Pleiotropic loss of activation pathways in a T-cell receptor alpha-chain deletion variant of a cytolytic T-cell clone

Chromosome aberration frequency in rat peripheral lymphocytes increases with repeated dosing with hexamethylphosphoramide or cyclophosphamide

Although there are several in vivo tests for potential genotoxicity, with the possible exception of the transgenic rodent mutation models, none is specifically intended to assess increasing damage with chronic administration. In principle, peripheral blood lymphocytes would be expected to accumulate DNA damage with repeated dosing because the majority are not in active division and appear to have limited DNA repair capability, and they are exposed to plasma levels of test materials and metabolites. However, there appear to be no published reports confirming this principle. Therefore, in the current study, after optimising culture conditions for rat lymphocytes in this laboratory, rats were given oral doses of cyclophosphamide or hexamethylphosphoramide (HMPA) for up to 28 days and peripheral lymphocytes analysed for chromosome aberrations at various time points. The results clearly show that, for both compounds, doses that gave no significant increases in aberration frequency after 2 days induced clear increases after 15 days with further damage detectable after 28 doses. With HMPA, it was shown that DNA damage persisted for at least 10 days after cessation of treatment. These data show that repeat dose studies in the rat measuring chromosome aberration frequency in lymphocytes can give a genuine indication that genotoxicity may increase with chronic administration and, therefore, maybe useful in assessing the risk of potentially genotoxic substances.

Involvement of a Golgi-resident GPI-anchored protein in maintenance of the Golgi structure

The Golgi apparatus consists of a series of flattened cisternal membranes that are aligned in parallel to form stacks. Cytosolic-oriented Golgi-associated proteins have been identified that may coordinate or maintain the Golgi architecture. Here, we describe a novel GPI-anchored protein, Golgi-resident GPI-anchored protein (GREG) that has a brefeldin A-sensitive Golgi localization. GREG resides in the Golgi lumen as a cis-oriented homodimer, due to strong interactions between coiled-coil regions in the C termini. Dimerization of GREG as well as its Golgi localization depends on a unique tandem repeat sequence within the coiled-coil region. RNA-mediated interference of GREG expression or expression of GREG mutants reveals an essential role for GREG in maintenance of the Golgi integrity. Under these conditions, secretion of the vesicular stomatitis virus glycoprotein protein as a marker for protein transport along the secretory pathway is inhibited, suggesting a loss of Golgi function as well. These results imply the involvement of a luminal protein in Golgi structure and function.

In vitro induction of immunoglobulin A (IgA)- and IgM-secreting plasma blasts by cholera toxin depends on T-cell help and is mediated by CD154 up-regulation and inhibition of gamma interferon synthesis

Cholera toxin (CT) and the type II heat-labile enterotoxins (LT-IIa and LT-IIb) are potent immunological adjuvants which are hypothesized to enhance the production of antibody (Ab)-secreting cells, although their mechanisms of action are not fully understood. The treatment of splenic cells with concanavalin A (ConA) plus CT enhanced the production of immunoglobulin A (IgA) and IgM by dividing cells that expressed high levels of major histocompatibility complex class II (MHC-II), CD19, and CD138 and low levels of B220 a phenotype characteristic of plasma blasts. LT-IIa or LT-IIb moderately enhanced IgA and IgM production without enhancing plasma blast differentiation. CT up-regulated CD25, CD69, CD80, CD86, and MHC-II in isolated B cells but failed to induce proliferation or differentiation. The treatment of unfractionated splenic cells with ConA plus CT induced B-cell proliferation and differentiation, but the elimination of CD4(+) T cells inhibited this effect. CT treatment of ConA-activated CD4(+) T cells up-regulated CD134 and CD154, whereas the blockage of CD40-CD154 interactions inhibited the induction of plasma blasts and Ig synthesis. The treatment of unfractionated splenic cells with CT, LT-IIa, or LT-IIb enhanced the production of interleukin-6 (IL-6) and IL-10, whereas the production of gamma interferon was inhibited in both CD4(+) and CD8(+) T cells mostly by CT. Thus, major regulatory effects of CT on lymphocytes are likely exerted early during the induction of immune responses when B and T cells initially encounter antigen. Neither LT-IIa or LT-IIb had these effects, indicating that type II enterotoxins augment Ab responses by other mechanisms.

Thy-1 signaling in the context of costimulation provided by dendritic cells provides signal 1 for T cell proliferation and cytotoxic effector molecule expression, but fails to trigger delivery of the lethal hit

Cross-linking of the GPI-anchored protein Thy-1 results in T cell proliferation and IL-2 synthesis. However, the exact function of Thy-1 in the process of T cell activation remains unknown, as does the effect of costimulation on Thy-1-driven T cell responses. In this study, we have investigated the ability of Thy-1 to substitute for traditional signal 1 in the context of costimulation provided by dendritic cells. Dendritic cells dramatically enhanced T cell proliferation and IL-2 synthesis in response to Thy-1 triggering by anti-Thy-1 mAb. This effect was not dependent on dendritic cell Fcgamma receptors, but was a result of B7-mediated costimulation (signal 2). T cells were also activated when microbeads coated with a combination of anti-Thy-1 and anti-CD28 mAbs were used to supply signals 1 and 2, respectively. Thy-1-stimulated T cells adhere to target cells and express perforin, granzyme B, and Fas ligand, but fail to kill target cells due to an inability to reorganize their secretion machinery. Moreover, in contrast to TCR signaling, Thy-1 triggering failed to induce cytotoxicity in redirected lysis assays. We conclude that Thy-1 triggering can partially substitute for signal 1, which, in combination with a strong signal 2, leads to robust T cell proliferation, IL-2 synthesis, and cytotoxic effector molecule expression, but does not induce cytolytic function. The block at the level of cytotoxic effector function that results when T cells are activated in the absence of a classical, Ag-specific signal 1 may constitute a mechanism to ensure the specificity of CTL responses and prevent potentially harmful promiscuous cytotoxicity.

Selective pharmacological inhibitors reveal differences between Thy-1- and T cell receptor-mediated signal transduction in mouse T lymphocytes

A compelling body of evidence suggests a role for Thy-1 (CD90), a cell surface glycoprotein of mouse T lymphocytes, in signal transduction resulting in T cell activation. Despite more than 3 decades of investigation, intracellular biochemical events governing the Thy-1 signaling cascade are only vaguely understood. We have employed selective pharmacological inhibitors of signaling molecules to compare downstream elements participating in the Thy-1 signal transduction pathway with those involved in the T cell receptor (TCR)/CD3-associated signaling pathway. Mitogenic anti-Thy-1 or anti-CD3 monoclonal antibody (mAb) were used to cause T cells from C57BL/6 mice to proliferate in the presence or absence of different pharmacological inhibitors. Cyclosporine A, herbimycin A, LY294002, calphostin C and PD98059 all inhibited anti-Thy-1-induced T lymphocyte proliferation, indicating the involvement of calcineurin, protein tyrosine kinases, phosphatidylinositol 3-kinase, protein kinase C, and MEK1 (MAPK kinase 1), respectively, in Thy-1 signaling. Similar results were obtained when T cells were stimulated through the TCR with anti-CD3 monoclonal antibody in the presence or absence of the different inhibitors. Interestingly, the p38 mitogen-activated protein kinase (MAPK) inhibitor SB203580 augmented anti-Thy-1-induced T cell proliferation, whereas anti-CD3-induced proliferative response was partially suppressed by the same inhibitor. The Thy-1 signal transduction pathway, therefore, shares a requirement for calcineurin and several major kinase families with the TCR signaling pathway. However, Thy-1 and TCR-associated signaling pathways are differentially regulated by p38 MAPK.

Major histocompatibility complex class II- fetal skin dendritic cells are potent accessory cells of polyclonal T-cell responses

Whereas dendritic cells (DC) and Langerhans cells (LC) isolated from organs of adult individuals express surface major histocompatibility complex (MHC) class II antigens, DC lines generated from fetal murine skin, while capable of activating naive, allogeneic CD8+ T cells in a MHC class I-restricted fashion, do not exhibit anti-MHC class II surface reactivity and fail to stimulate the proliferation of naive, allogeneic CD4+ T cells. To test whether the CD45+ MHC class I+ CD80+ DC line 80/1 expresses incompetent, or fails to transcribe, MHC class II molecules, we performed biochemical and molecular studies using Western blot and polymerase chain reaction analysis. We found that 80/1 DC express MHC class II molecules neither at the protein nor at the transcriptional level. Ultrastructural examination of these cells revealed the presence of a LC-like morphology with indented nuclei, active cytoplasm, intermediate filaments and dendritic processes. In contrast to adult LC, no LC-specific cytoplasmic organelles (Birbeck granules) were present. Functionally, 80/1 DC in the presence, but not in the absence, of concanavalin A and anti-T-cell receptor monoclonal antibodies stimulated a vigorous proliferative response of naive CD4+ and CD8+ T cells. Furthermore, we found that the anti-CD3-induced stimulation of naive CD4+ and CD8+ T cells was critically dependent on the expression of FcgammaR on 80/1 DC and that the requirement for co-stimulation depends on the intensity of T-cell receptor signalling.

Co-cultivation of CD4+ and CD8+ human T-cells leads to the appearance of CD4 cells expressing CD8 through de novo synthesis of the CD8 alpha-subunit

The appearance of a population of dual-staining CD4+CD8+ cells in human T-lymphocyte cultures has been reported by various authors, including our own observation that they are always seen in simple phytohaemagglutinin-stimulated cultures from several different donors. The purpose of the present study was to investigate factors involved in the dual-staining (DS) phenotype, and to clarify some apparent inconsistencies between published observations. Our findings can be summarised as follows. 1. A population of DS CD4+CD8+ cells always appears in PHA-stimulated T-cell cultures if they contain both CD4 and CD8 subsets. The incidence of DS cells is related to PHA concentration, but other factors are involved since DS cells are not seen in PHA-stimulated cultures of purified CD4+ or CD8+ cells. Stimulation with PHA is not a prerequisite since very similar results are seen with ConA. 2. Direct physical contact between CD4+ and CD8+ cells is required for the appearance of the DS phenotype; soluble factors alone, including IL-4, appear nor to be responsible. 3. The DS phenotype in these conditions is always CD4+ cells weakly expressing CD8 and is a consequence of de novo synthesis of the CD8alpha molecule by the CD4+ cells.

Defective TCR signaling events in glycosylphosphatidylinositol-deficient T cells derived from paroxysmal nocturnal hemoglobinuria patients

Paroxysmal nocturnal hemoglobinuria (PNH) is an acquired hemolytic disorder characterized by the presence of abnormal cells of various hematopoietic cell lineages deficient in surface expression of glycosylphosphatidylinositol (GPI)-anchored molecules. By analyzing T cells isolated from patients affected with PNH, it was found that ex vivo GPI-deficient CD4(+) and CD8(+) peripheral T cells display a more naive phenotype as compared to wild-type cells. In addition, in vitro proliferative responses to allogeneic antigen-presenting cells were shown to be reduced in mutant T cells. To investigate the molecular basis responsible for defective T cell activation in GPI-deficient T cells, T cell lines and T cell clones were generated from patients affected with PNH. When stimulated with anti-CD3epsilon mAb, mutant cells displayed a significantly decreased activation of protein tyrosine kinase p56(lck). The decreased kinase activity was accompanied by a delayed TCR capping and internalization. Interestingly, protein tyrosine phosphorylation is not only quantitatively but also qualitatively affected, with one substrate being more intensively phosphorylated in mutant than in wild-type cells. These observations suggest that a defective activation of p56(lck) contributes to the depressed immune responses observed in GPI-deficient T cells derived from PNH patients.

Thy-1/CD3 coengagement promotes TCR signaling and enhances particularly tyrosine phosphorylation of the raft molecule LAT

Clustering of the glycosyl-phosphatidylinositol (GPI)-anchored protein Thy-1 on the cell surface leads to T cell activation. However, despite the similarity to TCR-mediated events, cell signaling triggered by Thy-1 crosslinking, reportedly occurs in a manner independent of the TCR/CD3 complex. To investigate the relationship between responses resulting from Thy-1 or TCR engagement, a biochemically well defined system employing only affinity purified antibodies was used to crosslink these surface molecules and activation was assessed by monitoring tyrosine phosphorylation, intracellular calcium influx and IL-2 production. By these criteria, anti-CD3 mAbs moderately activated EL-4 thymoma or 2B4 hybridoma cell lines, while costimulation with anti-Thy-1-mAb strongly enhanced TCR signaling. Furthermore, a Thy-1 loss mutant cell line, did not respond to stimulation through CD3 despite expressing all essential signaling molecules. Together these results emphasized the existence of a poorly appreciated mutual interdependence between Thy-1 and CD3 for efficient cellular signaling. Thy-1/CD3-mediated activation enhanced mostly tyrosine phosphorylation of a 40 kDa protein which was identified as a transmembrane protein lacking N-linked oligosaccharides. These biochemical properties are identical to those described for a recently cloned adaptor protein called 'Linker for Activation of T cells' (LAT). Indeed, polyclonal Abs raised against a LAT-peptide (amino acids 103-131) specifically recognized the 40 kDa protein. LAT is present in microdomains of the plasma membrane enriched in sphingolipids, cholesterol, GPI-anchored proteins and a variety of signaling molecules. By contrast, the TCR/CD3 complex is excluded from these domains at least until stimulation takes place. Hence, we propose that Thy-1 promotes TCR/CD3 dependent signaling by facilitating LAT phosphorylation on tyrosine and the subsequent recruitment of downstream effector molecules.

Obligatory cross-talk with the tyrosine kinases assembled with the TCR/CD3 complex in CD4 signal transduction

Dissection of the CD4 signal transduction pathway has revealed striking similarities with the TCR/CD3 pathway. Furthermore, downstream signaling by CD4 is impaired in cells lacking surface TCR, suggesting a role for the TCR/CD3 complex in CD4 signal transduction. We have investigated the molecular basis for the dependence of CD4 signaling on TCR/CD3 expression. Using the phosphotyrosine binding domains of the Shc adaptor and the Fyn kinase, which both participate in CD4 signaling, as baits, we show that CD4 induces tyrosine phosphorylation of a subset of the proteins phosphorylated in response to TCR/CD3 engagement. The phosphoprotein patterns were dramatically altered in cells defective for TCR/CD3 expression, and were recoverable by reconstitution of correctly assembled TCR, suggesting that CD4 uses TCR/CD3-associated tyrosine kinases to signal. Among the tyrosine kinases associated with the resting TCR/CD3 complex, only Fyn is activated following CD4 engagement. The failure of Fyn to become phosphorylated in cells defective for TCR expression underlines the unique role of TCR/CD3 associated Fyn in CD4 signal transduction. While no calcium mobilization was measurable in cells defective for TCR/CD3 expression in response to CD4 engagement, the Ras/MAP kinase pathway could be partially activated. Thus, CD4 activates at least two signaling pathways, and tyrosine kinases associated with the TCR/CD3 complex are key components of one of these pathways.

Both CD4+ and CD8+ human lymphocytes are activated and proliferate in response to Cryptococcus neoformans

The current studies were performed to determine the contribution of T-cell subsets to lymphocyte proliferation in response to Cryptococcus neoformans, the most common invasive mycosis in acquired immune deficiency syndrome. We demonstrate for the first time that both human CD4 and CD8 cells are activated in response to C. neoformans. Both CD4 and CD8 cells express interleukin-2 receptor alpha (IL-2R alpha) and transferrin receptor and proliferate in response to C, neoformans, however proliferation of CD8 cells was dependent upon CD4 cells. The requirement for CD4 cells was complex, since CD8 enriched cells failed to express mRNA for IL-2, suggesting that CD4-dependent IL-2 production was required for CD8-cell proliferation. However, IL-2 was not sufficient to restore CD8-cell proliferation. These studies provide experimental evidence in humans to support the clinical impression that CD4 cells are important in cryptococcosis, and suggest that the appropriate CD4-derived signals could allow CD8 cells to assist in host defence.

Fatty acids regulate Thy-1 antigen mRNA stability in T lymphocyte precursors

In this study, we report the effect of fatty acids on the Thy-1 antigen mRNA decay. Low serum and synthetic medium culture conditions were used to demonstrate that fatty acids, which are important metabolites involved as second messengers in signal transduction, also influence the steady-state mRNA level. Detailed analysis demonstrated that polyunsaturated lipids attached to bovine serum albumin, such as linoleic, linolenic, and arachidonic acids, modulate gene expression specifically in the S1A T lymphoma cell line by inducing a 3-5-fold increase in the steady-state Thy-1 mRNA level, concomitant with a twofold increase in cell surface expression. A similar modulation was observed in the immature CD4-CD8- T cell precursors but not in mature thymocytes. Nuclear run-on and transfection experiments indicated that the observed Thy-1 mRNA level is post-transcriptionally regulated and that the presence of the coding region is sufficient for this adaptive response. A mechanism without a requirement for protein kinase C activation, but involving Ca2+ entry, could account for this difference in Thy-1 mRNA stability.

Immunodeficiency in RFM/(T6xRFM)F1 mouse chimaeras with lethal host-versus-graft syndrome

Rather than central tolerance, the perinatal inoculation of related F1 hybrid spleen cells into inbred mice may result in host-versus-graft (HVG) reactions manifested as transient autoimmunity, or as a lethal immunodeficiency syndrome. RFM/(T6xRFM)F1 chimaeras with lethal disease die in 30 days with lymphosplenomegaly, immune complexes and impaired immune responses. The present studies used in vitro proliferation assays to show that the HVG reaction caused hyperplasia sufficient to account for the lymphosplenomegaly, while also causing severe impairment of splenic and nodal cell responses to concanavalin A (Con A) and to bacterial lipopolysaccharide (LPS). By 25 days, HVG mice could not distinguish between self and non-self as judged by mixed lymphocyte reactions (MLR) to RFM, (T6xRFM)F1 and third party A/J cells. There were no indications that host cells reactive to F1 donor cells had undergone clonal deletion, anergy or expansion. Flow cytometry revealed that donor T lymphocytes achieved stable engraftment, mostly in the nodes, despite the HVG reaction. Taken together with previous observations, these studies showed that HVG reactions in young parent F1/chimaeras can result in an immunodeficiency state which is characterized by an early appearing, profound and persistent impairment of both host and donor T and B cell functions. The results suggest that HVG reactions can contribute directly to immune deficits seen after clinical allogeneic bone marrow transplantation.

Absence of high-affinity binding sites for interferon alpha/beta in variant murine CD4+ T lymphocytes not expressing the T cell antigen receptor

The T cell antigen receptor complex (CD3/Ti) plays a role in specific antigen recognition as well as in signal transduction, with its surface expression required for the function of several other structurally distinct receptor systems, including CD2, Ly-6(TAP), and Thy-1. In this communication, evidence is presented suggesting an association between the surface expression of CD3/Ti and that of the type 1 interferon (IFN) receptor in a CD4+ murine T cell clone. We tested the proliferative responses and their capacity to be inhibited by type 1 IFN with the wild-type, CD3/Ti-positive T cell clone and its CD3/Ti-negative variants did not respond to specific antigen or anti-CD3 antibody stimulation but they did respond to T cell growth factor (TCGF), stimulation as did the wild-type parental cells. Therefore, the type 1 IFN inhibition of TCGF-stimulated proliferative responses of wild-type and variant cells were compared. Both natural and recombinant type 1 IFNs inhibited TCGF-induced tritiated thymidine (3H-TdR) incorporation in the wild-type T cell clone, with a ID50 of 60-80 U/ml. By contrast, the variants required much higher doses of type 1 IFN. The ID50 with natural murine IFN-beta was 10,000 U/ml, but this same dose of human IFN-alpha A/D gave only a marginal inhibitory effect. Accompanying the loss of IFN responsiveness, these variants also exhibited a loss of high-affinity type 1 IFN receptors. Taken together, these data suggest that the CD3/Ti complex plays a role in the surface expression of the type 1 IFN receptor in a CD4+ T cell clone.(ABSTRACT TRUNCATED AT 250 WORDS)

Two different mechanisms for the inhibition of rosette formation in mice

The vast majority of spleen T cells (T.sRFC) which spontaneously bind to sheep red blood cells (SRBC) in an antigen-specific fashion express the Thy-1+, CD3+, CD8+ phenotype. Inhibition of rosetting by antibodies to surface molecules occurs via distinct mechanisms according to the antibody. CD8 and CD3 molecules are located in proximity to SRBC receptors and steric hindrance is the most likely explanation for the inhibition of rosetting by antibodies to these molecules. On the other hand, anti-Thy-1 antibody bound to T.sRFC induces a dynamic process involving intracellular cAMP, and which results in the inaccessibility of SRBC receptors. Thymulin could restore normal sensitivity of T.sRFC from adult thymectomized (A.Tx) mice to all inhibitory antibodies whatever the mechanism by which they hinder rosette formation. These results reinforce the idea that thymulin may act on membrane characteristics.

T cell receptor-induced Fas ligand expression in cytotoxic T lymphocyte clones is blocked by protein tyrosine kinase inhibitors and cyclosporin A

Fas/APO-1 is a member of the tumor necrosis factor receptor family of proteins that induces apoptosis when cross-linked with monoclonal antibody (mAb) or with its physiological ligand. Recently, both a perforin-based and a Fas-based mechanism have been proposed to account for T cell-mediated cytotoxicity. In the present study we used a murine CD8+ cytotoxic T lymphocyte (CTL) clone (KB5 C20) specific for H-2Kb and a T cell receptor (TcR)-negative variant of the same clone (2005-D4) to test (i) whether the same cell can exert both cytotoxic effector mechanisms and (ii) the role of TcR engagement in the induction of Fas-based cytotoxicity. We demonstrate that both the TcR+ and TcR- clones were able to express the Fas ligand after stimulation with phorbol 12-myristate 13-acetate (PMA)/ionomycin, and that TcR engagement of the KB5.C20 clone by means of antigen-bearing cells or of its anticlonotypic mAb (Désiré-1), which leads to Ca(2+)-dependent, presumably perforin-based, cytotoxicity, was also able to induce Fas-based cytotoxicity. In addition, using inhibitors we investigated the signal transduction pathway(s) involved in the induction of Fas-based cytotoxicity and expression of the Fas ligand mRNA in the CTL clones. The involvement of src-like protein tyrosine kinases (PTK) in Fas ligand induction through TcR engagement, was strongly suggested by inhibition with the src-like PTK inhibitor herbimycin A. Inhibition of Fas ligand induction by genistein, a more general TPK inhibitor, even upon stimulation by PMA plus ionomycin, suggested the possible involvement of PTK activities downstream of protein kinase C (PKC) in Fas ligand induction in CTL. Finally, the implication of the Ca2+/calmodulin-dependent protein phosphatase calcineurin in Fas ligand induction was demonstrated by the partial inhibition of Fas ligand induction with cyclosporin A. Thus, in CTL clones, Fas ligand expression is inducible by TcR engagement through a pathway similar to that involved in expression of some lymphokine genes.

Trypanosoma cruzi-induced immunosuppression: blockade of costimulatory T-cell responses in infected hosts due to defective T-cell receptor-CD3 functioning

A model of experimental Trypanosoma cruzi murine infection with chemically induced metacyclic forms (opossum clone Dm28c) showed a marked state of T-cell unresponsiveness during acute phase, but lacked evidence of suppressor cell activity. Spleen cells from infected mice were suppressed in vitro in responses to T-cell activators concanavalin A, anti-Thy1 monoclonal antibody (MAb), and anti-CD3 MAb compared with spleen cells from control littermates. Activation with accessory cell-independent stimulus provided by immobilized anti-CD3 was defective in splenic CD4-positive T cells from infected mice, but not in such cells from control mice. No evidence of splenic suppressor cell activity was found in cell-mixing experiments using nylon-passed T cells from control and infected donors. Kinetic experiments showed that there was a discrete stage in infection when T cells were already suppressed in response to anti-CD3 but still responded to anti-CD69 MAb. In these T cells, immobilized anti-CD3 failed to enhance simultaneous CD69 responses, although anti-CD3 enhanced CD69 responses in control T cells from uninfected donors. These results demonstrate an intrinsic defect in T-cell receptor-mediated T-cell activation, which could be a mechanism generating T-cell suppression during infection by T. cruzi.

Similar frequencies and kinetics of cytokine producing cells in murine peripheral blood and spleen. Cytokine detection by immunoassay and intracellular immunostaining

Production of IL-2, IL-3, IL-4, IL-5, IL-6, IL-10, IFN-gamma, GM-CSF (granulocyte-macrophage colony stimulating factor) and macrophage colony stimulating factor by murine peripheral blood and spleen cells was analyzed following primary and secondary mitogen stimulation in vitro. Individual cytokine producing cells were detected by an intracytoplasmic staining technique. Cytokine production in cells from peripheral blood and spleen was comparable and more rapidly induced by calcium ionophore and phorbol 12-myristate 13-acetate than by concanavaling A. Restimulation in vitro induced both a swift production of cytokines and, for some cytokines, higher frequencies of producing cells. This was especially evident for IL-10 secreting cells, which increased 30-80 times in secondary responses. These analyses using the dual approaches of immunoenzymetric and fluorescent immunohistochemical techniques provide important evidence that cytokine induction kinetics can differ following primary or secondary stimulation.

The tyrosine kinase connection: how GPI-anchored proteins activate T cells

How can crosslinking of cell-surface glycosylphosphatidylinositol-anchored proteins activate T cells when the proteins do not reach the cytosol? Recent results show that glycosylphosphatidylinositol-anchored proteins associate with tyrosine kinases of the src family. Kinase activity is stimulated when glycosylphosphatidylinositol-anchored proteins are crosslinked. How the proteins are linked across the membrane, however, remains an intriguing mystery.

Progression of interleukin-2 (IL-2)-dependent rat T cell lymphoma lines to IL-2-independent growth following activation of a gene (Gfi-1) encoding a novel zinc finger protein

During progression of Moloney murine leukemia virus (Mo-MuLV)-induced rat T cell lymphomas, growth selection results in the expansion of cell clones carrying increasing numbers of integrated proviruses. These new provirus insertions reproducibly contribute to enhanced growth, allowing the emergence of cell clones from the initially heterogeneous population of tumor cells. The Mo-MuLV-induced rat T cell lymphoma lines 2780d and 5675d, which are dependent on interleukin-2 (IL-2) for growth in culture (IL-2d), were placed in IL-2-free medium to select for IL-2-independent (IL-2i) mutants. Southern blot analysis of genomic DNA from these mutants, which was hybridized to a Mo-MuLV long terminal repeat probe, revealed that all mutants carried new provirus insertions (from one to four new proviruses per cell line). A locus of integration identified through cloning of the single new provirus detected in one of the IL-2i mutants, 2780i.5, was found to be the target of provirus insertion in 1 additional IL-2i cell line of 24 tested. A full-length cDNA of a gene (growth factor independence-1 [Gfi-1]) activated by promoter insertion in the 2780i.5 cells was cloned and shown to encode a novel zinc finger protein. Gfi-1 is expressed at low levels in IL-2d cell lines cultured in IL-2-containing medium and at high levels in most IL-2i cell lines, including the two harboring a provirus at this locus. Gfi-1 expression in adult animals is restricted to the thymus, spleen, and testis. In mitogen-stimulated splenocytes, Gfi-1 expression begins to rise at 12 h after stimulation and reaches very high levels after 50 h, suggesting that it may be functionally involved in events occurring after the interaction of IL-2 with its receptor, perhaps during the transition from the G1 to the S phase of the cell cycle. In agreement with this, Gfi-1 does not induce the expression of IL-2. Expression of Gfi-1 in 2780d cells following transfer of a Gfi-1/LXSN retrovirus construct contributes to the emergence of the IL-2i phenotype.

Progression of interleukin-2 (IL-2)-dependent rat T cell lymphoma lines to IL-2-independent growth following activation of a gene (Gfi-1) encoding a novel zinc finger protein

During progression of Moloney murine leukemia virus (Mo-MuLV)-induced rat T cell lymphomas, growth selection results in the expansion of cell clones carrying increasing numbers of integrated proviruses. These new provirus insertions reproducibly contribute to enhanced growth, allowing the emergence of cell clones from the initially heterogeneous population of tumor cells. The Mo-MuLV-induced rat T cell lymphoma lines 2780d and 5675d, which are dependent on interleukin-2 (IL-2) for growth in culture (IL-2d), were placed in IL-2-free medium to select for IL-2-independent (IL-2i) mutants. Southern blot analysis of genomic DNA from these mutants, which was hybridized to a Mo-MuLV long terminal repeat probe, revealed that all mutants carried new provirus insertions (from one to four new proviruses per cell line). A locus of integration identified through cloning of the single new provirus detected in one of the IL-2i mutants, 2780i.5, was found to be the target of provirus insertion in 1 additional IL-2i cell line of 24 tested. A full-length cDNA of a gene (growth factor independence-1 [Gfi-1]) activated by promoter insertion in the 2780i.5 cells was cloned and shown to encode a novel zinc finger protein. Gfi-1 is expressed at low levels in IL-2d cell lines cultured in IL-2-containing medium and at high levels in most IL-2i cell lines, including the two harboring a provirus at this locus. Gfi-1 expression in adult animals is restricted to the thymus, spleen, and testis. In mitogen-stimulated splenocytes, Gfi-1 expression begins to rise at 12 h after stimulation and reaches very high levels after 50 h, suggesting that it may be functionally involved in events occurring after the interaction of IL-2 with its receptor, perhaps during the transition from the G1 to the S phase of the cell cycle. In agreement with this, Gfi-1 does not induce the expression of IL-2. Expression of Gfi-1 in 2780d cells following transfer of a Gfi-1/LXSN retrovirus construct contributes to the emergence of the IL-2i phenotype.

Alterations in signal transduction molecules in T lymphocytes from tumor-bearing mice

Impaired immune responses occur frequently in cancer patients or in tumor-bearing mice, but the mechanisms of the tumor-induced immune defects remain poorly understood. In an in vivo murine colon carcinoma model (MCA-38), animals bearing a tumor longer than 26 days develop CD8+ T cells with impaired cytotoxic function, decreased expression of the tumor necrosis factor-alpha and granzyme B genes, and decreased ability to mediate an antitumor response in vivo. T lymphocytes from tumor-bearing mice expressed T cell antigen receptors that contained low amounts of CD3 gamma and completely lacked CD3 zeta, which was replaced by the Fc epsilon gamma-chain. Expression of the tyrosine kinases p56lck and p59fyn was also reduced. These changes could be the basis of immune defects in tumor-bearing hosts.

Expression and function of the murine B7 antigen, the major costimulatory molecule expressed by peritoneal exudate cells

The murine B7 (mB7) protein is a potent costimulatory molecule for the T-cell receptor (TCR)-mediated activation of murine CD4+ T cells. We have previously shown that stable mB7-transfected Chinese hamster ovary (CHO) cells but not vector-transfected controls synergize with either anti-CD3 monoclonal antibody-induced or concanavalin A-induced T-cell activation, resulting ultimately in lymphokine production and proliferation. We now have generated a hamster anti-mB7 monoclonal antibody. This reagent recognizes a protein with an apparent molecular mass of 50-60 kDa. The mB7 antigen is expressed on activated B cells and on peritoneal exudate cells (PECs). Antibody blocking experiments demonstrate that mB7 is the major costimulatory molecule expressed by PECs for the activation of murine CD4+ T cells. This suggests an important role for mB7 during immune-cell interactions. We have also surveyed a panel of murine cell lines capable of providing costimulatory activity. Our results indicate that mB7 is the major costimulatory molecule on some but not all cell lines and that there may be additional molecules besides mB7 that can costimulate the activation of murine CD4+ T cells.

A population of early fetal thymocytes expressing Fc gamma RII/III contains precursors of T lymphocytes and natural killer cells

We have identified a dominant fetal thymocyte population at day 14.5 of gestation in the mouse that lacks CD4 and CD8 but expresses Fc gamma RII/III several days prior to acquisition of the T cell receptor (TCR) in vivo. If maintained in a thymic microenvironment, this population of CD4-CD8-TCR-Fc gamma RII/III+ thymocytes differentiates first into CD4+CD8+TCRlowFc gamma RII/III- thymocytes and subsequently CD4+CD8-TCRhighFc gamma RII/III- and CD4-CD8+TCRhighFc gamma RII/III- mature Ti alpha-beta lineage T cells. However, if removed from the thymus, the CD4-CD8-TCR-Fc gamma RII/III+ thymocyte population selectively generates functional natural killer (NK) cells in vivo as well as in vitro. These findings show that a cellular pool of Fc gamma RII/III+ precursors gives rise to T and NK lineages in a microenvironment-dependent manner. Moreover, they suggest a hitherto unrecognized role for Fc receptors on primitive T cells.

Murine B7 antigen provides an efficient costimulatory signal for activation of murine T lymphocytes via the T-cell receptor/CD3 complex

We demonstrate that the murine B7 (mB7) protein is a potent costimulatory molecule for the activation of resting murine CD4+ T cells through the T-cell receptor (TCR)/CD3 complex. Stable mB7-transfected Chinese hamster ovary cells, but not vector-transfected controls, synergize with anti-CD3 monoclonal antibody and Con A-induced T-cell activation, resulting ultimately in proliferation. mB7 exerted its effect by inducing production of interleukin 2 and expression of the interleukin 2 receptor. Thus, mB7 costimulates T-cell activation through the TCR/CD3 complex by positively modulating the normal pathway of T-cell expansion. In contrast to the pronounced effect of mB7 on the activation of T cells through the TCR/CD3 complex, the mB7-transfected CHO cell line costimulated T-cell activation via the glycosylphosphatidylinositol-anchored proteins Thy-1 and Ly-6A.2 only inefficiently. Finally, the combination of a calcium ionophore and mB7 is not sufficient to cause T-cell proliferation, while the combination of a calcium ionophore and phorbol 12-myristate 13-acetate (PMA) stimulates T cells efficiently. The signals that mB7 and PMA provide for murine T lymphocyte activation are therefore not interchangeable, although both costimulate activation through the TCR/CD3 complex.

Susceptibility to cell death is a dominant phenotype: triggering of activation-driven T-cell death independent of the T-cell antigen receptor complex

The failure of Thy-1 and Ly-6 to trigger interleukin-2 production in the absence of surface T-cell antigen receptor complex (TCR) expression has been interpreted to suggest that functional signalling via these phosphatidylinositol-linked alternative activation molecules is dependent on the TCR. We find, in contrast, that stimulation of T cells via Thy-1 or Ly-6 in the absence of TCR expression does trigger a biological response, the cell suicide process of activation-driven cell death. Activation-driven cell death is a process of physiological cell death that likely represents the mechanism of negative selection of T cells. The absence of the TCR further reveals that signalling leading to activation-driven cell death and to lymphokine production are distinct and dissociable. In turn, the ability of alternative activation molecules to function in the absence of the TCR raises another issue: why immature T cells, thymomas, and hybrids fail to undergo activation-driven cell death in response to stimulation via Thy-1 and Ly-6. One possibility is that these activation molecules on immature T cells are defective. Alternatively, susceptibility to activation-driven cell death may be developmentally regulated by TCR-independent factors. We have explored these possibilities with somatic cell hybrids between mature and immature T cells, in which Thy-1 and Ly-6 are contributed exclusively by the immature partner. The hybrid cells exhibit sensitivity to activation-driven cell death triggered via Thy-1 and Ly-6. Thus, the Thy-1 and Ly-6 molecules of the immature T cells can function in a permissive environment. Moreover, with regard to susceptibility to Thy-1 and Ly-6 molecules of the immature T cells can function in a permissive environment. Moreover, with regard to susceptibility to Thy-1 and Ly-6 triggering, the mature phenotype of sensitivity to cell death is genetically dominant.

Susceptibility to cell death is a dominant phenotype: triggering of activation-driven T-cell death independent of the T-cell antigen receptor complex

The failure of Thy-1 and Ly-6 to trigger interleukin-2 production in the absence of surface T-cell antigen receptor complex (TCR) expression has been interpreted to suggest that functional signalling via these phosphatidylinositol-linked alternative activation molecules is dependent on the TCR. We find, in contrast, that stimulation of T cells via Thy-1 or Ly-6 in the absence of TCR expression does trigger a biological response, the cell suicide process of activation-driven cell death. Activation-driven cell death is a process of physiological cell death that likely represents the mechanism of negative selection of T cells. The absence of the TCR further reveals that signalling leading to activation-driven cell death and to lymphokine production are distinct and dissociable. In turn, the ability of alternative activation molecules to function in the absence of the TCR raises another issue: why immature T cells, thymomas, and hybrids fail to undergo activation-driven cell death in response to stimulation via Thy-1 and Ly-6. One possibility is that these activation molecules on immature T cells are defective. Alternatively, susceptibility to activation-driven cell death may be developmentally regulated by TCR-independent factors. We have explored these possibilities with somatic cell hybrids between mature and immature T cells, in which Thy-1 and Ly-6 are contributed exclusively by the immature partner. The hybrid cells exhibit sensitivity to activation-driven cell death triggered via Thy-1 and Ly-6. Thus, the Thy-1 and Ly-6 molecules of the immature T cells can function in a permissive environment. Moreover, with regard to susceptibility to Thy-1 and Ly-6 molecules of the immature T cells can function in a permissive environment. Moreover, with regard to susceptibility to Thy-1 and Ly-6 triggering, the mature phenotype of sensitivity to cell death is genetically dominant.

The early induction of the actin-sequestering peptide thymosin beta 4 in thymocytes depends on the proliferative stimulus

The expression of the actin-sequestering peptide, thymosin beta 4, was analyzed in proliferating rat thymocytes, activated by diverse stimuli, during the early G1 phase and the S phase. In the presence of concanavalin A a 6.3-fold increase of thymosin beta 4 occurred already after 1 h of stimulation without elevation of the corresponding mRNA level. In contrast, during the S phase the increase of thymosin beta 4 (2.5-fold) was accompanied by a higher mRNA level, but did not exceed the growth related increase of total protein. Stimulation with a crosslinked antibody against rat T cell antigen receptor or stimulation with phorbol 12-myristate 13-acetate (PMA) and Ca(2+)-ionophore A23187, separately or in combination, did not lead to the marked increase of the thymosin beta 4 concentration in the early G1 phase but resulted in elevated thymosin beta 4 peptide and mRNA levels during the S phase. It therefore appears that protein kinase C activation and a rise in cytoplasmic Ca(2+)-concentration are not exclusively responsible for the stimulation of thymosin beta 4 specific translation in thymocytes. This assumption was reinforced by the observation that inhibition of the protein kinase C activity by 1-(5-isoquinolinylsulfony)-2-methylpiperazine (H-7) did not affect the cellular thymosin beta 4 content 1 h and 48 h after concanavalin A (Con A) stimulation.

The sgp-60 molecule is linked to the plasma membrane via a glycosylphosphatidylinositol anchor

We have recently identified a novel murine glycoprotein termed sgp-60, which is expressed on the cell surface of T and B lymphocytes. Because of the profound modulatory effects of sgp-60 on activation through the T cell receptor/CD3 complex, we have examined the membrane attachment domain of the molecule. sgp-60 is not expressed on the surface of variants of a T-T hybridoma cell line that are defective in glycosylphosphatidylinositol (GPI) anchor biosynthesis. In wild-type but not in mutant cells, sgp-60 can be labeled with palmitic acid. Furthermore, the molecule can be removed from the cell surface of both T and B lymphocytes by enzymatic digestion with a phosphatidylinositol-specific phospholipase C. We conclude that the sgp-60 molecule is linked to the plasma membrane via a GPI anchor.

Translocation of the alpha- and beta-isoforms of protein kinase C following activation of human T-lymphocytes

We have analyzed how activation of human Jurkat T-cells by the mitogenic lectin, concanavalin A (Con A), may affect the cellular distribution of the alpha- and beta-isoforms of protein kinase C (PKC) in T-cells. In non-stimulated cells almost all of the alpha- and beta-PKC was localized to the cytoplasmic compartment. Stimulation with Con A caused a transient translocation of both alpha- and beta-PKC from the cytoplasm to the cell membrane. The alpha-isoform appeared to be translocated to a somewhat greater extent and for a longer period of time than the beta-form. Translocation was maximal between 1 and 5 min for both of the isoforms. 30 min after stimulation, beta-PKC had returned to basal levels, whereas a substantial amount of alpha-PKC remained associated with the particulate fraction. We conclude that activation of human T-cells causes the translocation of at least two different isoforms of PKC, alpha-PKC and beta-PKC.

IgM anti-Fc gamma R autoantibodies trigger neutrophil degranulation

Anti-Fc gamma R IgM monoclonal antibodies (mAbs) isolated from lipopolysaccharide-stimulated spleen cells from tightskin (TSK) mice were found to be polyspecific, reacting with a wide variety of molecules, including double-stranded DNA, topoisomerase, RNA polymerase, and different collagen types. Approximately 60% of the polyspecific IgM mAbs have anti-Fc gamma R specificity. These anti-Fc gamma R mAbs induce the release of hydrolases from both azurophil and specific granules of human neutrophils. 25-45% of the total cellular content (determined in Nonidet P-40 lysates) of neutrophil elastase, 10-25% of beta-glucuronidase, and 30-50% of alkaline phosphatase was released after incubation with the mAbs. The degranulation process was accompanied by dramatic morphological changes shown by scanning and transmission electron microscopy. The release of hydrolytic enzymes stimulated by the IgM anti-Fc gamma R mAbs was inhibited by preincubation of neutrophils with Fab fragments of either anti-human Fc gamma RII (IV.3) or anti-human Fc gamma RIII (3G8) mAbs. The binding of the anti-Fc gamma R TSK mAbs to human neutrophils was inhibited by Fab fragments of mAb 3G8. However, we found that the TSK anti-Fc gamma R mAbs do not bind to human Fc gamma RII expressed in either CHO cells or the P388D1 mouse macrophage cell line. Since the enzyme release could be inhibited by Fab fragments of mAb IV.3, we suggest that the signal transduction may require Fc gamma RII activation subsequent to crosslinking of the glycan phosphatidyl inositol-anchored Fc gamma RIII-1. These data demonstrate for the first time that polyspecific autoantibodies with Fc gamma R specificity can trigger neutrophil enzyme release via human Fc gamma RIII-1 in vitro and indicate a possible role for such autoantibodies in autoimmune inflammatory processes.

Fluid replacement protection of rabbits challenged subcutaneous with toxic shock syndrome toxins

Toxic shock syndrome toxin 1 (TSST-1) and streptococcal pyrogenic exotoxin A (SPE A) belong to a family of pyrogenic toxins produced by Staphylococcus aureus and Streptococcus pyogenes, respectively. Both toxins are responsible for causing toxic shock syndrome (TSS) and related illnesses, clinically characterized by multiorgan involvement. The most severe TSS symptom is acute hypotension and shock after the initial febrile response. In this study, we examined possible mechanisms of shock development in TSS, particularly the role of T-cell proliferation, endotoxin enhancement by toxins, and capillary leakage. American Dutch belted rabbits, with subcutaneously implanted miniosmotic pumps filled with either TSST-1 or SPE A, served as the animal model. For both TSST-1 and SPE A-treated rabbits, administration of cyclosporin A prevented toxin-induced T-cell proliferation but failed to protect the rabbits. Polymyxin B treatment of rabbits, to neutralize endogenous endotoxin, partially protected rabbits from challenge with either exotoxin; two of six rabbits survived on day 2 when treated with only TSST-1, whereas six of six animals survived after challenge with TSST-1 and polymyxin B. Similarly, with SPE A-treated rabbits, only 1 of 10 animals without polymyxin B treatment survived on day 8, but 4 of 6 rabbits survived on day 8 when given polymyxin B. Fluid replacement was successful in preventing lethality. Twelve of 14 rabbits survived when given TSST-1 with fluid, and all rabbits treated with SPE A and fluid survived. Finally, by using miniosmotic pumps, staphylococcal exfoliative toxin A and concanavalin A were administered to rabbits in an attempt to induce lethality. These two T-cell mitogens caused T-cell proliferation but failed to induce lethality in rabbits. The data suggest that toxin interactions causing vascular leakage and to some extent endotoxin enhancement are of major importance in development of hypotension and shock in TSS. It appears that T-cell proliferation may not contribute significantly to the induction of shock and death.

Phosphatidylinositol membrane anchors and T-cell activation

A number of lymphocyte proteins are attached to the cell membrane via glycophosphatidylinositol-anchoring domains. Antibodies specific for several of these proteins are potent mitogens for T cells. In this article, Peter Robinson reviews recent evidence for the involvement of these membrane anchors in cell signalling events and discusses their possible significance in providing antigen-independent costimulatory signals to lymphoid cells.

Selection of T cell receptor expression mutants through the functionally linked Ly-6A

Ly-6A is a glycosyl-phosphatidylinositol (GPI)-anchored molecule that participates in murine T cell activation. Activation of T cell hybridomas with anti-Ly-6A monoclonal antibody (mAb) leads to production of interleukin-2 (IL-2), but also to a paradoxical growth inhibition, which was used to select for signaling mutants. Fifteen subclones derived from two independent mutageneses and anti-Ly-6A selection were characterized. Thirteen subclones responded poorly or not at all to soluble anti-Ly-6A mAb. Although the selective pressure was exerted through Ly-6A, only one mutant did not express the Ly-6A antigen. Interestingly, 10 of the 15 subclones expressed either nondetectable or a very low level of T cell receptor/CD3 complex (TCR/CD3). Preferential expansion of TCR/CD3 expression mutants following anti-Ly-6A selection further established functional linkage between Ly-6A and TCR/CD3 complex. The mechanism of the functional coupling was investigated by analyzing the hydrolysis of phosphatidylinositol 4,5-bisphosphate (PIP2), one of the early events in T cell activation. We showed that PIP2 was not hydrolyzed in response to anti-Ly-6A in TCR/CD3-negative mutants. Aluminum fluoride, which activates G protein directly, did induce PIP2 hydrolysis in these cells. These data suggest that activation signals originated from Ly-6A must be transmitted first to TCR/CD3 complex, which then couples to the G protein/phospholipase C system. A similar requirement also applies to the Thy-1 protein and lectin receptors. Thus, the TCR/CD3 complex plays a central role in the integration and transmission of activation signals that originated from several T cell surface molecules.

A stimulatory monoclonal antibody detecting T cell receptor diversity among idiotype-specific, major histocompatibility complex-restricted T cell clones

A panel of independent BALB/c T cell clones responding to a peptide of the lambda 2(315) immunoglobulin light chain (residues 91-101), in the context of I-Ed, has previously been described. A monoclonal antibody (mAb; GB113) to the T cell receptor (TcR) of one of the clones, 4B2A1 (V alpha 1, J alpha 19; V beta 8.2, D beta 1.1, J beta 1.2) precipitates the alpha/beta heterodimer from 4B2A1. However, GB113 does not bind DO11-10.2 cells bearing a similar alpha/beta heterodimer (V alpha 1.1, J alpha TT11; V beta 8.2, D beta 1.1, J beta 1.1). GB113 does not cross-react with the TcR of the six other clones in the panel. Furthermore, the mAb does not bind polyclonal lambda 2(315)-specific T cell lines except 4.4% of cells of line 4 from which 4B2A1 was cloned. The mAb only binds a negligible number (0.5%) of BALB/c thymocytes and peripheral T cells. Therefore, the epitope detected by GB113 is very rarely expressed on 91-101. lambda 2(315)-specific TcR or on TcR of normal T cells. Soluble GB113 induces T cell activation [measured as proliferation and interleukin (IL) 2, IL3 and interferon-gamma production]. GB113-induced T cell activation is enhanced by soluble anti-CD4 and anti-Thy-1 mAb.

Dynamics and longevity of the glycolipid-anchored membrane protein, Thy-1

Thy-1 and a number of other proteins are anchored to the outer hemi-leaflet of membranes by a glycolipid moiety containing ethanolamine phosphate, mannose, glucosamine, and phosphatidylinositol. They nevertheless have the striking property of being able to transduce signals across the plasma membrane. We here demonstrate, for the BW5147 murine T lymphoma, that (a) greater than 90% of Thy-1 is at the cell surface, (b) Thy-1 is about one order of magnitude less concentrated in coated pits than the transferrin receptor or H-2 antigens, (c) Thy-1 undergoes at most very limited endocytosis or diacytosis, and (d) Thy-1 has an unusually slow turnover rate. Several similar observations have also been made for a second glycolipid-anchored protein, the T cell activating protein. Thus, the absence of cytoplasmic and trans-membrane domains may result in lipid-anchored proteins being confined to the cell surface and being free from constraints which affect the turnover of transmembrane proteins.

Conditions of anti-Lyt-2-mediated inhibition of TcR/CD3-induced IFN-gamma secretion by a CTL clone

The relationship between the T cell receptor (TcR) for antigen (Ag) and the Lyt-2/3 molecule during T cell activation was studied using the T cell clone KB5.C20, which is dependent upon Lyt-2 for target cell killing. This cytolytic T cell clone can be activated to secrete IFN-gamma by stimulation with H-2Kb expressing cells or with monoclonal antibodies directed against a clonotypic structure of the TcR or against associated CD3 molecules. IFN-gamma production induced by H-2Kb can be inhibited by anti-Lyt-2mAb. In addition, TcR-mediated activation using the anticlonotypic mAb Désiré-1 in soluble form can be inhibited by anti-Lyt-2 mAb in soluble form either as a divalent IgG or as its monovalent Fab fragment. Anti-Lyt-2 mAb immobilized on plastic wells was also inhibitory. Stimulation induced by the anti-TcR mAb or by anti-CD3 mAb immobilized on plastic can be inhibited only with plastic immobilized and not with soluble anti-Lyt-2mAb, however. These results are discussed in terms of local interactions between TcR and Lyt-2 molecules.

The basic science of heart transplantation: important immune cell surface molecules

Fundamental research in immunology has led to significant advances in cardiac and other organ transplantation. Immunology has now entered the era of molecular biology and sophisticated techniques have been applied to an understanding of immunological events at a molecular level. Future progress in transplantation will be based on these advances in immunology. This is a review of recent work on the structure and action of cell surface molecules important in normal and abnormal functioning of the immune system. Present understanding does not permit a comprehensive description of immunology at the molecular level. However, the exciting developments taking place in fundamental immunological research hopefully will be a stimulus to new progress in cardiac and other organ transplantation.

Activation of human T lymphocytes by phorbol-12,13-dibutyrate and ionomycin

The calcium ionophore ionomycin and the phorbol ester phorbol-12,13-dibutyrate (PDBu) are shown to have a synergistic effect upon interleukin 2 (IL-2) production, interleukin 2 receptor expression, and T-lymphocyte proliferation. The proliferative response was inhibited by addition of a monoclonal antibody directed against the IL-2R (Tac antigen) demonstrating that PDBu and ionomycin induce T-cell growth through an IL-2-dependent autocrine pathway. Sequential stimulation with PDBu and ionomycin failed to induce IL-2 production, IL-2R expression, and consequently proliferation of the T cells, indicating that T-cell activation requires simultaneous activation of protein kinase C (PKC) and elevation of cytosolic calcium. Exposure of T cells to both agents for different times resulted in IL-2 production, IL-2R expression, and proliferation in proportion to the duration of incubation with at least 4 h required for maximal T-cell activation. Further, in the presence of PDBu maximal T-cell activation was found to require stimulation with ionomycin for 4 h, indicating that a sustained increase in free cytoplasmic calcium of several hours' duration is essential for T-cell activation. In contrast T cells incubated with ionomycin were induced to produce IL-2 and express IL-2Rs upon brief exposure to PDBu with a 2-h incubation period being sufficient for maximal T-cell activation. Thus transient activation of PKC seems to be sufficient for activation of the IL-2 gene and IL-2R gene. However, maximal T-cell activation requires activation of PKC for at least 2 h.

Practical design criteria for a dynamic ratio imaging system

Problems encountered and solutions devised during the construction of a productive Ca2(+)-imaging system are discussed. Many of these relate to the rapid and interactive nature of experiments on cytosolic Ca2+. The emphasis on accurate photometric quantitation of dynamically changing images contrasts with that of most image-processing software packages, which concentrate either on leisurely massage of static images or on descriptions of lateral motions of objects without concern for their brightnesses. Particularly important goals for Ca2(+)-imaging include real-time ratioing, psychophysically effective display formats, ease of experiment annotation, mass storage of image sequences, automated extraction of time courses and population statistics, aids to presenting images for seminars and publications, and program modifiability.

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.