Stochastics of Cellular Differentiation Explained by Epigenetics: The Case of T-Cell Differentiation and Functional Plasticity.

Epigenetic marks including histone modifications and DNA methylation are associated with the regulation of gene expression and activity. In addition, an increasing number of non-coding RNAs with regulatory activity on gene expression have been identified. Alongside, technological advancements allow for the analysis of these mechanisms with high resolution up to the single-cell level. For instance, the assay for transposase-accessible chromatin using sequencing (ATAC-seq) simultaneously probes for chromatin accessibility and nucleosome positioning. Thus, it provides information on two levels of epigenetic regulation. Development and differentiation of T cells into functional subset cells including memory T cells are dynamic processes driven by environmental signals. Here, we briefly review the current knowledge of how epigenetic regulation contributes to subset specification, differentiation and memory development in T cells. Specifically, we focus on epigenetic mechanisms differentially active in the two distinct T cell populations expressing αß or γδ T cell receptors. We also discuss examples of epigenetic alterations of T cells in autoimmune diseases. DNA methylation and histone acetylation are subject to modification by several classes of 'epigenetic modifiers', some of which are in clinical use or in preclinical development. Therefore, we address the impact of some epigenetic modifiers on T-cell activation and differentiation, and discuss possible synergies with T cell-based immunotherapeutic strategies.

CD20-Specific Immunoligands Engaging NKG2D Enhance γδ T Cell-Mediated Lysis of Lymphoma Cells.

Human γδ T cells are innate-like T cells which are able to kill a broad range of tumour cells and thus may have potential for cancer immunotherapy. The activating receptor natural killer group 2 member D (NKG2D) plays a key role in regulating immune responses driven by γδ T cells. Here, we explored whether recombinant immunoligands consisting of a CD20 single-chain fragment variable (scFv) linked to a NKG2D ligand, either MHC class I chain-related protein A (MICA) or UL16 binding protein 2 (ULBP2), could be employed to engage γδ T cells for tumour cell killing. The two immunoligands, designated MICA:7D8 and ULBP2:7D8, respectively, enhanced cytotoxicity of ex vivo-expanded γδ T cells against CD20-positive lymphoma cells. Both Vδ1 and Vδ2 γδ T cells were triggered by MICA:7D8 or ULBP2:7D8. Killing of CD20-negative tumour cells was not induced by the immunoligands, indicating their antigen specificity. MICA:7D8 and ULBP2:7D8 acted in a dose-dependent manner and induced cytotoxicity at nanomolar concentrations. Importantly, chronic lymphocytic leukaemia (CLL) cells isolated from patients were sensitized by the two immunoligands for γδ T cell cytotoxicity. In a combination approach, the immunoligands were combined with bromohydrin pyrophosphate (BrHPP), an agonist for Vδ2 γδ T cells, which further enhanced the efficacy in target cell killing. Thus, employing tumour-directed recombinant immunoligands which engage NKG2D may represent an attractive strategy to enhance antitumour cytotoxicity of γδ T cells.

Effector memory T­cells in the pathogenesis of ANCA-associated vasculitides.

Patients with antineutrophil cytoplasmic autoantibody (ANCA)-associated vasculitides (AAV) have an expansion of effector memory T­cells in peripheral blood. The enlarged effector memory cell population contains distinct cell subsets, including T­helper type 1 (Th1) CD4+ T­cells lacking co-stimulatory CD28 expression and Th17 cells in granulomatosis with polyangiitis (GPA) and microscopic polyangiitis (MPA) and Th2 type and Th17 cells in eosinophilic granulomatosis with polyangiitis (EGPA). The cytokine response of autoreactive proteinase 3 (PR3)-specific effector memory T­cells is skewed towards an increase of Th2 type, Th17, and Th22 cell fractions in GPA. Anomalous effector memory CD4+ T­cell co-stimulation is suggested by the aberrant expression of P­selectin glycoprotein ligand-1, ß­2 integrin, chemokine receptors, natural-killer group 2 member D (NKG2D) and other activating receptors. The increased expression of these receptors is accompanied by T­cell activation and migration to inflamed tissues. T­cells are abundant and secrete proinflammatory cytokines in inflammatory lesions in AAV. The T­cell mediated tissue damage correlates with renal outcome, whereas B­cell infiltration does not. Activation of lesional CD4+NKG2D+ effector memory T­cells is independent of the antigen; moreover, CD4+NKG2D+ effector memory T­cells display NK-cell-like cytotoxicity towards microvascular endothelial cells in vitro. Thus, effector memory T­cells play an important role in tissue damage and disease progression in AAV. Sequentially administered or combined with B­cell depleting therapy, T­cell-directed therapies, especially those directed against effector memory CD4+ T­cells, may further improve the outcome and help to achieve long-term remissions in AAV.

[Effector memory T­cells in the pathogenesis of ANCA-associated vasculitides. German version]. / Effektor-Memory-T­Zellen in der Pathogenese von ANCA-assoziierten Vaskulitiden.

Patients with antineutrophil cytoplasmic autoantibody (ANCA)-associated vasculitides (AAV) have an expansion of effector memory T­cells in peripheral blood. The enlarged effector memory cell population contains distinct cell subsets, including T­helper type 1 (Th1) CD4+ T­cells lacking co-stimulatory CD28 expression and Th17 cells in granulomatosis with polyangiitis (GPA) and microscopic polyangiitis (MPA) and Th2 type and Th17 cells in eosinophilic granulomatosis with polyangiitis (EGPA). The cytokine response of autoreactive proteinase 3 (PR3)-specific effector memory T­cells is skewed towards an increase of Th2 type, Th17 and Th22 cell fractions in GPA. Anomalous effector memory CD4+ T­cell co-stimulation is suggested by the aberrant expression of P­selectin glycoprotein ligand­1, beta­2 integrin, chemokine receptors, natural-killer group 2 member D (NKG2D) and other activating receptors. The increased expression of these receptors is accompanied by T­cell activation and migration to inflamed tissues. The T­cells are abundant and secrete proinflammatory cytokines in inflammatory lesions in AAV. The T­cell mediated tissue damage correlates with renal outcome, whereas B-cell infiltration does not. Activation of lesional CD4+NKG2D+ effector memory T­cells is independent of the antigen; moreover, CD4+NKG2D+ effector memory T­cells display NK-cell-like cytotoxicity towards microvascular endothelial cells in vitro. Thus, effector memory T­cells play an important role in tissue damage and disease progression in AAV. Sequentially administered or combined with B-cell depleting therapy, T­cell-directed therapies, especially those directed against effector memory CD4+ T­cells, may further improve the outcome and help to achieve long-term remission in AAV.

Lysosome-Related Effector Vesicles in T Lymphocytes and NK Cells.

Lysosome-related secretory organelles combine metabolic functions of conventional lysosomes with an inducible secretory potential. Specialized variants of such bi-functional organelles are present in several haematopoietic cell types that store, mobilize and/or secrete effector proteins, for example in mast cells, macrophages or cytotoxic effector cells. In the case of T lymphocytes and NK cells, it was believed that secretory lysosomes serve as a common storage and transport compartment for the most relevant cytotoxic effector proteins including FasL, perforin, granzymes and granulysin. However, recent observations suggest that cytotoxic effector cells might be able to mobilize two distinct lysosomal entities in order to react to differential stimulation with either FasL surface appearance or degranulation-associated release of perforin and granzymes. This assumption is supported by the proteomic characterization of enriched organelles from T and NK cells. FasL-associated light lysosomes biochemically segregate from morphologically distinct heavy lysosomes that preferentially contain granzymes, perforin and mature granulysin. Here, we briefly summarize the current knowledge about cargo proteins that are stored and transported in secretory vesicles and how these vesicles might be generated and mobilized. In addition, we describe common features and major differences of the two distinct effector organelles and discuss how these observations might expand existing models of cytotoxic effector function.

Inhibition of human γδ T cell proliferation and effector functions by neutrophil serine proteases.

Human peripheral blood γδ T cells expressing the Vγ9Vδ2 T cell receptor are activated by microbial or endogenous pyrophosphate antigens and indirectly by nitrogen-containing bisphosphonates. Apart from proliferation, such phosphoantigens induce proinflammatory cytokine production including TNF-α and IFN-γ and trigger cytotoxic effector function. Neutrophil granulocytes are known to modulate T cell activation. The neutrophil serine proteases proteinase 3, elastase and cathepsin G have multiple potential targets and promote microbial killing. In this study, we investigated the effect of the three serine proteases on the in vitro proliferation and effector functions of γδ T cells cultured in serum-free medium. All three proteases inhibited the proliferative activity, suppressed the cytokine production and decreased the cytotoxicity of γδ T cells. Further studies indicated that proteolytic cleavage of IL-2 and modulation of butyrophilin 3A1 (CD277) expression might contribute to the overall inhibition.

In vitro comparison of different carrier materials with rat bone marrow MSCs.

OBJECTIVES: Injectable or implantable scaffolds seeded with autologous chondrogenic cells may represent a promising option for treatment of cartilage defects in the future. Current problems with the autologous chondrocyte implantation including dedifferentiation and the development of fibrocartilage suggest the use of alternative chondrogenic cell sources such as mesenchymal stromal cells (MSCs). The aim of this study was to compare the early effects of different scaffolds on the proliferation and metabolic activity of chondrogenic MSCs in vitro. MATERIALS AND METHODS: Multipotent stromal cells were isolated from rat bone marrow, phenotyped by flow cytometry, and differentiated into distinct lineages proved by lineage-specific staining and gene expression (RT-PCR) pattern. Cell proliferation on Tutodent® Membrane, Bio-Gide®, TissuFleece E, and Belotero® Soft was quantified by the MTT and WST-1 assay and direct determination of total cell numbers. Potential cytotoxic effects of eluates obtained from the materials were quantified by lactate dehydrogenase (LDH) and 5-bromo-2-deoxyuridine (BrdU) assay. RESULTS: TissuFleece E displayed the best results regarding cell proliferation on the biomaterials and metabolic activity (MTT, WST-1) (p < 0.001). Yet, the eluates of TissuFleece E caused an increased LDH release and lower values in the BrdU test. Cell proliferations on Bio-Gide®, Tutodent® Membrane, and Belotero® Soft were similar to the control. The eluates of Belotero® Soft exhibited the highest LDH release and lowest values in the BrdU assay (p < 0.05). CONCLUSIONS: Our results support the use of Tissufleece E as scaffold for chondrogenic rat MSCs. However, it should be prewashed with culture medium before seeding of the cells. CLINICAL RELEVANCE: Tissufleece E may serve as a promising carrier material for chondrogenic MSCs for cartilage tissue engineering attempts.

Generation of soluble NKG2D ligands: proteolytic cleavage, exosome secretion and functional implications.

The activating natural killer group 2 member D (NKG2D) receptor is expressed on NK cells, cytotoxic T cells and additional T cell subsets. Ligands for human NKG2D comprise two groups of MHC class I-related molecules, the MHC class I chain-related proteins A and B (MICA/B) and 6 UL16-binding proteins (ULBP1-6). While NKG2D ligands are absent from most normal cells, expression is induced upon stress and malignant transformation. In fact, most solid tumours and leukaemia/lymphomas constitutively express at least one NKG2D ligand and thereby are susceptible to NKG2D-dependent immunosurveillance. However, soluble NKG2D ligands are released from tumour cells and can down-modulate NKG2D activation as a means of tumour immune escape. In some tumour entities, levels of soluble NKG2D ligands in the serum correlate with tumour progression. NKG2D ligands can be proteolytically shed from the cell surface or liberated from the membrane by phospholipase C in the case of glycosylphosphatidylinositol (GPI)-anchored molecules. Moreover, NKG2D ligands can be secreted in exosomal microvesicles together with other tumour-derived molecules. Depending on the specific tumour/immune cell setting, these various forms of soluble and/or exosome-bound NKG2D ligands can exert multiple effects on NKG2D/NKG2D ligand interactions. In this review, we focus on the role of various proteases in the shedding of human NKG2D ligands from tumour cells and discuss the not completely unanimous reported functional implications of soluble and exosome-secreted NKG2D ligands for immunosurveillance.

Markers of operational immune tolerance after pediatric liver transplantation in patients under immunosuppression.

A prospective identification of the estimated 20-50% of pediatric LTX recipients developing operational tolerance would be of great clinical advantage. So far markers of immune tolerance - T-cell subpopulations or gene expression profiles - have been investigated only retrospectively in successfully weaned patients. Fifty children aged 8-265 months (median 89) were investigated 1-180 months (median 44) after LTX under ongoing immunosuppression. T-cell subpopulations were measured during regular post-transplant visits using FACS (Vδ1- vs. Vδ2-γδ-T cells and Tregs). A Vδ1/Vδ2-γδ-T-cell ratio ≥1.42 previously reported in operational tolerance was found in 12 of 50 (24%) patients. In analogy, a Treg count ≥44 per µL was found in 35 of 50 (70%) patients and a Treg proportion ≥2.23% of CD3(+) -T cells in 39 of 50 (78%) patients. Only 9 of 50 patients (18%) fulfilled both criteria. The parameters Vδ1/Vδ2-γδ-T-cell ratio and Tregs were not significantly correlated to each other or with donor type or immunosuppression. Vδ1/Vδ2-γδ-T-cell ratio was more stable in serial examinations compared with Treg analyses. The observed proportion of 18% pediatric LTX patients with potential operational tolerance is in accordance with previous reports. However, clinical experience shows that rejections may happen even after long-time weaning of immunosuppression. This suggests that operational tolerance is a dynamic process, with uncertain prediction by Vδ1/Vδ2-γδ-T-cell ratio and/or Tregs under immunosuppression.

The multifunctionality of human Vγ9Vδ2 γδ T cells: clonal plasticity or distinct subsets?

The dominant subset of γδ T cells in human peripheral blood expresses Vγ9 paired with Vδ2 as variable TCR elements. Vγ9Vδ2 T cells recognize pyrophosphates derived from the microbial non-mevalonate isoprenoid biosynthesis pathway at pico- to nanomolar concentrations. Structurally related pyrophosphates are generated in eukaryotic cells through the mevalonate pathway involved in protein prenylation and cholesterol synthesis. However, micromolar concentrations of endogenous pyrophosphates are required to be recognized by Vγ9Vδ2 T cells. Such concentrations are not produced by normal cells but can accumulate upon cellular stress and transformation. Therefore, many tumour cells are susceptible to γδ T cell-mediated lysis owing to the overproduction of endogenous pyrophosphates. This explains why Vγ9Vδ2 T cells contribute to both anti-infective and anti-tumour immunity. Ex vivo analysed Vγ9Vδ2 T cells can be subdivided on the basis of additional surface markers, including chemokine receptors and markers for naïve and memory T cells. At the functional level, Vγ9Vδ2 T cells produce a broad range of cytokines, display potent cytotoxic activity, regulate αß T cell responses, and - quite surprisingly - can act as professional antigen-presenting cells. Thus, an exceptional range of effector functions has been assigned to a population of T cells, which all recognize invariant exogenous or endogenous pyrophosphates that are not seen by any other immune cell. Here, we discuss whether this plethora of effector functions reflects the plasticity of individual Vγ9Vδ2 T cells or can be assigned to distinct subsets.

Functional expression of NOD2 in freshly isolated human peripheral blood γδ T cells.

γδ T cells play an important role in anti-infective immunity. The major subset of human γδ T cells selectively recognizes phosphorylated bacterial metabolites of the isoprenoid biosynthesis pathway, so-called phosphoantigens. The activation of γδ T cells is modulated by functionally expressed innate immune receptors, notably Toll-like receptor 2 and 3. It was also reported that in vitro expanded γδ T cells respond to muramyl dipeptide (MDP), the minimal peptidoglycan motif activating the nucleotide-binding oligomerization domain containing 2 (NOD2) receptor, although it is unknown whether ex vivo isolated human γδ T cells express functional NOD2. Here, we report that freshly isolated, highly purified peripheral blood γδ T cells express NOD2 mRNA and detectable amounts of NOD2 protein. The biologically active MDP L-D isomer but not the inactive D-D isomer augmented the interferon-γ (IFN-γ) secretion in phosphoantigen-stimulated peripheral blood mononuclear cells. Moreover, a moderate but reproducible and statistically significant increase in IFN-γ secretion was also observed when highly purified peripheral blood γδ T cells were activated by T cell receptor cross-linking in the presence of MDP. Taken together, our results indicate that in addition to the T cell receptor and Toll-like receptors, circulating human γδ T cells express NOD2 as a third class of pattern recognition receptor for sensing bacterial products.

[T-cells in ANCA-associated vasculitis]. / T-Zellen bei ANCA-assoziierten Vaskulitiden.

CD4+NKG2D+effector memory T-cell-mediated endothelial cell damage and a Th17 dominated cytokine profile of PR3-specific T-cells may play an important role in the pathogenesis of granulomatosis with polyangiitis (Wegener's). The anti-IL-5 antibody mepolizumab (anti-IL-5) induces remission in Churg-Strauss syndrome.

Identification of CD2-/CD3+ T cells in fetal human tissue.

From 1 to 23% of fetal human spleen or thymus cells (from the 20th to 24th week of gestation) were found to display a previously unrecognized CD2-/CD3+ phenotype. IL-2-dependent, long-term clones of CD2-/3+ T cells did not react with a panel of anti-CD2 mAbs and did not form rosettes with sheep erythrocytes. These results show that (a) significant numbers of CD2-/3+ T cells are present in fetal human spleen and/or thymus; and (b) in contrast to the widely accepted view, expression of CD2 is not a prerequisite for the expression of the CD3 molecular complex on human T cells.

Selective activation of gamma/delta + T cell clones by single anti-CD2 antibodies.

The CD2 antigen is the target for an "alternative" T cell activation pathway. Numerous studies have demonstrated that pairs of monoclonal antibodies (mAbs) directed toward two different epitopes are required for activation of T cell receptor (TCR)-alpha/beta + T cells via CD2. We have now explored the activation of human TCR-gamma/delta + T cell clones by a panel of anti-CD2 mAbs directed against the sheep erythrocyte-binding (T11.1) epitope of CD2. Seven of seven gamma/delta + clones expressing different molecular forms of the TCR-gamma/delta responded to stimulation by a single anti-CD2 mAb (OKT11, 9E8, BW0110, M-T910) with IL-2 secretion and/or proliferation. Immobilization of anti-CD2 mAbs in microculture plates was essential for activation of gamma/delta + clones, which occurred in the absence of feeder cells. In addition to interleukin 2 (IL-2) production and proliferation, anti-CD2 mAbs also triggered cytotoxic effector activity in gamma/delta + clones as measured against FcR+ P815 target cells. In contrast to gamma/delta + clones (but in line with established data), none of five CD4+ or CD8+ TCR-alpha/beta + clones were activated by any of the tested individual anti-CD2 mAbs. Taken together, our results reveal a striking difference between cloned gamma/delta + and alpha/beta + T cells in that gamma/delta + T cells are selectively activated by a single anti-CD2 (T11.1) mAb, without need for the simultaneous signal of a second anti-CD2 mAb directed against another (T11.2 or T11.3) CD2 epitope.

Allorestricted cytotoxic T cells. Large numbers of allo-H-2Kb-restricted antihapten and antiviral cytotoxic T cell populations clonally develop in vitro from murine splenic precursor T cells.

Cytotoxic T lymphocyte (CTL) responses of splenic T cells from C57BL/6 B6) mice and mutant H-2Kbm1 (bm1) mice to haptenic (trinitrophenyl [TNP] ) and herpes simplex virus (HSV) determinants in the context of an allogenic (wild-type or mutant) H-2Kb molecule were analyzed in a modified limiting dilution system. In the B6-anti-bm1TNP mixed leukocyte reaction (MLR), estimated frequencies for precursors of CTL clones that lysed bm1TNP targets ranged from 1/120 to 1/400; in the bm1-anti-B6TNP MLR, estimated frequencies of precursors of CTL clones that lysed B6TNP targets ranged from 1/500 to 1/1,300. Estimated frequencies for precursors of CTL clones that lysed the respective unmodified and TNP-modified allogeneic targets were two- to three-fold lower. Lytic specificity patterns determined by split-well analysis showed that at least 20-30% of the generated CTL populations (selected for a high probability of clonality) in both MLR displayed allorestricted lysis of TNP-modified concanavalin A blast targets. In the B6-anti-bm1HSV MLR, estimated frequencies for precursors of CTL clones that lysed bm1HSV targets ranged from 1/70 to 1/300; in the bm1-anti-B6HSV MLR, estimated frequencies for precursors of CTL clones that lysed B6HSV targets ranged from 1/300 to 1/1,200. Again, estimated frequencies for precursors of CTL clones that lysed the respective noninfected and virus-infected allogeneic targets were two- to fourfold lower. Of the CTL populations selected for a high probability of clonality at least 30-60% displayed allorestricted lysis of virus-infected lipopolysaccharide blast targets in both MLR. It is concluded that a large fraction of clonally developing CTL populations stimulated with TNP-modified or HSV-infected allo-H-2Kb-bearing cells displayed an allorestricted pattern of recognition. It was further evident that the estimated frequencies of splenic precursors that generated allorestricted CTL clones was two- to threefold higher than the estimated frequencies of precursors that gave rise to the respective alloreactive CTL populations.

A novel subset of CD2-, CD3/T cell receptor alpha/beta+ human peripheral blood T cells. Phenotypic and functional characterization of interleukin 2-dependent CD2-CD3+ T cell clones.

It is generally believed that CD2 (T11, sheep erythrocyte receptor) is expressed on all human T cells. In the present study we have identified and characterized a minor subset of CD2- CD3/TCR alpha/beta+ T cells in the peripheral blood of healthy individuals. CD2-CD3+ T cells were enriched in PBMC depleted of plastic-adherent macrophages, E-rosetting (i.e., CD2+) T cells and surface Ig+ B cells. CD2-CD3+ T cells accounted for 0.1-0.8% of PBMC in six individuals. IL-2-dependent long-term clones of CD2-CD3+ T cells neither reacted with a panel of anti-CD2 mAbs nor expressed detectable levels of CD2 mRNA by Northern blot analysis. These clones, however, expressed a full-length TCR C beta mRNA and reacted with mAbs against TCR-alpha/beta, CD3, and CD4, and thus were mature T cells. CD2-CD3/TCR+ T cell clones could be triggered into proliferation, IL-2 production, and cytotoxic effector activity by anti-CD3 and anti-TCR mAbs. We conclude that (a) a minor subset of CD2-, CD3/TCR-alpha/beta+ T cells is present in normal peripheral blood; and (b) expression of CD2 at the level of protein and/or mRNA is not required for T cell signaling via the CD3/TCR molecular complex.

A large fraction of human peripheral blood gamma/delta + T cells is activated by Mycobacterium tuberculosis but not by its 65-kD heat shock protein.

We report that M. tuberculosis organisms, but neither PHA nor allogeneic stimulator cells, preferentially activate gamma/delta+ cells within E rosette-purified peripheral blood T cells. gamma/delta+ T cells from purified protein derivative (PPD)-nonimmune healthy donors were enriched by depletion of CD4+ and CD8+ cells; double-negative (DN) cells contained 65-92% gamma/delta+ T cells. Limiting dilution (LD) analyses revealed that 1 of 2-19 purified DN cells proliferated in response to mycobacteria, while frequencies of DN cells proliferating in response to a recombinant 65-kD heat shock protein (hsp 65) of M. tuberculosis/M. bovis were 10-20-fold lower. Established clones of mycobacteria-reactive gamma/delta+ T cells specifically recognized mycobacteria, but neither PPD nor hsp 65. Restimulation of these clones required the presence of PBMC feeder cells; EBV-transformed lymphoblastoid cell lines could not substitute for PBMC. Mycobacteria-reactive gamma/delta+ clones proliferated equally well in the presence of autologous or allogeneic (HLA-DR-different) PBMC feeder cells and thus were not MHC class II restricted. Taken together, these results demonstrate that mycobacteria-reactive gamma/delta+ T cells are present in high frequency in the peripheral blood of healthy individuals, and suggest that hsp 65 of mycobacteria is not a major antigen for gamma/delta+ T cells of normal PPD-nonimmune blood donors.

The primary response of human gamma/delta + T cells to Mycobacterium tuberculosis is restricted to V gamma 9-bearing cells.

We have previously reported that peripheral blood gamma/delta + T cells proliferate in high frequency (1 in 2-20) in response to heat-killed Mycobacterium tuberculosis (M.tb.). In the present study, the T cell receptor phenotype of mycobacteria-responsive human gamma/delta + T cells was analyzed in primary cultures with a set of monoclonal antibodies (mAbs) directed against V gamma 9, V delta 1, and V delta 2. When unseparated T cells were stimulated with M.tb., all proliferating gamma/delta + T cells expressed V gamma 9 (and V delta 2) after culture. Selective depletion of V gamma 9-bearing cells before culture completely abolished the proliferative response of all gamma/delta + cells (but did not inhibit reactivity of alpha/beta + T cells). In addition, when CD4- CD8- thymocytes were stimulated with M.tb., there was again selective outgrowth of V gamma 9+ cells. In this case, the starting responder population contained few (0.5-1.8%) V gamma 9+ and many (11.5-31.5%) V delta 1+ cells that did not coexpress V gamma 9. These V delta 1+ cells were not activated by M.tb. but could be readily stimulated by anti-V delta 1 mAb A13. Finally, a V gamma 9-specific mAb selectively suppressed the proliferative response of gamma/delta + T cells to M.tb. Taken together, our results demonstrate that, within gamma/delta + T cells, reactivity towards M.tb. is an exclusive property of V gamma 9+/V delta (2+)-bearing cells.

Surface expression of functional T cell receptor chains formed by interlocus recombination on human T lymphocytes.

Structural diversity of lymphocyte antigen receptors (the immunoglobulin [Ig] of B cells and the alpha/beta or gamma/delta T cell receptor [TCR] of T cells) is generated through somatic rearrangements of V, D, and J gene segments. Classically, these recombination events involve gene segments from the same Ig or TCR locus. However, occurrence of "trans" rearrangements between distinct loci has also been described, although in no instances was the surface expression of the corresponding protein under normal physiological conditions demonstrated. Here we show that hybrid TCR genes generated by trans rearrangement between V gamma and (D) J beta elements are translated into functional antigen receptor chains, paired with TCR alpha chains. Like classical alpha/beta T cells, cells expressing these hybrid TCR chains express either CD4 or CD8 coreceptors and are frequently alloreactive. These results have several implications in terms of T cell repertoire selection and relationships between TCR structure and specificity. First, they suggest that TCR alloreactivity is determined by the repertoire selection processes operating during lymphocyte development rather than by structural features specific to V alpha V beta regions. Second, they suggest the existence of close structural relationships between gamma/delta and alpha/beta TCR and more particularly, between V gamma and V beta regions. Finally, since a significant fraction of PBL (at least 1/10(4)) expressed hybrid TCR chains on their surface, these observations indicate that trans rearrangements significantly contribute to the combinatorial diversification of the peripheral immune repertoire.

Human NK cells require caspases for activation-induced proliferation and cytokine release but not for cytotoxicity.

Natural killer (NK) cells are innate immune cells involved in antiviral defence and tumour surveillance. To fulfil these tasks, NK cells make use of two major effector functions, cytokine and chemokine release and cytotoxicity. In addition, NK cells proliferate in response to cytokines such as IL-2. NK cells possess a large array of activating and inhibitory receptors and their activation demands a complex crosstalk between those receptors. The signalling pathways leading to NK-cell activation are a field of intensive research. The first clue for signal specificity was provided by studies showing that a pathway leading to NF-κB activation selectively induces cytokine release, but is dispensable for cytotoxicity. Here, we demonstrate that in human NK cells caspase activity is required for the upregulation of select activation markers and IFN-γ and TNF production, but not for cytotoxicity. Interestingly, caspases have previously been linked in T cells to the same mechanism of NF-κB induction that is active in NK cells. Moreover, we provide evidence that caspases are involved in IL-2-induced proliferation. Thus, our data provide the basis for a novel approach using caspase inhibitors to generate cytotoxic NK cells, while simultaneously suppressing cytokine release.