anti-CD3epsilon Antibody Research Articles

Bone marrow mesenchymal stromal cells (BM-MSCs) from healthy donors and auto-immune disease patients reduce the proliferation of autologous- and allogeneic-stimulated lymphocytes in vitro

To investigate the ability of bone marrow (BM)-derived mesenchymal stromal cells (BM-MSCs) in suppressing the proliferation of stimulated lymphocytes across a range of conditions including autologous BM-MSCs derived from autoimmune disease (AD) patients. In vitro cultures of BM-MSCs from healthy donors and AD patients were established and characterized by their differentiation potential into adipocytes and osteoblasts, and their fibroblast-colony-forming unit (CFU-F) ability and phenotype by flow cytometry. BM-MSCs (irradiated and non-irradiated) from healthy and AD patients were tested for their ability to suppress the in vitro proliferation of autologous and allogeneic peripheral blood mononuclear cells (PBMC) (from healthy donors and patients suffering from various ADs) stimulated with anti-CD3epsilon antibody alone or in combination with anti-CD28 antibody. The anti-proliferative effect of the BM-MSCs from healthy donors was tested also on transformed B-cell lines as a model of non-antigen-stimulated lymphocytes. BM-MSCs from healthy donors and AD patients reduced the proliferation of autologous and allogeneic PBMCs by up to 90% in a cell dose-dependent fashion. The immunosuppression was independent of the proliferation of the BM-MSCs and was also effective on already proliferating cells. It was independent also of the clinical activity of AD. An MSC dose-dependent pattern of suppression of proliferation was observed also with transformed B-cell lines, similar to that observed with proliferating PBMC. The BM-MSCs exhibit extensive anti-proliferative properties against lymphocytes under different conditions. This property might offer a form of immunomodulatory cellular therapy for AD patients if further confirmed in animal models.

Direct manipulation of activator protein‐1 controls thymocyte proliferation in vitro

B cell activating transcription factor (BATF) belongs to the activator protein-1 (AP-1) superfamily of basic leucine zipper transcription factors and forms heterodimers with Jun that possess minimal transcriptional activity. Mice carrying a p56(lck)HA-BATF transgene were created to observe the effects of constitutive expression of this well-characterized AP-1 inhibitor on T cell proliferation. Consistent with the role of AP-1 in promoting the proliferation of many cell types, BATF-transgenic thymocytes proliferate poorly in vitro when stimulated with anti-CD3epsilon and anti-CD28 antibodies or with Concanavalin A. However, when BATF-transgenic thymocytes were stimulated using a standard treatment of PMA and ionomycin, proliferation is normal. The responsiveness to PMA and ionomycin can be attributed to the dramatic disappearance of the hemagglutinin antigen (HA)-tagged BATF protein which is a PKC-dependent process caused by the down-regulation of the p56(lck) proximal promoter coupled with the rapid turnover of the HA-BATF protein. These studies describe conditions of T cell stimulation that negatively influence transcription of the widely used p56(lck) proximal promoter expression cassette. In addition, the unique circumstances of this regulation were exploited to demonstrate that inhibition of AP-1 activity by BATF exerts a direct, and reversible, effect on T cell proliferation in vitro.

DNA fragmentation and detachment of enterocytes induced by anti-CD3 mAb-activated intraepithelial lymphocytes.

To elucidate the role of intraepithelial lymphocytes (IEL) and enterocytes in the defense mechanism of the small intestine, we designed experiments to stimulate the IEL by anti-CD3epsilon, anti-TCRalphabeta, or anti-TCRgammadelta monoclonal antibodies (mAbs), and to examine the subsequent changes to the enterocytes. The enterocytes of the duodenum and jejunum, but not of the ileum, showed massive DNA fragmentation 30 min after intraperitoneal injection of anti-CD3 mAb. These responses were also induced by anti-TCRgammadelta mAb, but not by anti-TCRalphabeta mAb, and were completely inhibited by cyclosporin A. Nearly half of the enterocytes of the villi in the duodenum and jejunum were exfoliated into the lumen 4 h after the injection of the mAb. Administration of anti-CD3 mAb also induced DNA fragmentation in Fas-deficient MRL/lpr mice, indicating that the Fas-Fas ligand system was not involved in these events. The anti-CD3 mAb treatment also induced massive DNA fragmentation in the intestinal epithelium of the duodenum and jejunum in TNF-receptor-1-deficient mice, whereas TNF-alpha induced only the detachment of intestinal epithelium of wild-type mice, implying the dissociation of two independent factors and/or mechanisms for DNA fragmentation and the subsequent epithelial cell detachment in the murine duodenum and jejunum. The mAb failed to exfoliate the epithelium in TNF-R1-deficient mice. Thus, TCRgammadelta(+) IEL, when treated with anti-CD3 or anti-TCRgammadelta mAbs, induced rapid DNA fragmentation and subsequent detachment of the duodenal and jejunal epithelia, but not in the ileum ("the silent ileum"), partly because of the paucity of TCRgammadelta(+) IELs in the ileum.

Binding of the Galanthus nivalis agglutinin to thymocytes reveals alterations in surface glycosylation during T-cell development.

Surface binding of the Galanthus nivalis agglutinin (GNA) to thymocyte subsets has been studied in pigs and rodents by multicolour flow cytometry. In all the species examined, analogous staining profiles have been recorded. Counter-staining with anti-CD3epsilon, anti-CD4 and anti-CD8 monoclonal antibodies (MoAb) revealed that a significant increase of the GNA targets on the cell surface occurred during early thymocyte differentiation and reached its maximum at the level of the CD3loCD4+CD8+ small cortical thymocyte. This was followed by a decrease in the GNA binding capacity upon terminal maturation to the single positive thymocytes. PAGE analysis has revealed a dominant GNA-binding glycoprotein (molar mass approx. 90 kDa) present on thymocyte plasma membranes and absent on the surface of splenic lymphocytes, although both the whole cell lysates from both organs contained GNA ligands of the same size. Our findings are in agreement with previous data showing that immature thymocytes differ from their mature counterparts and peripheral T lymphocytes in the surface glycosylation pattern, and support the hypothesis that lectin-glycoprotein interaction plays a significant role in the cell-to-cell crosstalk in the thymic cortex.

Lipid A directly inhibits IL-4 production by murine Th2 cells but does not inhibit IFN-gamma production by Th1 cells.

Lipopolysaccharide (LPS) is known to be an immunopotentiator but its effect on cytokine production by Th1 and Th2 cells is unknown. We found that high amounts of LPS, its lipid A moiety, and a lipid A analog all induced a decrease in IL-4 production and an increase in IFN-gamma production when given to keyhole limpet hemocyanin (KLH)-restimulated lymph node cells prepared from KLH-primed mice. Lipid A was similarly found to inhibit IL-4 production by purified CD4+ T cells and Th2 clones activated with immobilized anti-CD3epsilon and anti-CD28 antibodies, suggesting that the inhibition is not indirectly mediated through effects on antigen-presenting cells. No inhibitory effect of lipid A was observed on IFN-gamma production by a Th1 clone. Production of both IL-4 by the Th2 clones and IFN-gamma by the Th1 clone were inhibited by the immunosuppressive agent cyclosporin A. These findings indicate that lipid A can directly inhibit IL-4 production by CD4+ T cells without inhibiting the production of IFN-gamma. Lipid A may therefore become a useful tool to study the intracellular events that differentiate Th1 and Th2 cells.

Regulation of Vbeta germline transcription in RAG-deficient mice by the CD3epsilon-mediated signals: implication of Vbeta transcriptional regulation in TCR beta allelic exclusion.

During the thymic development of alphabeta lineage T cells, maturation of the CD4- CD8- double-negative (DN) cells into the CD4+ CD8+ double-positive cells is accompanied by the induction of TCR beta allelic exclusion. Recent studies have shown that these events are regulated by the signals through the pre-TCR complex which consists of the TCR beta, pre-TCR alpha and CD3 components. The Vbeta germline transcripts are detected prior to the TCR beta chain gene rearrangements in the DN thymocytes. To examine the effects of the pre-TCR-mediated signals on Vbeta germline transcription, we analyzed thymocytes from RAG-2-deficient mice treated with anti-CD3epsilon antibody. The germline transcripts of all Vbeta we examined, except for Vbeta14, were down-regulated by the anti-CD3epsilon antibody treatment. These data indicate that the regulation of Vbeta germline transcription by the signals through the pre-TCR complex may reflect the modulation of Vbeta accessibility to the VDJ recombinase, which contributes to TCR beta allelic exclusion.

Immature T cells in peripheral lymphoid organs of recombinase-activating gene-1/-2-deficient mice. Thymus dependence and responsiveness to anti-CD3 epsilon antibody.

Thymocytes of mice deficient in the recombinase-activating gene (RAG)-1 or RAG-2 cannot express and receive signals through the pre-TCR. As a result, thymocyte development in these mice terminates at the CD4/8 double negative (DN), IL-2R-alpha-positive stage. Nevertheless, RAG-deficient DN thymocytes express functional CD3 complexes and can therefore be induced by anti-CD3 epsilon mAb to mature to the CD4+8+ double positive stage. In the present paper we demonstrate that the peripheral lymphoid organs (lymph nodes, spleen) and peripheral blood of RAG-deficient mice harbor an immature T cell population which, similar to RAG-deficient DN thymocytes, contains high levels of cytoplasmic CD3 epsilon and responds to anti-CD3 epsilon mAb in vivo. With respect to surface phenotype (Thy1.2+, PgP-1+, HSA+, Fc gamma RII/III-, IL-2R-alpha-, c-kit-), these cells are similar to intermediate stage RAG-deficient DN thymocytes. Moreover, they express mRNA for pre-TCR-alpha and for the nondeleted RAG. Following injection of anti-CD3 epsilon mAb, these cells proliferate, down-regulate heat stable Ag and PgP-1, and partially differentiate to CD4+ and CD8+ double positive and single positive cells. The induced population displays a mixed phenotype, between that of immature thymocytes and lymph node T cells in normal mice. Induction is successful in thymectomized RAG-deficient mice, suggesting that it occurs in the periphery. However, after thymectomy, inducible cells disappear with an approximate half-life of 10 to 14 days. We suggest that DN thymocytes can emigrate and repopulate peripheral lymphoid organs of RAG-deficient mice. These cells respond to CD3 signaling by aberrant maturation, possibly due to the inappropriate microenvironment of peripheral lymphoid organs.

T cell responses in calcineurin A alpha-deficient mice.

We have created embryonic stem (ES) cells and mice lacking the predominant isoform (alpha) of the calcineurin A subunit (CNA alpha) to study the role of this serine/threonine phosphatase in the immune system. T and B cell maturation appeared to be normal in CNA alpha -/- mice. CNA alpha -/- T cells responded normally to mitogenic stimulation (i.e., PMA plus ionomycin, concanavalin A, and anti-CD3 epsilon antibody). However, CNA alpha -/- mice generated defective antigen-specific T cell responses in vivo. Mice produced from CNA alpha -/- ES cells injected into RAG-2-deficient blastocysts had a similar defective T cell response, indicating that CNA alpha is required for T cell function per se, rather than for an activity of other cell types involved in the immune response. CNA alpha -/- T cells remained sensitive to both cyclosporin A and FK506, suggesting that CNA beta or another CNA-like molecule can mediate the action of these immunosuppressive drugs. CNA alpha -/- mice provide an animal model for dissecting the physiologic functions of calcineurin as well as the effects of FK506 and CsA.

Developmentally regulated expression of the PD-1 protein on the surface of double-negative (CD4-CD8-) thymocytes.

PD-1, a member of the Ig superfamily, was previously isolated from an apoptosis-induced T cell hybridoma 2B4.11 by subtractive hybridization. Expresson of the PD-1 mRNA is restricted to thymus in adult mice. Using an anti-PD-1 mAb (J43), we examined expression of the PD-1 protein during differentiation of thymocytes in normal adult, fetal and RAG-2(-/-) mice with or without anti-CD3 mAb stimulation. While PD-1 was expressed only on 3-5% of total normal thymocytes, approximately 34% of the CD4(-)CD8(-) double-negative (DN) fraction are PD-1(+) cells with two distinct expression levels (low and high). PD-1(high) thymocytes belonged to TCR gammadelta lineage cells. In the DN compartment of the TCR alphabeta lineage, PD-1 expression started at the low level from the CD44(+)CD25(+) stage and the majority of thymocytes expressed PD-1 at the CD44(-)CD25(-) stage in which the thymocytes express TCR beta chains. The anti-CD3epsilon antibody administration augmented the PD-1 expression as well as the differentiation of the CD44(-)CD25(+) DN cells into the CD44(-)CD25(-) DN stage, not only in normal mice but also in RAG-2-deficient mice. The fraction of the PD-1(low) cells in the CD4(+)CD8(+) double-positive (DP) compartment was very small (<5%) but increased by stimulation with the anti-CD3 antibody, although the total number of DP cells was drastically reduced. The results show that PD-1 expression is specifically induced at the stages preceding clonal selection.

T cell receptor expression by dendritic epidermal T cells.

Dendritic epidermal T cells (DETC) in murine epidermis express the gamma delta T cell receptor (TCR). The major population of DETC utilize V gamma 5 and V delta 1 without any junctional diversity, corresponding to the earliest fetal thymocytes which express TCR gamma delta. Using PCR, we recently found another population of DETC which express V gamma 1-V delta 6 with junctional diversity in addition to V gamma 5-V delta 1, although they exist in small numbers in normal mice. In athymic nude mice, V gamma 1+ cells also exist. Therefore, this subset of gamma delta T cells is the product of an extrathymic pathway. These V gamma 1+ cells may recognize mycobacterium antigen or heat shock protein (HSP), thus playing an important role in the first defense of the skin. In contrast to normal mice, in nude mice, we could not detect any DETC using anti CD3 epsilon antibody (2C11). In order to solve this puzzle, we examined the components of TCR complex utilizing immunoprecipitation and northern blot analysis. TCR is composed of either alpha beta or gamma delta chains associated with CD3 gamma, delta, epsilon and zeta-zeta chains. By immunoprecipitation of 125I labelled DETC cell lines using anti-CD3 epsilon antibody, we detected gamma delta chains and CD3 gamma and CD3 epsilon chains, but not CD3 delta or CD3 zeta chains. Northern blot analysis showed that these cells express CD3 gamma, epsilon, and zeta chains, but not the CD3 delta chain.(ABSTRACT TRUNCATED AT 250 WORDS)

Developmentally regulated expression of CD3 components independent of clonotypic T cell antigen receptor complexes on immature thymocytes.

CD3 signal transducing proteins are thought to be expressed on the surface of T cells only as part of clonotypic T cell receptor (TCR) complexes. Contrary to this paradigm, the present study describes surface expression of CD3 proteins independently of clonotypic TCR complexes, but only on immature thymocytes. Such novel clonotype-independent CD3 (CIC) complexes are composed primarily of CD3 gamma epsilon and secondarily of CD3 delta epsilon heterodimers that are independent of one another and are expressed on the cell surface in association with an unknown 90-100 kD protein termed CD3-associated protein (CD3AP). CIC complexes are expressed in normal mice on early thymocytes through the CD4+CD8+ stage of development, but not on mature peripheral T cells. Furthermore, CIC complexes are expressed by both TCR- severe combined immunodeficiency (SCID) thymocytes and thymoma cell lines, in the absence of any clonotypic chains. The isolation and biochemical characterization of surface CIC complexes provides a structural basis for the signaling effects of anti-CD3 epsilon antibody treatment in early thymocyte development.

CD4 cell surface downregulation in HIV-1 Nef transgenic mice is a consequence of intracellular sequestration.

The Nef gene product is a regulatory protein of HIV whose biological function is poorly understood. Nef has been thought to have a negative effect on viral replication in vitro but has been shown in studies with SIV to be necessary in the establishment of viraemia in vivo. In vitro studies in various human cell lines have shown that Nef downregulates the expression of cell surface CD4 and thus could have effects on the immune response. We have generated four transgenic mouse lines, with constructs containing two different Nef alleles under the control of CD2 regulatory elements to examine the interaction of Nef with the host immune system in vivo. In adult transgenic mice we have found marked downregulation in the level of CD4 on the surface of double positive thymocytes and a decrease in the number of CD4+ T cells in the thymus. Functional analyses have revealed a decrease in the total activation of transgenic thymocytes by anti-CD3 epsilon antibody. By specific intracellular staining of T cells in such mice we have found CD4 colocalizing with a Golgi-specific marker. These results strongly suggest a Nef mediated effect on developing CD4 thymocytes resulting from interference of Nef in the intracellular trafficking or post-translational modification of CD4.

CD4+/CD8- thymocytes dominate the fetal thymus treated with a combination of anti-T cell receptor-beta and anti-CD4 antibodies.

Two major phenotypic changes characterize the development of a mature thymocyte from its CD4+/CD8+ (double positive or DP) precursor: the loss of expression of either CD4 or CD8 and the increase in the level of surface TCR. The specific surface interactions responsible for these changes are unknown, but studies using the fetal thymus as an experimental system have provided clues by identifying conditions that alter these maturational events. Development to the CD4+/CD8-/TCR-alpha beta high (single positive) phenotype is inhibited when thymocytes in fetal organ culture are exposed to antibodies directed against the CD4 molecule, the CD3 complex or the TCR-alpha/beta heterodimer. We show in this study, however, that treatment of fetal thymic lobes with a combination of anti-CD4 and anti-TCR-beta antibodies results in a marked increase in the proportion of mature CD4+/CD8-/TCR-alpha beta+ thymocytes and a decrease in the proportion of DP thymocytes. Although treatment of lobes with a combination of anti-CD4 and anti-CD3 epsilon antibodies also depletes cultures of DP thymocytes, the CD4+/CD8-/TCR+ population does not develop. Our results are consistent with the hypothesis that coengagement of CD4 and TCR biases development to the CD4 single positive phenotype and with observations that TCR engagement and CD3 engagement have different developmental consequences.

Analysis of protein phosphorylation patterns reveals unanticipated complexity in T lymphocyte activation pathways.

Protein kinases are considered likely to play important roles in the still dimly understood process by which mitogens induce resting T lymphocytes to enter the cell cycle. Using two-dimensional electrophoretic analysis of lysates from orthophosphate-labeled cells, we have compared patterns of phosphorylation in freshly isolated murine splenic T cells exposed to three mitogenic agents: antibody to the epsilon-chain of the TCR CD3 complex, the plant lectin Con A, and a mixture of PMA and ionomycin, which together bypass the signal transduction apparatus to activate intracellular pathways. Of 14 phosphoproteins found whose level of phosphorylation was increased (at least fivefold) by anti-CD3 epsilon antibody, 13 also responded to the mixture of PMA and ionomycin. Surprisingly, however, only 5 of these 14 also responded strongly to Con A exposure. We also identified two substrates that were phosphorylated in response to Con A but not to anti-CD3. Phosphorylation patterns were also studied in T cells exposed to either PMA or ionomycin alone, to gain further insight into the role of protein kinase C and calcium-dependent events in the activation process. Of 16 phosphoproteins that responded to mixtures of PMA and ionomycin, 4 were shown to require the ionomycin signal, 2 to require the PMA signal, and 3 others to respond only when both activators were present; the other 7 responded to either agonist added alone. In addition, we found two PMA-sensitive phosphoproteins in which phosphorylation was inhibited by ionomycin induced calcium signals. Finally, we identified several phosphoproteins which show differential responsiveness in CD4+ and CD8+ T cells. Classification of kinase substrates based on their differential susceptibility to these stimuli should provide new insights into the mode of action of agents and diseases that affect T cell activation.

Surface expression of CD3 in the absence of T cell receptor (TcR): evidence for sorting of partial TcR/CD3 complexes in a post‐endoplasmic reticulum compartment

The T cell receptor (TcR) for antigen, on the majority of T cells, is a disulfide-linked heterodimer composed of the alpha and beta chains, noncovalently associated with the CD3 complex of polypeptides (gamma, delta, epsilon and zeta). In this report, two murine thymoma cell lines are described which synthesized incomplete TcR/CD3 complexes and expressed low levels of CD3 on their surface in the absence of the TcR chains. The partial TcR/CD3 complexes were composed primarily of the inherently metabolically stable CD3 gamma and epsilon subunits. These results were in contrast to previous studies, which suggested that synthesis of all of the component chains of the TcR/CD3 complex is required for the successful transport of any of the chains to the cell surface. The efficiency of transport of the partial TcR/CD3 complexes from the endoplasmic reticulum (ER) to medial Golgi in the two thymomas was similar to complete complexes. However, the transport of the incomplete receptors was impaired at some point between the medial Golgi and the plasma membrane. Taken together with previous studies, these results suggested that T cells have mechanisms to retain partial TcR/CD3 complexes intracellularly both in the ER and in an undefined post-ER compartment. However, the transport of low levels of partial TcR/CD3 complexes to the cell surface in some T cell lines implied that the retention mechanisms may not always be completely efficient. Cross-linking of the surface, partial TcR/CD3 complexes with anti-CD3 epsilon antibodies did not stimulate interleukin 2 (IL 2) production. It is possible, however, that the partial TcR/CD3 complexes have some function which is unrelated to the stimulation of IL 2 production.

Monoclonal antibodies to murine CD3 epsilon define distinct epitopes, one of which may interact with CD4 during T cell activation.

The TCR is comprised of two variable chains that confer specificity, called alpha:beta or gamma:delta, physically associated with five different molecules that comprise the complex known as CD3. Antibodies to this complex are very useful, as they react with all T lymphocytes. A rat mAb to mouse CD3 has been prepared. It reacts with 100% of T cells in all mouse strains tested but with no other cell type. It binds to the CD3 epsilon chain. This antibody activates cloned T cell lines and normal T cells, provided suitable accessory cells and signals are present. This antibody detects a determinant similar to but not identical with those detected by two previously reported hamster anti-CD3 epsilon antibodies. This antibody fixes C efficiently, and it is thus useful for depletion of T cells from bulk populations. Activation of T cells by one of the three different anti-CD3 epsilon antibodies was inhibited by the Fab fragment of anti-CD4, similar to the effects of anti-CD4 Fab on two previously reported anti-TCR V region antibodies that bind a CD3 epsilon-associated epitope. This further defines a site involving TCR V regions and CD3 epsilon with which CD4 appears to associate during T cell activation.