Showing papers on "Cytotoxic T cell published in 1988"

Purification and Characterization of Mouse Hematopoietic Stem Cells

Abstract: Mouse bone marrow hematopoietic stem cells were isolated with the use of a variety of phenotypic markers. These cells can proliferate and differentiate with approximately unit efficiency into myelomonocytic cells, B cells, or T cells. Thirty of these cells are sufficient to save 50 percent of lethally irradiated mice, and to reconstitute all blood cell types in the survivors.

Identification of a putative regulator of early T cell activation genes

Abstract: Molecules involved in the antigen receptor-dependent regulation of early T cell activation genes were investigated with the use of functional sequences of the T cell activation-specific enhancer of interleukin-2 (IL-2). One of these sequences forms a protein complex, NFAT-1, specifically with nuclear extracts of activated T cells. This complex appeared 10 to 25 minutes before the activation of the IL-2 gene. Studies with inhibitors of protein synthesis indicated that the time of synthesis of the activator of the IL-2 gene in Jurkat T cells corresponds to the time of appearance of NFAT-1. NFAT-1, or a very similar protein, bound functional sequences of the long terminal repeat (LTR) of the human immunodeficiency virus type 1; the LTR of this virus is known to be stimulated during early T cell activation. The binding site for this complex activated a linked promoter after transfection into antigen receptor-activated T cells but not other cell types. These characteristics suggest that NFAT-1 transmits signals initiated at the T cell antigen receptor.

Human memory T lymphocytes express increased levels of three cell adhesion molecules (LFA-3, CD2, and LFA-1) and three other molecules (UCHL1, CDw29, and Pgp-1) and have enhanced IFN-gamma production.

Abstract: Studies of cell-surface molecules involved in human T cell interaction reveal that differential expression of each of three adhesion molecules (LFA-3, CD2, and LFA-1) subdivides human peripheral blood T cells into major subpopulations. Systematic analysis of the relationship between expression of these and other markers of T cell subsets demonstrates a single major subset of human peripheral blood T lymphocytes distinguished by enhanced expression of LFA-3, CD2, LFA-1, and three other markers (CDw29 [4B4], UCHL1, and Pgp-1). Large differences in relative expression are observed for UCHL1 (29-fold) and LFA-3 (greater than 8-fold), and smaller differences (2- to 4-fold) are seen for CDw29, CD2, LFA-1, and Pgp-1. Bimodal distribution of LFA-3 is found on both CD4+ cells and on CD8+ cells as well as on B lymphocytes (CD19+). Neonatal T cells (CD3+) are comprised almost exclusively of the subset expressing low LFA-3, CD2, LFA-1, CDw29, and UCHL1. Activation of cord peripheral blood mononuclear leukocytes with PHA leads to uniform enhanced expression of each of these molecules on CD3+ cells. Functional analyses of these T cell subsets were performed after sorting of adult T cells based on differential LFA-3 expression. Only the LFA-3+ subset proliferated in response to the Ag tetanus toxoid, even though the LFA-3- subset proliferated more strongly to PHA. Furthermore, the LFA-3+ subset made greater than fivefold more IFN-gamma than the LFA-3- subset in response to PHA, despite the fact that both subsets made equivalent amounts of IL-2. This phenotypic and functional analysis of resting and activated newborn and adult T cells indicates that human memory T cells express enhanced levels of LFA-3, CD2, LFA-1, UCHL1, CDw29, and Pgp-1; we speculate that the increase in expression of T cell adhesion molecules LFA-3, CD2, and LFA-1 on memory cells is functionally important in their enhanced responsiveness.

Tumor necrosis factor can induce both apoptic and necrotic forms of cell lysis.

Abstract: TNF is a protein toxin which is secreted by activated macrophages and monocytes. Although the cytotoxic activity of TNF has been well documented, the mechanism of TNF-induced lysis is not well understood. The goal of this investigation was to determine whether TNF caused one of the classic forms of cell death, i.e., apoptosis, which is characterized by nuclear disintegration and cytoplasmic "boiling," or necrosis, which is characterized by the formation of a "balloon-like" plasma membrane and a lack of nuclear disintegration. Therefore, to distinguish apoptosis from necrosis, we have used time-lapse video microscopy to observe the death of several TNF-sensitive target cell lines while measuring the release of Na2(51)CrO4 and [3H]TdR from cytoplasmic and nuclear compartments, respectively. As targets we selected two spontaneously sensitive cell lines, F17 and L-M, and one resistant cell line, C3HA, which was sensitized by treatment with cycloheximide or by infection with the adeno-SV40 hybrid virus Ad2+ND2. We find that the type of cell death observed depends on the cell being tested. For example, in F17 cells we found that TNF treatment induced a classical form of apoptosis. In contrast, TNF induced a necrotic form of cell death in L-M cells, similar to the lysis induced by antibody and C. Finally, we found that sensitized C3HA cells displayed a novel cytolytic phenotype which resembled apoptosis but did not include DNA fragmentation. These results emphasize the complex nature of the TNF-induced cytotoxic response.

The T Cell Receptor/CD3 Complex: A Dynamic Protein Ensemble

Abstract: A large body of information about antigen receptors on the surface of T lymphocytes has been gathered in the last five years (1, 2). T cell receptors use a variable region gene pool that is completely distinct from the variable genes of immunoglobulins. Indeed, T cells recognize different antigenic entities than do B lymphocytes. The latter notion was most dramatically demonstrated by the many observations that led to the conclusion that T cell receptors corecognize processed nominal antigen and a gene product of the MHC (3). Since T cell receptors (TCR) and MHC products are anchored in the plasma membrane of T lymphocytes and antigen-pre­ senting cells, respectively, the TCR/antigen/MHC recognition takes place on the interface between the two cells. A localized and TCR-independent adhesion provides a stabilizing environment for the subtle ternary inter­ action, which is dependent upon the fine recognition of all three of its participants. From model studies with human cytotoxic T cells, it appears that this transient adhesion event is initiated prior to the interaction of TCR with antigen and MHC (4). The T cell receptors for antigen and MHC consist of two disulfide­ linked variable glycoproteins whose genes rearrange in T cells: the T cell receptor (TCR) a and /3 chains (1, 2). The T cell receptor so defined subserves both antigen and MHC recognition. Cell fusion experiments (5) and transfection of TCR-a and -/3 chain cDNAs of defined specificities between T cell clones (6) confirm that the a//3 heterodimer confers both

Positive and negative selection of an antigen receptor on T cells in transgenic mice

Abstract: The T-cell repertoire found in the periphery is thought to be shaped by two developmental events in the thymus that involve the antigen receptors of T lymphocytes. First, interactions between T cells and major histocompatibility complex (MHC) molecules select a T-cell repertoire skewed towards recognition of antigens in the context of self-MHC molecules. In addition, T cells that react strongly to self-MHC molecules are eliminated by a process called self-tolerance. We have recently described transgenic mice expressing the alpha beta T-cell receptor from the cytotoxic T lymphocyte 2C (ref. 11). The clone 2C was derived from a BALB.B (H-2b) anti-BALB/c (H-2d) mixed lymphocyte culture and is specific for the Ld class I MHC antigen. In transgenic H-2b mice, a large fraction of T cells in the periphery expressed the 2C T-cell receptor. These T cells were predominantly CD4-CD8+ and were able to specifically lyse target cells bearing Ld. We now report that in the periphery of transgenic mice expressing Ld, functional T cells bearing the 2C T-cell receptor were deleted. This elimination of autoreactive T cells appears to take place at or before the CD4+CD8+ stage in thymocyte development. In addition, we report that in H-2s mice, a non-autoreactive target haplotype, large numbers of CD8+ T cells bearing the 2C T-cell receptor were not found, providing strong evidence for the positive selection of the 2C T-cell receptor specificity by H-2b molecules.

ICAM, an adhesion ligand of LFA-1, is homologous to the neural cell adhesion molecule NCAM.

Abstract: Antigen-specific cell contacts in the immune system are strengthened by antigen-nonspecific interactions, mediated in part by lymphocyte-function associated (LFA) antigens. The LFA-1 antigen is widely expressed on cells of haematopoietic origin and is a major receptor of T cells, B cells and granulocytes. LFA-1 mediates the leukocyte adhesion reactions underlying cytolytic conjugate formation, helper T-cell interactions, and antibody-dependent killing by natural killer cells and granulocytes. Recently, ICAM-1 (intercellular adhesion molecule-1) has been defined as a ligand for LFA-1. Monoclonal antibodies to ICAM-1 block T lymphocyte adhesion to fibroblasts and endothelial cells and disrupt the interaction between cytotoxic T cells and target cells. In addition, purified ICAM-1 reconstituted into artificial membranes binds LFA-1+ cells. ICAM-1 is found on leukocytes, fibroblasts, epithelial cells and endothelial cells and its expression is regulated by inflammatory cytokines. LFA-1 has been placed in the integrin family of cell surface receptors by virtue of the high sequence similarity between the LFA-1 and integrin beta chains. The adhesion ligands of the integrin family are glycoproteins bearing the Arg-Gly-Asp (RGD) sequence motif, for example, fibronectin, fibrinogen, vitronectin and von Willebrand factor. Here we show that a complementary DNA clone ICAM-1 contains no RGD motifs, but instead is homologous to the neural cell adhesion molecule NCAM.

A sequence pattern common to T cell epitopes.

Abstract: An analysis of the known cytotoxic and helper T cell epitopes has revealed similarity within their primary sequences These similar motifs, characteristic of the known determinants, have been incorporated into predictive templates that have been used successfully to define eight helper and three cytotoxic epitopes in four different proteins When the defined epitopes are segregated by restriction element, allele specific subpatterns emerge centering around the general pattern The presence of similarities argues that the binding of peptide antigens to class I and class II is similar in nature In addition, these motifs can be used to predict accurately areas within proteins capable of being recognized by individual MHC class I and class II molecules

Positive selection of antigen-specific T cells in thymus by restricting MHC molecules

Abstract: Thymus-derived lymphocytes (T cells) recognize antigen in the context of class I or class II molecules encoded by the major histocompatibility complex (MHC) by virtue of the heterodimeric alpha beta T-cell receptor (TCR). CD4 and CD8 molecules expressed on the surface of T cells bind to nonpolymorphic portions of class II and class I MHC molecules and assist the TCR in binding and possibly in signalling. The analysis of T-cell development in TCR transgenic mice has shown that the CD4/CD8 phenotype of T cells is determined by the interaction of the alpha beta TCR expressed on immature CD4+8+ thymocytes with polymorphic domains of thymic MHC molecules in the absence of nominal antigen. Here we provide direct evidence that positive selection of antigen-specific, class I MHC-restricted CD4-8+ T cells in the thymus requires the specific interaction of the alpha beta TCR with the restricting class I MHC molecule.

Differentiation of murine macrophages to express nonspecific cytotoxicity for tumor cells results in L-arginine-dependent inhibition of mitochondrial iron-sulfur enzymes in the macrophage effector cells.

Abstract: Previous studies show that cytotoxic activated macrophages cause a reproducible pattern of metabolic inhibition in viable tumor target cells. This includes inhibition of DNA synthesis, two oxidoreductases of the mitochondrial electron transport chain (NADH: ubiquinone oxidoreductase and succinate: ubiquinone oxidoreductase), and the citric acid cycle enzyme aconitase. This pattern of metabolic inhibition is induced by a cytotoxic activated macrophage associated biochemical pathway with L-arginine deimination activity that synthesizes L-citrulline from L-arginine and oxygenated nitrogen derivatives from the imino nitrogen removed from the guanido group of L-arginine. Here we report that macrophages activated in vivo by infection with bacillus Calmette-Guerin or in vitro by murine rIFN-gamma or murine IFN-alpha/beta (in the presence of the second signal LPS in all cases) develop inhibition of aconitase and the same two oxidoreductases of the mitochondrial electron transport chain as was documented earlier in target cells of cytotoxic activated macrophages. In addition, this pattern of metabolic inhibition which develops in cytotoxic activated macrophages is caused by the L-arginine-dependent effector mechanism. Inhibition of mitochondrial respiration by effectors of the L-arginine-dependent cytotoxicity system results in a compensatory increase in activity of the glycolytic pathway. We speculate that the pattern of metabolic inhibition induced in cytotoxic activated macrophages by the L-arginine-dependent effector system causes changes in the macrophage intracellular environment that increases resistance to certain facultative and obligate intracellular pathogens.

Selective expression of an antigen receptor on CD8-bearing T lymphocytes in transgenic mice.

Abstract: The major problem in the study of T-cell development is that of tracking thymocytes of a given specificity. Recent studies have exploited natural correlations between the expression of a particular V beta gene segment and T-cell receptor (TCR) specificity. We and others (refs 5, 6 and M. Davis, personal communication) have taken an alternative approach. We have generated transgenic mice expressing the alpha beta antigen receptor from the cytotoxic T-lymphocyte clone 2C (ref. 7). In transgenic mice of the same haplotype as the 2C clone, the 2C TCR was expressed on 20-95% of peripheral T cells. Very few of these T cells carried the CD4 antigen; the vast majority were CD4-CD8+ and were able to lyse targets with the same specificity as the original 2C clone. These results indicate that the alpha beta heterodimer transfers specificity to recipient cells as expected from earlier studies, and that receptor specificity in T-cell repertoire selection is determined by both alpha beta heterodimer and CD4 or CD8 accessory molecules.

Simultaneous production of IL-2, IL-4, and IFN-gamma by activated human CD4+ and CD8+ T cell clones.

Abstract: In the present study, we have investigated the ability of human T cells to secrete IL-2, IL-4, and IFN-gamma. IL-4 and IFN-gamma were quantified with enzymatic immunoassays and IL-2 with a biologic assay by using the murine IL-2-dependent cell line CTLL-2. PBL, stimulated with Con A or with a combination of the phorbol ester 13-O-tetradecanoylphorbol-12-acetate and the Ca2+ ionophore A23187 secreted IL-2, IL-4, and IFN-gamma. The kinetics of the secretion of the three lymphokines was investigated with two CD4+ clones; one (GEO-2) that produced IL-2, IL-4, and IFN-gamma and another (HY640), that produced only IL-2 and IFN-gamma. Significant IL-2, IL-4, and IFN-gamma production was observed after only 8 h of activation. Maximal levels of IL-2 and IL-4 were found 20 h after the onset of the stimulation which subsequently decreased. In contrast, IFN-gamma levels continued to increase in a period up to 40 h and then leveled off. In spite of these differences in secretion, the kinetics of accumulation of mRNA did not differ. The IL-2, IL-4, and IFN-gamma mRNA were detectable 2 h after stimulation and continued to accumulate for a period up to 20 h. In a series of 22 CD4+ clones, 21 were able to secrete all three lymphokines upon stimulation. Almost all CD8+ clones were able to produce IL-2 and IFN-gamma, but only six of the 23 CD8+ T cell clones secreted IL-4. In addition, five CD4+ (allo)antigen-specific T cell clones were tested for IL-2, IL-4, and IFN-gamma secretion upon specific stimulation. Two alloantigen-specific and two tetanus toxoid-specific T cell clones secreted IL-2, IL-4, and IFN-gamma simultaneously, whereas one alloantigen-specific T cell clone secreted IL-2 and IFN-gamma, but not IL-4. A supernatant of the CD4+ T cell clone GEO-2, that contained high levels of IFN-gamma and IL-4, was unable to induce the low affinity receptor for IgE, CD23, on a Burkitt lymphoma cell line. However, after separation of IL-4 from IFN-gamma by using HPLC, the IL-4-containing fraction-induced CD23, which could be blocked by the fraction that contained IFN-gamma and by a polyclonal rabbit anti-IL-4 antiserum. Finally, the partly purified IL-4, that was devoid of IL-2, promoted the growth of the clone GEO-2.

CD8+ T cells (cytotoxic/suppressors) are required for protection in mice immunized with malaria sporozoites

Abstract: In recent malaria sporozoite vaccine trials in humans and mice, antibodies to the sporozoite coat protein have given only modest protection against sporozoite challenge. In contrast, irradiated sporozoites can protect mice against massive sporozoite infections. Evidence suggests that immunity in these mice is mediated by T cells. To identify the mechanism of immunity, we used monoclonal antibodies specific for either the CD4 or CD8 molecule to selectively deplete sporozoite-immunized mice of T-cell subsets. Though in vivo depletion of CD4+ T cells did not reduce immunity, depletion of CD8+ T cells abolished protection. Monoclonal antibody treatment did not affect anti-sporozoite antibody levels. Our data indicate that cytotoxic T cells are critical for immunity to large numbers of sporozoites and suggest that vaccine development should be reoriented toward stimulating cellular as well as humoral immunity.

Cytotoxic T cells clear virus but augment lung pathology in mice infected with respiratory syncytial virus.

Abstract: We have examined the function of class I MHC-restricted cytotoxic T cells in experimental respiratory syncytial virus (RSV) infection of BALB/c mice by transfer of T cell line MJC-A2 and CTL clone E8a into RSV-infected mice. The T cell line cleared pulmonary RSV infection within 5 d in persistently infected gamma-irradiated mice, but caused acute respiratory disease. This was only seen in infected mice and was often lethal after transfer of greater than 3 x 10(6) CTL. Lower numbers of CTL produced less severe disease but still cleared lung RSV, albeit over a longer time course (up to 10 d). Clearance of lung RSV in immunocompetent mice by the T cell line and CTL clone was again accompanied by acute and sometimes lethal respiratory disease. Bronchoalveolar lavage showed severe lung hemorrhage and frequent neutrophil efflux in mice with CTL-augmented disease.

T cell stimulation by staphylococcal enterotoxins. Clonally variable response and requirement for major histocompatibility complex class II molecules on accessory or target cells.

Abstract: Staphylococcal enterotoxins (SE) are the most potent mitogens for T lymphocytes known; concentrations of less than 10(-9) M are sufficient for T cell activation. The mechanism of T cell activation by SE is unknown. We have used cloned human cytotoxic and proliferative T lymphocytes to dissect the molecular mechanism of T cell activation by SE. With rare exceptions, all TCR alpha/beta chain-expressing T cell clones of CD4+ or CD8+ phenotype, as well as CD4-8- TCR alpha/beta chain negative chain-expressing T lymphocyte clones, respond with proliferation and/or cytotoxicity to SE. For triggering of all these clones, the presence of autologous or allogeneic MHC class II molecules on accessory or target cells is necessary. This requirement for class II antigens is not due to an immunological recognition of processed SE, since inhibition of antigen processing has no influence on the T cell response to SE. SE acts on the T cells directly since (a) they stimulate a rise in intracellular calcium concentration in T cell lines or purified T cells, and (b) accessory cells can be replaced by phorbolesters in the proliferative activation of resting T cells by SE. Furthermore, the T cell response to SE shows extensive clonal heterogeneity. These results suggest that SE are functionally bivalent mitogens binding highly selectively to HLA class II molecules and the TCR. Thus, compared with other polyclonal T cell activating agents, activation with SE most closely mimicks the physiological way of MHC-restricted antigen recognition by T lymphocytes.

Anti-idiotypic network induced by T cell vaccination against experimental autoimmune encephalomyelitis

Abstract: In a study of the mechanism of resistance to autoimmune disease induced by T cell vaccination, rats were vaccinated against experimental autoimmune encephalomyelitis (EAE) by injecting them once in the hind footpads with a subencephalitogenic dose (10(4)) of a clone of T lymphocytes specific for myelin basic protein (BP). The response to vaccination was assayed by challenging the rats with an encephalitogenic dose (3 X 10(6)) of T lymphocytes of this BP-specific clone. Five to six days after vaccination, the cells responsible for mediating resistance to adoptively transferred EAE were concentrated in the popliteal lymph nodes draining the vaccination site. Transfer of the draining lymph node cells to unvaccinated rats led to loss of resistance in the donor rats and acquisition of resistance by the recipient rats. Limiting-dilution cultures of the draining lymph node cells were established with irradiated cells of the BP-specific clone as stimulators. Two sets of T lymphocytes specifically responsive to the BP-specific T cells from the clone were isolated: CD4+CD8- helper and CD4-CD8+ suppressor cells. The helper T cells, like the BP antigen, specifically stimulated the BP-specific vaccinating clone. In contrast, the suppressor T cells specifically suppressed the response of the BP-specific vaccinating clone to its BP antigen. These results suggest that T cell vaccination induces resistance to autoimmune disease by activating an antiidiotypic network.

An immunodominant epitope of the human immunodeficiency virus envelope glycoprotein gp160 recognized by class I major histocompatibility complex molecule-restricted murine cytotoxic T lymphocytes.

Abstract: Because cytotoxic T lymphocytes (CTL) may be important for preventing direct cell-to-cell transmission of human immunodeficiency virus (HIV), the agent responsible for acquired immunodeficiency syndrome, we have begun to investigate the epitope specificity and immune response (Ir) gene control of anti-HIV CTL responses in experimental animals. Mice were infected with a recombinant vaccinia virus expressing the HIV gp160 envelope gene, and the primed lymphocytes were restimulated in vitro with a transfected histocompatible cell line expressing the same gene. Our results show that H-2d mice are CTL high responders and H-2k mice are low responders to the HIV gp160 envelope protein under these conditions. Moreover, the H-2d mice respond predominantly to a single immunodominant site represented by a 15-residue synthetic peptide conforming to the amphipathic alpha-helix model of T-cell epitopes and seen by CD4- CD8+ CTL in association with the Dd class I major histocompatibility complex (MHC) molecules. The facts that CTL responses were detected in the context of only one of four class I MHC molecules tested and that the response was limited predominantly to a single epitope indicate that the CTL repertoire elicited by the HIV envelope protein in association with murine class I MHC molecules may be very limited. In addition, this epitope occurs in a highly variable segment of the envelope protein. This puts constraints on the use of a single peptide sequence from this region in a vaccine, as such a vaccine would have to be polyvalent. Nevertheless, this same variability suggests that this region may be under selective pressure from human CTL, and therefore that this site may be immunodominant in humans as well as mice and so of clinical importance in vaccine development.

B cell stimulatory factor-2 is involved in the differentiation of cytotoxic T lymphocytes.

Abstract: The induction of cytotoxic T lymphocytes (CTL) from precursor T cells requires both antigen and lymphokine signals. Previous work from our laboratory has indicated that three lymphokines are required for the induction of CTL from murine thymocytes; interleukin 2, interferon-gamma (IFN-gamma), and a partially characterized factor referred to as cytotoxic differentiation factor (CDF). While attempting to clone CDF from the human T cell line C10-MJ2, we found that a gene encoding CDF-like activity is identical to the gene encoding the factor known variously as B cell stimulatory factor-2 (BSF-2), IFN-beta 2, and 26-kDa protein. We report here that BSF-2 can induce the differentiation of Ly-2+ CTL from murine thymocytes in the presence of interleukin 2 and that the level of cytotoxicity is augmented by the addition of murine IFN-gamma. Serine esterase, a marker for cytotoxic granules in CTL, was induced only in the presence of BSF-2, and the level of serine esterase activity correlated with the level of serine esterase activity correlated with the level of cytotoxicity. These data suggest that BSF-2 is a differentiation factor for CTL and that it functions in part by inducing proteins required for mediating target cell lysis.

IL-6/BSF-2 functions as a killer helper factor in the in vitro induction of cytotoxic T cells.

Abstract: rIL-6/B cell stimulatory factor 2 was found to augment CTL generation from mature as well as immature human T cells stimulated with UV-treated allogeneic cells. rIL-6 also acted on peanut agglutinin-positive murine thymocytes and Lyt-2-positive splenic T cells to give rise to CTL. rIL-6 alone could not induce CTL generation, the presence of IL-2 during the early phase of culture period was found to be essential for the IL-6 activity in the induction of CTL. The effect of rIL-6 was not mediated by the induction of IL-2 inasmuch as rIL-6 did not augment IL-2 production in MLC and anti-IL-2 antibody could not neutralize IL-6 activity. rIL-6 augmented CTL generation even when added 72 h after the initiation of cultures. The enhancing activity of rIL-6 could be neutralized with anti-IL-6 antibodies even when added 72 h after the initiation of cultures. The present data indicate that IL-6 acts in the late phase of CTL generation.