometric analysis of splenocytes from mice infected with lymphocytic Choriomeningitis virus revealed marked and long-standing up-regulation of LFA-1 expression on CD8⁺, but not on CD4⁺ T cells. Appearance of CD8⁺ T cells with a changed expression of adhesion molecules reflected polyclonal activation and expansion which was demonstrated not to depend on CD4⁺ T cells or their products. Cell sorting experiments defined virus-specific CTL to be included in this population (LFA-1^hiMEL-14^lo), but since about 80% of splenic CD8⁺ T cells have a changed phenotype, extensive bystander activation must take place; this is indicated also by the finding that CD8⁺LFA-l^hi cells transiently express several markers of cellular activation, e. g. transferrin receptor, IL-2Rα and β. Analysis of cells from the cerebrospinal fluid of mice infected intracerebrally showed that virtually all T cells present belonged to the CD8LFA-lhi subset and, correspondingly, the ligand ICAM-1 was found to be up-regulated on endothelial cells in the inflamed meninges. Preincubation of LCMV-primed donor splenocytes with anti-LFA-1 markedly inhibited the transfer of virus-specific delayed-type hypersensitivity to naive recipients. Together, these findings indicate that up-regulation of LFA-1 expression is a critical factor involved in directing activated CD8⁺ T cells to sites of viral infection.     

Restricted and Individual Usage of T-cell Receptor β-Gene Variables in Nickel-Induced CD4+ and CD8+ Cells

Nickel allergy is manifested as contact allergic eczema elicited by delayed-type hypersensitivity, the reaction being mediated by T lymphocytes. We examined the T-cell receptor (TCR) β-chain variable gene segment (Vβ) use of nickel-induced CD4⁺ and CD8⁺ T cells in the peripheral blood of nickel-sensitive and non-sensitized subjects. The results show that each patient had an individual Vβ repertoire overexpressed, these being in CD4⁺ cells Vβ10 and Vβ13 (in subject A); Vβ1, Vβ2, Vβ13 and Vβ21 (subject B); Vβ1 and Vβ10 (subject C); Vβ9 and Vβ19 (subject D). Thus, no single Vβ gene dominated in a majority of the CD4⁺ samples. The Vβ genes overexpressed in patient CD8⁺ nickel-induced T cells were Vβ1 (in subject A), Vβ1 (subject B), Vβ1 and Vβ2 (subject C) and Vβ7 (subject D), domination of Vβ1 being seen in most of the CD8⁺ samples (75%). No specific overexpression of any Vβ genes in the nickel-allergic subjects was found in comparison with the non-sensitized subjects. In conclusion, an individual pattern of restricted Vβ genes was induced with nickel in CD4⁺ and CD8⁺ T cells in each nickel allergy patient.     

Enhanced T Lymphocyte Expression of LFA-1, ICAM-1, and the TNF Receptor Family Member OX40 in HgCl2-Induced Systemic Autoimmunity

Injection of mercuric chloride into Brown Norway (BN) rats induces a T lymphocyte-dependent autoimmune syndrome. In order to investigate whether modification of adhesion and costimulatory molecules on T lymphocytes may be involved in early T lymphocyte activation by HgCl₂, the authors analysed expression of these molecules in peripheral lymph node cells from BN rats at day 4 after injection of HgCl₂. Tri-colour flow cytometry was performed for expression analysis within CD45RC-defined subsets of CD4⁺ and CD8⁺ cells. Compared to control rats, HgCl₂-exposed rats showed increased numbers of lymphocytes, especially of T lymphocyte blast cells. The levels of LFA-1 expression as well as the fractions of ICAM-1⁺ cells were significantly increased in all CD45RC-defined subsets of CD4⁺ and CD8⁺ cells. Within the CD4⁺CD45RC^lo T lymphocyte population, HgCl₂-injected rats showed a highly significant increase in the number of cells expressing OX40, which is a member of the TNF receptor family. Moreover, only CD4⁺CD45RC^lo blast cells of HgCl₂-exposed rats showed decreased expression of CD43, increased expression of CD49d and decreased numbers of CD26⁺ cells. The results indicate that induction of autoimmunity by HgCl₂ in BN rats is associated with altered expression of T lymphocyte costimulatory molecules, predominantly on CD4⁺CD45RC^lo cells, which may be caused by a direct effect of HgCl₂ on these cells, and may precipitate further activation of T and B lymphocytes by HgCl₂     

When three is not a crowd: a Crossregulation Model of the dynamics and repertoire selection of regulatory CD4+ T cells

Summary:  Regulatory CD4⁺ T cells, enriched in the CD25 pool of healthy individuals, mediate natural tolerance and prevent autoimmune diseases. Despite their fundamental and potential clinical significance, regulatory T (T_R) cells have not yet been incorporated in a coherent theory of the immune system. This article reviews experimental evidence and theoretical arguments supporting a model of T_R cell dynamics, uncovering some of its most relevant biological implications. According to this model, the persistence and expansion of T_R cell populations depend strictly on specific interactions they make with antigen-presenting cells (APCs) and conventional effector T (T_E) cells. This three-partner crossregulation imposes that T_R cells feed on the specific autoimmune activities they suppress, with implications ranging from their interactions with other cells to their repertoire selection in the periphery and in the thymus, and to the relationship between these cells and the innate immune system. These implications stem from the basic prediction that the peripheral dynamics sort the CD4⁺ T-cell repertoire into two subsets: a less diverse set of small clones of autoreactive effector and regulatory cells that regulate each other's growth, and a more diverse set of barely autoreactive T_E cell clones, whose expansion is limited only by APC availability. It is argued that such partitioning of the repertoire sets the ground for self–non-self discrimination.     

Primary Stimulation of CD4+ Cells in the Presence of IL-4 or IFN-γ Alters the Frequencies of Cytokine-Producing Cells at Restimulation

The induction of specific effector functions in naive T cells may be directed by accessory signals during activation. These could be elicited through binding to cell surface molecules or through factors secreted by antigen-presenting cells or other simultaneously activated cells. We have investigated the influence of CD8⁺ cells and of exogenousiy added cytokines (interleukin (IL)-2, IL-4 and interferon (IFN)-γ) on the cylokine production in splenic CD4⁺ T cells. IL-2, IL-4, IL-5 and IFN-γ production in CD4⁺ cells was measured at the single cell level during primary mitogen stimulation in vitro in the presence or absence of factors or CD8⁺ cells. On day 5 the cells were restimulated with mitogen alone and analysed to evaluate the short-term development of cytokine-producing cells in such cultures. Preactivation in the presence of either exogenous IL-4 or IFN-γ led to an increased production of IL-4 and IFN-γ respectively at restimtilation, and the effects of both IL-4 and IFN-γ were augmented by IL-2. After preactivation in the presence of IL-2 and IL-4, every third CD4⁺ cell could be induced to produce IL-4. Exogenous IL-4 or IFN-γ further decreased each other's production. Depletion of CD8⁺ cells before activation resulted in a slight increase of IL-4-producing cells, indicating that simultaneous activation of CD8⁺ cells will influence lymphokine production in CD4⁺ cells. The results suggest that the pattern of lymphokines induced in naive cells may be influenced by factors secreted by preactivated CD4⁺ and CD8⁺ cells, and that naive cells are preferentially 'recruited' to produce similar cytokines.     

Phenotypic and Functional Analysis of Activated B Cells of Autoimmune NZB × NZW F1 Mice

Polyclonal B-cell activation is the central theme in the production of autoantibodies and possible activation of autoreactive T cells in both human and murine lupus. The abnormal expansion of CD5⁺ B cells in murine lupus has been suggested, in particular, to be one of the most characteristic findings in these mice. Activated B cells can be separated from the B cells of resting stage by the difference in cell density. The aim of this study was to investigate the characteristics of different densities of the spleen cells separated by gradient density. Furthermore, the ability of anti-DNA antibody secretion in each percoll gradient fraction of B cells was also analysed. The results showed: a higher percentage of CD5⁺ B cells, which corresponded to the activated B-cell population, in percoll gradient 1 and 2 fractions; that splenic B cells of NZB/W F₁ mice had proliferative response to interleukin (IL)-4 or IL-5 but not to IL-10 or interferon-γ (IFN-γ); and that B cells isolated by percoll gradient produced anti-DNA antibody after stimulation with lipopolysaccharide (LPS) plus IL-5 and IFN-γ, but not IL-4 and IL-10. These data suggest that B cells at different stages of activation express differential characteristics and functions.     

Differential Expression of T-Cell Adhesion Molecules and LFA-1-Dependent Intercellular Adhesion in HgCl2-Induced Autoimmunity and Immune Suppression

Exposure of Brown Norway (BN) rats to HgCl₂ induces Th2-mediated systemic autoimmunity. In contrast, in Lewis rats, HgCl₂ induces immune suppression, mediated by CD8⁺ T cells. HgCl₂ was previously found to enhance expression of LFA-1, ICAM-1 and CD134 (OX40) on T cells in BN rats. In the present study, T cells from Lewis rats were studied at day 4 after injection of HgCl₂. CD8⁺ T lymphoblasts were significantly increased, which were predominantly CD45RC^hi, and which showed enhanced LFA-1 expression. Furthermore, CD4⁺CD45RC^hi T cells showed increased numbers of ICAM-1⁺ cells, whereas expression of CD134 and CD26 was relatively decreased in CD4⁺ T lymphoblasts. Ex vivo experiments demonstrated that HgCl₂- exposure of BN rats, but not of Lewis rats, significantly enhances PMA [phorbol 12-myristate 13-acetate]-induced lymphocyte aggregation, mediated by LFA-1 and ICAM-1. In conclusion, HgCl₂-injected Lewis rats show early signs of T-lymphocyte activation, predominantly on CD8⁺ cells. Strain-dependent effects of HgCl₂ on cell adhesion molecules and expression of CD134 may play an important role in development of either autoimmunity or immune suppression.     

Multiple Sclerosis: IFN-β Induces CD123+BDCA2– Dendritic Cells that Produce IL-6 and IL-10 and have No Enhanced Type I Interferon Production

IFN-β, an approved drug for multiple sclerosis (MS), acts on dendritic cell (DC) by suppressing their production of IL-12p40 and increasing IL-10. This results in Th2-biased immune responses. The nature of IFN-β-modulated DC remains elusive. Previously, we observed that IFN-β dose dependently induces expression of CD123, i.e. a classical marker for plasmacytoid DC, on human blood monocyte-derived myeloid DC. Such IFN-β-modulated DC produce predominantly IL-10 but are IL-12 deficient, with potent Th2 promotion. In the present study, we further characterize IFN-β-modulated DC by using recently identified blood DC antigens (BDCA) and investigate their ability to produce Type I IFN in response to virus stimulation. We show that IFN-β induces development of CD123⁺ DC from human blood monocytes, which coexpress BDCA4⁺ but are negative for BDCA2^–, a specific marker for plasmacytoid DC. Such IFN-β-modulated DC produce large amounts of IL-6 and IL-10, but no IL-12p40 and have no enhanced IFN-β and IFN-β production. The findings indicate that IFN-β-modulated DC represent a myeloid DC subset with diminished CD11c, BDCA-1 and CD1a expression, having potent Th2-promoting function but lacking antiviral capacity.     

γδ T-Cell Precursor-Derived CD4− CD8−αβ T Cells Retain γδ Cell Function

We have previously shown that some of the DNαβ⁺ T cells arising in TcRα-chain transgenic mice are of γδ T cell origin, based on phenotypic data and on their status of TcR gene rearrangements. In the present report we investigated the impact of αβ TcR expression on the functional programme of the mature γδ precursor-derived DNαβ⁺ T cells. Our results demonstrate that both their proliferative capacity and their cytokine production profile are similar to that of γδ T cells. Furthermore, both transgenic DNαβ⁺ T cells and DNγδ⁺ T cells up-regulate CD8α expression after activation, but, in contrast to CD4⁺αβ T cells, are unable to induce proliferation of naive B cells. Thus, our results suggest that the effector functions of mature T cells are determined independently of the TcR isotype, probably at an early stage of differentiation, and thereby have important implications for current models of T-cell lineage commitment.