Distinct functions of CD8(CD4) are utilized at different stages of T-lymphocyte differentiation

Uncovering a novel role of PLCβ4 in selectively mediating TCR signaling in CD8+ but not CD4+ T cells

Because of their common signaling molecules, the main T cell receptor (TCR) signaling cascades in CD4⁺ and CD8⁺ T cells are considered qualitatively identical. Herein, we show that TCR signaling in CD8⁺ T cells is qualitatively different from that in CD4⁺ T cells, since CD8α ignites another cardinal signaling cascade involving phospholipase C β4 (PLCβ4). TCR-mediated responses were severely impaired in PLCβ4-deficient CD8⁺ T cells, whereas those in CD4⁺ T cells were intact. PLCβ4-deficient CD8⁺ T cells showed perturbed activation of peripheral TCR signaling pathways downstream of IP₃ generation. Binding of PLCβ4 to the cytoplasmic tail of CD8α was important for CD8⁺ T cell activation. Furthermore, GNAQ interacted with PLCβ4, mediated double phosphorylation on threonine 886 and serine 890 positions of PLCβ4, and activated CD8⁺ T cells in a PLCβ4-dependent fashion. PLCβ4-deficient mice exhibited defective antiparasitic host defense and antitumor immune responses. Altogether, PLCβ4 differentiates TCR signaling in CD4⁺ and CD8⁺ T cells and selectively promotes CD8⁺ T cell–dependent adaptive immunity.

Lipid rafts are required for efficient signal transduction by CD1d

Plasma membranes of eukaryotic cells are not uniform, possessing distinct cholesterol- and sphingolipid-rich lipid raft microdomains which constitute critical sites for signal transduction through various immune cell receptors and their co-receptors. CD1d is a conserved family of major histocompatibility class I-like molecules, which has been established as an important factor in lipid antigen presentation to natural killer T (NKT) cells. Unlike conventional T cells, recognition of CD1d by the T cell receptor (TCR) of NKT cells does not require CD4 or CD8 co-receptors, which are critical for efficient TCR signaling. We found that murine CD1d (mCD1d) was constitutively present in the plasma membrane lipid rafts on antigen presenting cells, and that this restricted localization was critically important for efficient signal transduction to the target NKT cells, at low ligand densities, even without the involvement of co-receptors. Further our results indicate that there may be additional regulatory molecule(s), co-located in the lipid raft with mCD1d for NKT cell signaling.

Anti-proliferative effects induced by anti-CD4 human/murine chimeric antibody and murine anti-CD4 monoclonal antibody

The effects of chimeric anti-CD4 human/murine chimeric antibody and murine anti-CD4 monoclonal antibody (McAb) on the proliferation induced by anti-CD3 McAb, phytohemagglutinin (PHA), IL-2, and allogeneic cells were studied. The results showed that chimeric anti-CD4 antibody and murine anti-CD4 McAb could inhibit the proliferation induced by the above inducers and the inhibitory effects were related to the dosage of the antibodies.

Critical role for CD8 in T cell receptor binding and activation by peptide/major histocompatibility complex multimers

Recent data using MHC/peptide tetramers and dimers suggests that the T cell coreceptors, CD4 and CD8, although important for T cell activation, do not play a direct role in facilitating T cell receptor (TCR) binding to multivalent MHC/peptide ligands. Instead, a current model proposes that coreceptors are recruited only after a stable TCR-MHC/peptide complex has already formed and signaled. In contrast, we show using multimeric class I MHC/peptide ligands that CD8 plays a critical (in some cases obligatory) role in antigen-specific TCR binding. T cell activation, measured by calcium mobilization, was induced by multimeric but not monomeric ligands and also showed CD8 dependency. Our analysis using anti-CD8 antibodies revealed that binding to different epitopes of CD8 can either block or augment TCR-MHC/peptide interaction. These effects on TCR binding to high-affinity agonist ligands were even more pronounced when binding to multimeric low-affinity ligands, including TCR antagonists, was studied. Our data have important implications for the role of CD8 in TCR binding to MHC/peptide ligands and in T cell activation. In addition, our results argue against the view that multimeric MHC/peptide ligands bind directly and solely to the TCR; rather, our data highlight a pivotal contribution of CD8 for this association.

A primatized MAb to human CD4 causes receptor modulation, without marked reduction in CD4+ T cells in chimpanzees: in vitro and in vivo characterization of a MAb (IDEC-CE9.1) to human CD4

A Primatized anti-CD4 monoclonal antibody (MAb), CE9.1, with V-domain from cynomolgus macaque (showing 92% homology with human consensus sequence V-domains), and a human IgG1 constant region, was characterized in vitro and in vivo in chimpanzees. This MAb binds human CD4 with Kd of 1.0 nM and was also able to bind to human IgG Fc receptors (Fc gamma R). However, despite being of the IgG1 subclass, CE9.1 did not bind to complement component C1q, nor did it mediate complement-dependent cytotoxicity. Examination of T cells from a number of species showed restricted reactivity for CE9.1, recognizing only human and chimpanzee CD4. In both human and chimpanzee MLRs, it had an IC50 of about 10.0 ng/mL. Therefore, a chimpanzee in vivo model was used to characterize CE9.1, CE9.1 caused transient decrease in the number of lymphocytes bearing the CD4 receptor starting at doses of 0.3 mg/kg in an in vivo dose ranging study in one chimpanzee. This effect was reversed within approximately 7 days. In a multiple high-dose study in which 10.0 mg/kg of CE9.1 was administered at intervals of 1-3 months, there was a dramatic loss of CD4 marker with a reciprocal increase in the number of CD3+ CD8- CD4- cells. The CD4 receptor was totally undetectable on these lymphocytes for 1-2 weeks, with a gradual, but complete, reversal within 4 weeks. We interpret these observations as receptor modulation because, although there was apparent loss of CD4+ lymphocytes, an equivalent number of CD3+CD8- T lymphocytes were present in circulation in all four chimpanzees treated with 10.0 mg/kg CE9.1. Even at this high dose, only limited reduction of CD4+ T lymphocytes was observed in these animals. These observations are in sharp contrast to what has been reported in rodents or in human clinical studies using other IgG1 mAbs to human CD4. CD8 counts, although variable, remained unaffected by CE9.1 treatment. No adverse events were observed following administration of CE9.1 to chimpanzees, and there was no detectable host immune responses to the Primatized MAb.

Molecular interactions in the activation of effector and precursor cytotoxic T lymphocytes

Cell-cell interactions are influenced by parameters that cannot readily be studied using either intact cells or soluble molecules. Replacing one of the pair of interacting cells with an artificial cell surface construct allows novel insights to be gained into some of these parameters. Application of this approach to the study of CTL has helped to clarify the contrasting roles of some of the various receptors that are involved in recognition, adhesion and activation. In addition, it has revealed features of these receptor ligand interactions that help to explain how CTL are able to carry out effective immune surveillance and elimination of virus-infected or tumor cells. Although not discussed in this review, artificial cell surface constructs have also been effectively employed to study the interaction of TH cells with class II bearing surfaces. Class I protein and peptide antigen can be sufficient to mediate adhesion and activate CTL effector function through the TCR and CD8. In addition, interactions of other co-receptors with their ligands can act along with TCR and CD8 in a cascade of activated adhesion and co-stimulatory signal generation to allow adhesion and response when antigen and/or class I surface densities are too low to be sufficient by themselves to initiate response. The relative contributions of the various receptor/ligand interactions to a given CTL/target encounter will depend upon the affinity of the TCR for antigen and on the densities and types of ligands, including antigen, displayed on the target cell surface. It appears that the CTL has the ability to accomplish its task in a variety of ways, providing it with considerable flexibility in recognizing and eliminating antigen-bearing target cells. Thus, downregulation of any one particular ligand on a virus-infected or tumor cell does not allow escape from CTL surveillance provided that at least a low level of class I antigen remains present. The CTL is able to employ several co-receptors specific for ligands common to many cell types without being diverted from effective immune surveillance, since these receptors only become activated to mediate high-avidity adhesion when antigen is detected by the TCR. Cloned effector CTL are most amenable to studies of the kind reviewed here, since large numbers of homogenous cells can be obtained, antigen-specific adhesion can be readily measured and response is rapid and easily quantitated.(ABSTRACT TRUNCATED AT 400 WORDS)

Induction of an autoimmune response against syngeneic lymphoma cells by immunogenic 64-kDa protein isolated from normal blast cells of BALB/c mice

Immunogenic proteins with identical molecular mass (64 kDa) were purified from a syngeneic spontaneous T cell leukaemia line, designated LB3, and lymphoblast extracts both derived from BALB/c mice. The 64-kDa protein was purified by a sequence of biochemical steps from cell extracts containing protease inhibitors. The following steps were included in the purification pathway: Sephadex G-100 gel filtration, anion-exchange chromatography, concanavalin A (ConA) affinity chromatography, and preparative gel electrophoresis. The immunogenic fraction isolated in each step was subjected to the next step along the purification pathway. The immunogenicity of the separated fractions was measured by a lymph-node proliferation assay, which is indicative of delayed-type hypersensitivity. The final 64-kDa isolated protein of blast cells induced in BALB/c mice an efficient lymph-node proliferation response, which was detected in the regional lymph node after challenge with the final isolated protein of LB3 cells and vice versa. In addition to their identical molecular mass, both proteins were eluted from an anion-exchange column with the same NaCl concentration (0.57 M) and both expressed affinity to the ConA-Sepharose column, suggesting that they are glycosylated. The specificity of the immunological responses induced or elicited with the various isolated proteins was also shown. The implications of these findings are discussed.

The cysteine residues in the cytoplasmic tail of CD8 alpha are required for its coreceptor function

The cytoplasmic segment of the CD8 alpha polypeptide includes both a cysteine-containing motif that is required for its association with the tyrosine kinase p56lck, and two serine residues which are likely to be phosphorylated and involved in inside-out signaling phenomena. To determine the relative importance of these residues for CD8 function, a mouse T cell hybridoma expressing a T cell receptor specific for the class I major histocompatibility product H-2Kb was transfected with a set of CD8 alpha chain genes encoding polypeptides in which the cytoplasmic cysteine or serine residues were substituted with alanine. When challenged with Kb-transfected L cells, T cell transfectants expressing CD8 alpha beta or CD8 alpha alpha dimers with substituted cytoplasmic serine residues responded nearly as well as wild-type CD8 transfectants. In marked contrast, the CD8 alpha polypeptides bearing substitutions of both cytoplasmic cysteine residues were totally impaired in their ability to complement the co-expressed T cell receptor.

The roles of CD8 in cytotoxic T lymphocyte function

The CD8 glycoprotein of cytotoxic T cells is both an adhesion protein and a cosignalling receptor. These functions are regulated by signals from the T-cell antigen receptor complex (TCR-CD3), and CD8 acts to couple TCR occupancy to second messenger pathways. Here Anne O'Rourke and Matthew Mescher examine the roles of CD8 in activating the adhesion and signalling cascade initiated by antigen binding.

Distinct roles for CD4 and CD8 as co-receptors in antigen receptor signalling

The co-ordinated interactions of multiple membrane molecules with the T-cell receptor for antigen (the TCR-CD3) are prerequisite for T-cell activation. In this review we consider the involvement of CD4, CD8, and CD45 on the two lymphocyte lineages. Experiments from many laboratories have provided concordant results leading to the consensus that CD4 and CD8 are functional analogues, providing similar supplementary signals to those generated through the TCR-CD3 complex on MHC class-II- and MHC class-I-restricted T cells, respectively. However, recent results demonstrate striking differences in the coreceptor functions of CD4 and CD8. These differences reflect the distinct properties of the molecules themselves, which in turn are associated with CD45 involvement in the activation of CD4+ and CD8+ T cells.

Expression of murine soluble CD4 protein in baculovirus infected insect cells

The expression of murine soluble CD4 (L3T4) protein (sCD4) by baculovirus-infected insect cells was characterized. The yield of sCD4 reached 2 mg/l culture supernatant late in infection. Nevertheless, a large amount of sCD4 remained cell-associated, presumably in the endoplasmic reticulum or an early golgi compartment, as indicated by the endo-beta-N-acetyl-D-glucosaminidase H (endo-H) sensitivity of its carbohydrate chains. The secreted form of sCD4 is modified with both endo-beta-N-acetyl-D-glucosaminidase D (endo-D) and endo-H-sensitive oligosaccharides. It was possible that the incomplete secretion indicated faulty glycosylation or improper folding of the sCD4 protein. However, inhibitor studies showed that complete carbohydrate processing is not required for secretion of sCD4 by insect cells. Moreover, maintained reactivity with a panel of monoclonal Ab as well as phase partitioning experiments suggested that secretion is apparently not caused by misfolding of the sCD4 protein. Similar results were obtained with biologically active murine interleukin-4 produced by insect cells. This indicates that an inefficient secretory pathway may be a general problem of baculovirus-infected insect cells and is not a consequence of incorrect molecular conformation.

Biochemical evidence of the physical association of the majority of CD3 delta chains with the accessory/co-receptor molecules CD4 and CD8 on nonactivated T lymphocytes

The association of components of the CD3 complex with the accessory molecules CD4 and CD8 was studied by immunoprecipitation experiments followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) analysis. Enhanced surface iodination was achieved by a water-soluble derivative of the Bolton-Hunter reagent. Using freshly isolated nonactivated splenic T cells, we find that antibodies to CD4 and to CD8 strongly co-precipitate a 28-30-kDa band identical in mobility to the delta chain of the CD3 complex. Components corresponding in mobility to the epsilon and gamma chains of the CD3 complex are also co-precipitated but to a much lesser extent. The identity of the co-precipitated 28-30-kDa material with the CD3 delta chain was ascertained by two-dimensional nonreducing/reducing SDS-PAGE, by two-dimensional non-equilibrium pH gradient electrophoresis/SDS-PAGE and by one-dimensional peptide mapping with three different proteases. The co-precipitated 28-30-kDa material was identical to the CD3 delta chain by all these criteria. Quantitative analyses by densitometric gel tracing revealed that the amounts of CD3 delta co-precipitated with anti-CD4 and anti-CD8 add up to those in anti-V beta precipitates and to an average of 90% of those in anti-CD3 epsilon precipitates. We conclude that the majority of CD3 delta chains are associated with the accessory/co-receptor molecules CD4 or CD8 on resting T cells, and that this association is independent of antigen-specific recognition by the T cell receptor.

In vivo and in vitro death of mature T cells induced by separate signals to CD4 and alpha beta TCR

To investigate whether a clonal deletion mechanism is responsible for the mature T cell tolerance that may be induced in vivo by TCR signal to anti-CD4 (H129.19 mAb) coated cells, we analyzed the T cell repertoire in anti-CD4 mAb treated BALB/c mice by flow cytometry following TCR signals through anti-alpha beta TCR mAb or SEB superantigen. Lymph nodes showed a strong reduction in the CD4+/CD8+ cell ratio, and a selective clonal loss of CD4+ V beta 8+ cells 4d following anti-alpha beta TCR or SEB injection, respectively. Following lymph node cell activation in a short-term in vitro assay with SEB or anti-V beta 8 mAb, a selective elimination of CD4+ V beta 8+ cells was again detected, and DNA fragmentation analysis disclosed a cell death by apoptosis. These findings suggest that TCR triggering transduces an apoptotic signal into CD4+ mAb saturated cells that in turn leads to specific holes in the mature T cell repertoire.

Expression of cell adhesion molecules in human melanoma cell lines and their role in cytotoxicity mediated by tumor-infiltrating lymphocytes

The role of cell adhesion molecules (CAM) LFA1, ICAM-1, LFA3, VLA1, VLA4, CD29, CD44, and CD56 in tumor-infiltrating lymphocyte (TIL) and natural killer cell (NK)-mediated killing of target cells was studied. Melanoma cell lines and autologous TIL were derived from seven patients with metastatic melanoma, and cytotoxicity assays were done in the presence and absence of monoclonal antibodies (MoAb) to CAM expressed on melanoma cells or TIL. The melanoma cell lines analyzed were all positive for CD29 and LFA3 expression, negative for LFA1 expression, but showed variable expression of ICAM-1, VLA1, VLA4, CD44, and CD56. The effects of anti-CAM antibodies on TIL-mediated melanoma killing fell into three categories: (1) consistent inhibition of TIL-mediated killing was observed when melanoma cells were pretreated with anti-ICAM1 and anti-LFA-3 MoAb or when TIL were pretreated with anti-LFA1; (2) no effect was observed when melanoma cells were pretreated with anti-CD56; or (3) a discreet, but significant, inhibition was observed when target cells were pretreated with anti-CD29, anti-VLA1, anti-VLA4, and anti-CD44. Cytotoxicity was significantly enhanced by pretreatment of target cells with gamma-interferon (gamma-IFN), although gamma-IFN did not augment surface expression of the CAM studied. The NK-mediated killing of K562 cells was blocked by anti-LFA1, anti-CD18, and anti-ICAM, and partially inhibited by anti-CD44 MoAb. Together, these results suggest that several accessory CAM may play a role in regulating cellular cytotoxicity. Because cytotoxicity generally correlated with the level of expression of CAM in melanoma cells, weak CAM surface expression may provide a means for melanomas to escape immune surveillance.

Triggering of the proteinase dipeptidyl peptidase IV (CD26) amplifies human T lymphocyte proliferation

CD26 (Ta1, dipeptidyl peptidase IV) is a Mr 105,000 protein expressed at high levels on activated T lymphocytes and is a potential marker of memory T cells. Reciprocal immunodepletion and solid phase double determinant binding studies showed that mAb AC7 and the CD26-specific mAb anti-Ta1 reacted with spatially distinct sites on the same molecule. The proteinase dipeptidyl peptidase IV (DPP IV) was immunoprecipitated with mAb AC7 and its enzymatic activity directly assayed using an enzyme overlay membrane system. High levels of DPP IV activity were detected on the T cell tumor line CCRF-HSB-2 and on PBMC stimulated by a variety of methods. By itself, soluble mAb AC7 was not mitogenic for T cells but enhanced T cell proliferation that resulted from treatment with phorbol myristic acetate (PMA) in the presence of accessory cells. T cell proliferation was also induced by co-immobilized mAb AC7 and mAb OKT3 (anti-CD3). Cultures of T cells growing in the presence of IL-2 responded with accelerated growth when exposed to a combination of immobilized mAb AC7 and soluble mAb OKT3, a result not seen with freshly isolated T cells.

Regulation and functional involvement of distinct determinants of leucocyte function-associated antigen 1 (LFA-1) in T-cell activation in vitro

The expression of leucocyte function-associated antigen 1 (LFA-1) was studied by immunofluorescence method on human peripheral blood mononuclear cells (PBMC) stimulated by the phytohaemagglutinin lectin (PHA). Monoclonal antibodies (MoAb) Mas 191c, IOT18 (directed against the beta-chain, 95 kDa, CD18) and IOT16, SPVL7, MHM24 (identificating the alpha-chain, 180 kDa, CD11a) were used, defining the 'CD11a/CD18' antibody panel. By means of cross-linking or competitive experiments, we showed that these antibodies recognized at least four distinct and spatially distant domains on the LFA-1 molecule. Immunofluorescence analysis revealed that the up-regulation of LFA-1 expression was a late event, similar to the expression kinetics of the HLA DR and CD38 molecules, and followed the appearance of CD25 and CD71 molecules. Moreover, it was established that the LFA-1 up-regulation required mRNA and protein synthesis. Functional activity comparison of the different anti LFA-1 MoAb showed that the CD11a MoAb significantly inhibited the proliferation of lymphocytes stimulated by the phytohaemagglutinin to various extents, as the LFA-1 alpha determinant identified. By contrast, the CD18 MoAb did not influence strongly this cell process. We observed only a dim inhibitory effect with the CD18 MoAb recognizing an epitope common or very close to an LFA-1 alpha determinant. These results suggested that the LFA-1 antigen was important, at a molecular level, in the regulation of T-cell activation.

Are soluble monocyte-derived HLA class II molecules candidates for immunosuppressive activity?

Supernatants of human blood monocyte cultures suppressed PHA responses (IL-2 synthesis, IL-2R expression, DNA synthesis) of autologous and allogeneic lymphocytes. The main suppressive activity was found in the 65-kDa (and 23-kDa) range. It could be incompletely neutralized by mAb specific for a non-polymorphic HLA DR determinant and could also be adsorbed to and eluted from an anti-DR immunoabsorbent column. On blots of monocyte lysates and monocyte culture supernatants, the mAb RoDR recognized antigens of nearly the same Mr. The hypothesis that soluble HLA DR alpha beta heterodimers or beta chains are likely candidates for the suppressor factor was confirmed by analogous effects of purified HLA DR molecules. We favor a model in which soluble MHC class II molecules (in contrast to surface-bound ones) may interfere with the association and cross-linking processes necessary for T cell activation by competing for CD4 binding sites.

Functional characteristics of the intercellular adhesion molecule-1 (CD54) expressed on cytotoxic human blood lymphocytes

We have shown that intercellular adhesion molecule-1 (ICAM-1) (CD54) positive cells are mainly responsible for the natural cytotoxic function of human blood lymphocytes. The evidences were the inhibition of cytotoxicity by anti-ICAM-1 (LB-2) monoclonal antibodies (mAb) and the loss of lytic activity after removal of the ICAM-1+ cells. In addition, the cytotoxic potential of the separated ICAM-1- lymphocyte population after activation appeared in parallel with the expression of this molecule. The ICAM-1+ lymphocytes lysed both LFA-1 (CD11a/CD18 or Leu-CAMa) positive and negative cell lines, and pretreatment of the effectors with the LB-2 mAb also inhibited the lysis of LFA-1- targets. The results point to a yet unrecognized role of ICAM-1 on the lymphocytes. Kinetics experiments suggested that pretreatment of lymphocytes with alpha-ICAM-1 (LB-2) mAb did not inhibit the promptly established lytic interactions but influenced later events, recycling and/or recruitment of effectors. It is possible that the cytotoxic potential is regulated by contacts between the members of the lymphocyte population and that these events occur via their ICAM-1 and LFA-1. Exposure of lymphocytes to NK-sensitive targets for 16 hr elevated their cytotoxic potential. The function of activated lymphocytes was not inhibited by the LB-2 mAb.

Transmembrane signalling via HLA-DR molecules on T cells from a Sezary T-cell leukaemia line

The human Sezary T-cell leukaemia line, HUT.78, represents a population of activated T cells, i.e. they are HLA-DR+ and IL-2R+. We have analysed the capacity of HUT.78 cells (1) to stimulate HLA-DR-specific T-cell lines or clones and (2) to be induced to synthesize IL-2 by anti-HLA-DR monoclonal antibodies. The results of our experiments show that HLA-DR molecules on HUT.78 cells can stimulate at least one HLA-DR-specific T-cell clone and can act as transmembrane signal transmitters.

Elucidating the pathogenesis of autoimmune disease: recent advances at the molecular level and relevance to oral mucosal disease

Humoral and/or cellular immune responses directed against self antigen are currently thought to underlie a wide spectrum of systemic and organ-specific human and animal autoimmune diseases. Although the immunopathology of these diseases has been well characterized in most cases, the etiology still remains obscure. In order to gain a more fundamental insight of the abnormal processes leading to autoimmunity, efforts are currently being directed toward defining these diseases at a molecular level. Because of the clinical diversity and immunological complexity of these diseases, several directions are being pursued. Relevant to autoimmune oral disease, this review will focus on antigen processing and recognition (immunoglobulin and T cell receptor genes), the key role of the major histocompatibility complex, and the involvement of the cytokine network. Advances made in these fields have clear relevance for future diagnostic and therapeutic strategies related to autoimmune diseases affecting oral tissues.

Anti-CD4 modifies the kinetics but not the magnitude of anti-CD3-induced interleukin 2 production in peripheral T cells

We have studied the effect of T cell receptor (TcR) cross-linking and TcR-CD4 cross-linking on the induction of interleukin (IL) 2 and IL 2 receptor mRNA expression in peripheral T cells. We confirm our previous results using bioassays, suggesting that CD4 is involved in T cell activation by up-regulating the expression of IL 2 receptors. Furthermore, we show that this also concerns other functional T cell genes such as IL 4 and interferon-gamma. In contrast, similar levels of IL 1 mRNA are found in T cells activated with anti-CD3 with and without anti-CD4 antibody, suggesting that the induction of the IL 2 gene is regulated by TcR cross-linking alone and not influences by CD4. However, anti-CD4 appears to accelerate the induction of IL 2 mRNA in the T cell populations, presumably by a more rapid adhesion of the cells to the antibody-coated surface.

CD4-CD8- human T cells: phenotypic heterogeneity and activation requirements of freshly isolated "double-negative" T cells

In the present study we have analyzed the in vitro activation requirements of freshly isolated CD4-CD8- "double-negative" (DN) human peripheral blood T cells. DN cells were isolated from E+ cells by removal of CD4+, CD8+, and CD16+ cells through consecutive steps of C'-mediated lysis and panning. While the majority (79.0 +/- 12.0%) of DN cells were TCR gamma delta+ as shown by staining with mAb TCR delta-1, a minor fraction (6.7 +/- 4.7%) expressed TCR alpha beta as revealed by staining with mAb BMA031. Within the gamma delta+ DN fraction, most cells reacted with mAb Ti gamma A which delineates a V gamma 9JPC gamma 1 epitope, whereas a minor fraction stained with mAb delta TCS-1 which identifies a V delta 1J delta 1 epitope. Functional studies performed at low cell number (1000) per microculture indicated that DN cells can be activated by anti-CD3 mAb, PHA and allogeneic stimulator cells, provided that exogenous growth factors are supplied. Both rIl-2 and rIl-4 acted as efficient growth factors for DN cells, and a synergistic stimulatory effect of rIl-2 and rIl-4 was observed when DN cells were cocultured with allogeneic LCL stimulator cells. As compared to unseparated E+ cells, isolated DN responder cells had a reduced capacity to secrete Il-2 upon PHA stimulation in the presence of LCL feeder cells. The majority of DN cells maintained their CD3+ CD4-CD8- phenotype upon coculture with allogeneic LCL stimulator cells. These data demonstrate that CD3+ DN cells in human peripheral blood are heterogeneous with respect to TCR expression. In addition, they show that freshly isolated DN cells are deficient in Il-2 production but may be normally stimulated by anti-CD3, PHA, or alloantigen if exogenous growth factors (rIL-2 and/or rIl-4) are provided.

Positive and negative immunoregulation through CD4 depends on the concentration of the specific ligand and on the state of activation of the responding cells

In order to better define the functional role of the interaction of CD4 polypeptide with the T-cell receptor (TCR) complex, we analysed the effect of an anti-CD4 monoclonal antibody (mAb) on T-cell activation and on the modulation of expression of CD3, CD4 and TCR variable (V) regions. The results presented here demonstrate that both positive and negative modulation of CD3 and TCR V regions can be obtained with different concentrations of the same anti-CD4 mAb and that these effects are functionally directly related to differences in IL2-receptor expression. Moreover, our data show that the dose of anti-CD4 mAb required for modulating CD3- and CD4-molecule expression on activated E+ peripheral blood mononuclear cells is at least 30 times higher than that required to obtain the same effect on resting cells. Thus, our results demonstrate that the interaction of CD4 molecule with its ligand can result in both up and downregulation of TCR and IL2-receptor expression, and that this differential modulation is strictly dependent on the concentration of available ligand as well as on the activation state of the responding cells.

A signaling role for the cytoplasmic segment of the CD8 alpha chain detected under limiting stimulatory conditions

To test for the functional importance of the cytoplasmic segment of the CD8 molecule, a mouse T-cell hybridoma expressing a T-cell receptor specific for the class I major histocompatibility complex product H-2Kb was transfected with a set of CD8 alpha-chain (Ly-2) and/or beta-chain (Ly-3) genes encoding polypeptides with carboxyl-terminal truncations or substitutions. When challenged with Kb-positive splenocytes, transfectants expressing Ly-2 homodimers that lacked cytoplasmic tails responded nearly as effectively as wild-type Ly-2 transfectants. However in marked contrast to the wild-type Ly-2 transfectants, tailless Ly-2 transfectants were greatly impaired in their ability to respond to Kb-transfected L cells. Coexpression of the Ly-3 gene did not restore this impaired response. The unique functional property of the Ly-2 alpha cytoplasmic segment was further supported by the analysis of a chimeric Ly-3 subunit in which the cytoplasmic segment was replaced by the one from the Ly-2 alpha subunit. When associated with a soluble Ly-2 subunit lacking a transmembrane segment, the chimeric Ly-3 was indeed sufficient to restore the response to Kb-transfected L cells. Since the lateral mobility of the tailless Ly-2 molecules on the cell surface was nearly identical to that of the wild-type Ly-2 molecules, their partially impaired function may indicate that they have lost their cis-acting signaling properties but retained their ability to bind class I products of the major histocompatibility complex.

Phosphorylation and down-regulation of CD4 and CD8 in human CTLs and mouse L cells

The CD4 and CD8 molecules are rapidly phosphorylated following exposure of CD4+ or CD8+ human cytotoxic T lymphocytes (CTL) clones to B-lymphoblastoid cell lines bearing the relevant target alloantigens. Treatment of CD4+ or CD8+ CTL clones with phorbol myristate acetate (PMA), phytohemagglutinin, or mitogenic combinations of CD2-specific antibodies also resulted in CD4 or CD8 phosphorylation. Down-regulation of the surface expression of these molecules could be demonstrated in both CD4+ and CD8+ clones following exposure to the relevant alloantigen or PMA. Parallel experiments were conducted using mouse L cells in which the human CD4 or CD8 antigens were stably expressed. Exposure of these transfectants to PMA induced rapid phosphorylation of the CD4 and CD8 molecules. As in CD4+ CTL clones, rapid modulation of the CD4 antigen could be demonstrated in L cells following PMA treatment. In contrast, there was no demonstrable down-regulation of the CD8 antigen in PMA-treated CD8+ L cell transfectants. These studies demonstrate a significant differential property of the CD4 and CD8 antigens and suggest that down-regulation of the CD8 antigen may require its expression in a T-cell environment and/or the association of CD8 with the T-cell receptor or other T cell-specific molecules.