Induction of secondary cytotoxic T-lymphocytes in vitro does not require cell proliferation.

Using a mouse in vitro allograft model, evidence has been obtained that, in contrast to the accepted view, the generation of cytotoxic effector function in T-lymphocytes does not necessarily require cell division.     

Fas expression on antigen-specific T cells has costimulatory, helper, and down-regulatory functions in vivo for cytotoxic T cell responses but not for T cell-dependent B cell responses

Fas-mediated apoptosis is an important contributor to contraction of Ag-driven T cell responses acting only on activated Ag-specific T cells. The effects of targeted Fas deletion on selected cell populations are well described however little is known regarding the consequences of Fas deletion on only activated Ag-specific T cells. We addressed this question using the parent-into-F(1) (P-->F(1)) model of acute or chronic (lupus-like) graft-vs-host disease (GVHD) as a model of either a CTL-mediated or T-dependent B cell-mediated response, respectively. By transferring Fas-deficient lpr donor T cells into Fas-intact F(1) hosts, the in vivo role of Ag-specific T cell Fas can be determined. Our results demonstrate a novel dichotomy of Ag-specific T cell Fas function in that: 1) Fas expression on Ag-activated T cells has costimulatory, helper, and down-regulatory roles in vivo and 2) these roles were observed only in a CTL response (acute GVHD) and not in a T-dependent B cell response (chronic GVHD). Specifically, CD4 T cell Fas expression is important for optimal CD4 initial expansion and absolutely required for help for CD8 effector CTL. Donor CD8 T cell Fas expression played an important but not exclusive role in apoptosis and down-regulation. By contrast, CD4 Fas expression played no detectable role in modulating chronic GVHD induction or disease expression. These results demonstrate a novel role for Ag-specific T cell Fas expression in in vivo CTL responses and support a review of the paradigm by which Fas deficiency accelerates lupus in MRL/lpr lupus-prone mice.     

Effects of treatment with IL-2 receptor specific monoclonal antibody in mice. Inhibition of cytotoxic T cell responses but not of T help

Contribution of IL-2R-bearing activated lymphocytes to antiviral host defense was investigated in C57BL/6 mice by treatment in vivo with IL-2R-specific mAb PC61. When treated on days 0 and 1 with respect to infection with either vaccinia virus, lymphocytic choriomeningitis (LCM) virus (LCMV) or vesicular stomatitis virus, 6-day immune mice had low numbers of CD8+ T cells that were reduced to about 10% of the values found for infected but otherwise untreated controls. In contrast, the number of CD4+ T cells was within normal ranges. Correspondingly, induction of strictly T help-dependent antiviral neutralizing IgG antibody titers remained unaffected by the mAb treatment, whereas generation of antiviral cytotoxic T cell activity was abrogated. Anti-IL-2R treatment of thymectomized mice 14 and 15 days after infection prevented generation of secondary antiviral cytotoxic T cells in restimulation cultures in vitro initiated 24 days later. Treatment with IL-2R-specific mAb was comparable to treatment with CD8-specific mAb in preventing mice to eliminate virus. Because of the involvement of antiviral cytotoxic T cells in disease manifestations, treatment with IL-2R-specific mAb protected mice from lethal LCM after intracerebral infection with LCMV and inhibited the footpad swelling reaction caused by local infection with the same virus.     

Class I-specific antibodies inhibit proliferation in primary but not secondary mouse T cell responses.

Murine T and B splenocytes were incubated with antibodies that recognize CD3 or surface IgM. These antibodies induced proliferation of their respective target cells. Once stimulated via their receptors, the proliferation of both CD4+ and CD8+ T but not B lymphocytes was inhibited by class I-specific antibodies or their monovalent Fab' fragments. The inhibition of proliferation was dependent on the site on class I molecules recognized by the antibodies used, with the alpha 1/alpha 2 domains of H-2K molecules representing the major site for inhibition. Only soluble antibody-mediated proliferation could be inhibited by class I-directed antibodies; proliferation induced by CD3-specific antibody immobilized on plastic was not inhibited. Primary allogeneic MLR was also inhibited by class I-specific antibodies. In contrast, neither secondary allogeneic MLR, secondary Ag-specific responses, nor proliferation of CTL clones or tumor cell lines were inhibited by class I-specific antibodies. These results suggest a role for class I molecules in regulation of TCR/CD3- but not surface IgM-mediated cell signaling, which depends on the form of stimulation and the stage of differentiation of T cells.     

Molecular mechanisms involved in T cell activation. II. The phosphatidylinositol signal-transducing mechanism mediates antigen-induced lymphokine production but not interleukin 2-induced proliferation in cloned cytotoxic T lymphocytes

The phospholipid metabolism of cloned murine cytotoxic T lymphocytes (CTL) was examined under conditions in which the induction of proliferation by interleukin 2 (IL 2) and the stimulated production of lymphokine (macrophage-activating factor (MAF] by concanavalin A (Con A) and specific antigen occurred independently of each other. Activation of the CTL by either of the latter two stimuli resulted in changes in the metabolism of phosphatidylinositol (PI) that were early (less than 2.5 min), specific, and prolonged (6 to 8 hr). These changes were primarily characterized by an increase in phosphatidic acid (PA) and PI, with a decrease in phosphatidylinositol-4,5-bisphosphate. The duration of these phospholipid responses, particularly PA and PI, approximated the minimum time of CTL-stimulus interaction required to produce maximal titers of MAF. No changes were observed in other major classes of phospholipids during 8 hr of continuous stimulation. Stimulation with an irrelevant antigen had no effect on CTL phospholipid metabolism. In contrast to specific antigen or Con A, the T cell growth factor IL 2 failed to elicit specific and early biosynthetic responses from PA and PI. Instead, there were nonspecific biosynthetic responses from all major phospholipid classes (including phosphatidylcholine and phosphatidylethanolamine, as well as PA and PI) which occurred between 1 and 6 hr after IL 2 stimulation. Both 1,2-diacylglycerol (DAG) and inositol phosphates (IP), the hydrolytic products of PI turnover, were produced in response to MAF-inducing stimuli, but neither were detected in response to the proliferative stimulus IL 2. Together, these results indicate that the hydrolysis of PI and the concomitant production of the putative second messengers DAG and IP are involved in signaling the production of lymphokines (MAF) by CTL. On the other hand, the failure of IL 2 to elicit a full-spectrum PI response suggests that signals mediating CTL proliferation may utilize an alternate and still undefined pathway.     

In vitro secondary generation of cytotoxic T lymphocytes in mice with mumps virus and their mumps-specific cytotoxicity among paramyxoviruses.

Murine cells (L929, MC57G, and P815 mastocytoma) defectively infected with the egg-adapted vaccine strain of mumps virus were found to be susceptible to cytotoxic T-lymphocyte (CTL)-mediated lysis. In vitro secondary, but not in vivo primary, generated CTL caused cytolysis of these targets in an H-2-restricted manner. UV-inactivated-mumps virus-coated murine cells were also found to be susceptible to CTL-mediated lysis. Comparisons of murine CTL-mediated lysis by three paramyxoviruses (mumps, Sendai, and Newcastle disease viruses) indicated that no cross-reactivity occurred. The CTL response with mumps virus exhibited specific unresponsiveness patterns, as influenced by the H-2 K/D regions of the mouse strains, that were partially different from those of Sendai virus and Newcastle disease virus.     

T cell antigen receptor triggered exocytosis in cytotoxic T lymphocytes is inhibited by soluble, but not immobilized monoclonal antibodies to Lyt-2 antigen

The effect of monoclonal antibodies (mAb) to surface antigens on the T cell antigen receptor (TcR)-triggered exocytosis of intracellular granules in cytotoxic T lymphocytes (CTL) was studied. Soluble anti-LFA-1, anti-TcR, and anti-Lyt-2 mAb inhibited both CTL-inflicted 51Cr-release from the target cell (TC) and TC-stimulated exocytosis of granules from cloned CTL. Soluble anti-TcR and anti-Lyt-2 mAb but not soluble anti-LFA-1 mAb inhibited exocytosis, which was triggered by solid-phase anti-TcR mAb. Immobilized anti-Lyt-2 did not inhibit secretion triggered by immobilized anti-TcR mAb; immobilized anti-LFA-1 mAb had an modest inhibiting effect. Inhibition of exocytosis by soluble anti-Lyt-2 mAb was greater when stimulating anti-TcR mAb were immobilized at a lower density on a plastic surface. When the requirement for TcR cross-linking was bypassed by synergistic action of phorbol ester and ionophore A23187, no inhibition of exocytosis by soluble anti-Lyt-2 mAb was detected. The obtained data point to steric hindrance as the most likely explanation of the inhibition of TcR-triggered CTL activation by anti-Lyt-2 mAb.     

Regulatory mechanisms in cytotoxic T lymphocyte development. III. Induction, specificity, and genetic restriction of an in vitro suppressor T cell

We addressed questions pertaining to the immunogenetics of an in vitro alloinduced suppressor T cell (Ts) previously shown to inhibit cytotoxic T-lymphocyte (CTL) development by suppressing CTL precursor proliferation. Using intra-MHC recombinant strains of B10 congenic mice, the requirements for H-2 differences to induce Ts activity, the antigen specificity of the Ts, and the genetic restriction of Ts function were studied. It was found that differences at the K, D, or I regions alone can induce strong suppressor activity. Suppression of CTL development does not appear to be genetically restricted since the Ts inhibit CTL from responder cells disparate at K, K and D, I, or K and I. The alloinduced Ts is specific for the antigen stimulating its induction, but also inhibits CTL responses against immunologically unrelated determinants, even between class I and class II antigens, provided those determinants are carried on cells expressing the original inducing antigen. Ts can be triggered by antigens present on the responder cells but absent on the stimulator cells, indicating that the suppressive signal may be exerted directly on the responder population without specific interaction with stimulator cells.     

The principal tumor necrosis factor receptor in monocyte cytotoxicity is on the effector cell, not on the target cell.

Several tumor target cell lines, prototypically K562 cells, are resistant to lysis by recombinant tumor necrosis factor (TNF alpha) but are killed by monocytes expressing membrane-associated TNF, suggesting that membrane TNF could account for monocyte-mediated cytotoxicity. Formaldehyde-fixed monocytes or extracted monocyte membrane fragments are cytotoxic to K562 target cells. Treatment of monocytes with interferon-gamma (IFN-gamma) increases cytotoxicity by live and fixed cells or by extracted monocyte membranes. Both TNF and TNF receptors are detectable on monocyte membranes by FACS analysis, and the levels of each are modulated by treatment with IFN-gamma. Cytotoxicity can be inhibited by either anti-TNF or anti-TNF receptor antibodies. Incubation of effector cells with exogenous soluble TNF prior to fixation or membrane preparation increases their cytotoxicity. In contrast, incubation of the target cells with exogenous TNF neither increases nor decreases killing by effector cell membrane fragments or intact effector cells. The data suggest that the TNF receptors on the effector cell, but not on the target cell, play a crucial role in TNF-mediated cytotoxicity.     

Phosphatidylinositol 3-kinase is necessary but not sufficient for thrombopoietin-induced proliferation in engineered Mpl-bearing cell lines as well as in primary megakaryocytic progenitors.

Thrombopoietin and its receptor (Mpl) support survival and proliferation in megakaryocyte progenitors and in BaF3 cells engineered to stably express Mpl (BaF3/Mpl). The binding of thrombopoietin to Mpl activates multiple kinase pathways, including the Jak/STAT, Ras/Raf/MAPK, and phosphatidylinositol 3-kinase pathways, but it is not clear how these kinases promote cell cycling. Here, we show that thrombopoietin induces phosphatidylinositol 3-kinase and that phosphatidylinositol 3-kinase is required for thrombopoietin-induced cell cycling in BaF3/Mpl cells and in primary megakaryocyte progenitors. Treatment of BaF3/Mpl cells and megakaryocytes with the phosphatidylinositol 3-kinase inhibitor LY294002 inhibited mitotic and endomitotic cell cycl-ing. BaF3/Mpl cells treated with thrombopoietin and LY294002 were blocked in G(1), whereas megakaryocyte progenitors treated with thrombopoietin and LY294002 showed both a G(1) and a G(2) cell cycle block. Expression of constitutively active Akt in BaF3/Mpl cells restored the ability of thrombopoietin to promote cell cycling in the presence of LY294002. Constitutively active Akt was not sufficient to drive proliferation of BaF3/Mpl cells in the absence of thrombopoietin. We conclude that in BaF3/Mpl cells and megakaryocyte progenitors, thrombopoietin-induced phosphatidylinositol 3-kinase activity is necessary but not sufficient for thrombopoietin-induced cell cycle progression. Phosphatidylinositol 3-kinase activity is likely to be involved in regulating the G(1)/S transition.     

Biology of cloned cytotoxic T lymphocytes specific for lymphocytic choriomeningitis virus: clearance of virus in vivo.

Our data show that 1 X 10(7) to 1.5 X 10(7) lymphocytic choriomeningitis virus-specific, H-2-restricted cloned cytotoxic T lymphocytes (CTL) administered intravenously into acutely infected mice totally cleared virus from the spleens (10(4) to 10(5) PFU per spleen reduced to less than 50 PFU per spleen) by 24 h. This activity was genetically restricted in that cloned CTL could reduce titers of infectious virus in syngeneic C57BL/6 mice but not allogeneic BALB/c mice. Dose-response analysis indicated that at least 3 X 10(6) to 5 X 10(6) cloned CTL injected intravenously were needed to reduce significant amounts of infectious virus in the spleens. No infectious virus could be recovered from the spleens for at least 4 days after injection of cloned CTL. Hence, CTL play a major role in elimination of infectious virus from spleens during lymphocytic choriomeningitis virus infection. Our results also indicate that cloned CTL propagated in vitro for long periods of time can mediate a biologically relevant effect in vivo. These cells should be of considerable value in defining the precise manner in which CTL bring about control of viral infection, analyzing lymphocyte trafficking, and the potential use of cloned CTL in immunotherapy against viral disease.     

Differences in oncogenic potency but not target cell specificity distinguish the two forms of the BCR/ABL oncogene.

Two forms of activated BCR/ABL proteins, P210 and P185, that differ in BCR-derived sequences, are associated with Philadelphia chromosome-positive leukemias. One of these diseases is chronic myelogenous leukemia, an indolent disease arising in hematopoietic stem cells that is almost always associated with the P210 form of BCR/ABL. Acute lymphocytic leukemia, a more aggressive malignancy, can be associated with both forms of BCR/ABL. While it is virtually certain that BCR/ABL plays a central role in both of these diseases, the features that determine the association of a particular form with a given disease have not been elucidated. We have used the bone marrow reconstitution leukemogenesis model to test the hypothesis that BCR sequences influence the ability of activated ABL to transform different types of hematopoietic cells. Our studies reveal that both P185 and P210 induce a similar spectrum of hematological diseases, including granulocytic, myelomonocytic, and lymphocytic leukemias. Despite the similarity of the disease patterns, animals given P185-infected marrow developed a more aggressive disease after a shorter latent period than those given P210-infected marrow. These data demonstrate that the structure of the BCR/ABL oncoprotein does not affect the type of disease induced by each form of the oncogene but does control the potency of the oncogenic signal.     

Identification of the cell population involved in viral-specific cell-mediated cytotoxicity in man: evidence for T cell specificity.

The nature of the cell population involved in lymphocyte mediated cytotoxicity to baby-hamster-kidney (BHK-21) target cells persistently infected with rubella virus was investigated by a 51Cr-release microassay. After depletion of the T cell population with an antiserum to human0thymus-lymphoid tissue antigen (HTLA), the purified B cell population showed a decrease in E-rosette formation (9.0 +/- 2.2% compared to 69.6 +/- 9.1% before treatment) and an insignificant degree of cytotoxic activity against rubella-infected target cells (specific immune release of 51Cr was 0.9 +/- 2.6% compared to 24.2 +/- 3.8 before treatment). A purified T cell population, prepared by depletion of B cells with an anti-human immunoglobulin serum and complement, was found to show no alteration in E-rosette formation (85.2 +/- 6.2%) or cytotoxicity (30.3 +/- 4.4% SIR) but showed decreased EA- and EAC-rosette formation (2.7 +/- 1.5% and 10.5 +/- 3.2%, respectively, compared to 19.4 +/- 2.9% and 28.0 +/- 4.1% before treatment). A monocyte-depleted population prepared by removal of the plastic adherent mononuclear cells showed no significant alteration of rosette formation or cytotoxicity. These experiments suggest that the predominant lymphoid population responsible for direct cell-mediated cytotoxicity to virus infected target cells in the 51Cr-release microassay appears to be effected by a thymus-dependent lymphocyte population.     

T-cell receptor:CD3 down-regulation is a selected in vivo function of simian immunodeficiency virus Nef but is not sufficient for effective viral replication in rhesus macaques

We investigated the function of severely truncated simian immunodeficiency virus (SIV) Nef proteins (tNef) in vitro and in vivo. These variants emerged in rhesus monkeys infected with SIVmac239 containing a 152-bp deletion in the nef-unique region and have been suggested to enhance SIV virulence (E. T. Sawai, M. S. Hamza, M. Ye, K. E. Shaw, and P. A. Luciw, J. Virol. 74:2038-2045, 2000). We found that the tNef proteins were unable to down-regulate the cell surface expression of major histocompatibility complex class I proteins, CD4, and CD28 and neither stimulated SIV replication nor enhanced virion infectivity. The tNef proteins did efficiently down-regulate T-cell receptor (TCR):CD3 cell surface expression. Nevertheless, the SIVmac239 tnef variants were strongly attenuated in six infected juvenile rhesus macaques. Thus, while the ability of SIV Nef to down-modulate TCR:CD3 cell surface expression apparently confers a selective advantage in vivo, it is insufficient for efficient viral replication in infected macaques. Additional mutations elsewhere in SIVmac239 tnef genomes are required for a virulent phenotype.     

Clonal anergy is induced in vitro by T cell receptor occupancy in the absence of proliferation.

Murine Th1 clones that receive signals through their TCR in the absence of APC-derived co-stimulatory signals do not produce IL-2 and instead become anergic, i.e., they are subsequently unable to produce IL-2 in response to Ag and normal APC. The critical cellular event required to prevent the induction of this anergic state appears to be T cell proliferation. Anergy was induced when T cell clones were stimulated under conditions where both TCR occupancy and costimulatory signals were provided but where proliferation in response to the IL-2 produced was prevented. Once induced, anergy could be reversed if the T cells were allowed to undergo multiple rounds of cell division. These results show that anergy is induced as a consequence of TCR occupancy in the absence of cell division; this can be achieved either by limiting IL-2 production because of deficient provision of co-stimulatory signals or by preventing response to IL-2.     

Modification of the cytotoxic T cell repertoire in neonatal tolerance. Evidence for preferential survival of cells with low avidity for tolerogen

Clonal deletion of developing lymphocytes with potential reactivity for self is thought to play a crucial role in the establishment of self tolerance. One prediction of the clonal deletion hypothesis is that cells bearing receptors with high affinity for self are more likely than cells with low affinity receptors to be deleted from the repertoire. Experimental models of B cell tolerance have provided evidence for the preferential survival of low affinity cells with specificity for tolerogen in tolerant animals, but no comparable evidence exists for T cells. To examine this issue in T cells, cytotoxic T cell lines specific for the Kb mutant class I H-2 molecule, bm1, were generated from C57BL/6 mice rendered neonatally tolerant of bm1 and compared with anti-bm1 lines generated from normal mice. Compared with normal lines, those from tolerant mice differed in five ways: 1) they grew more slowly; 2) they were less efficient at lysing bm1 targets; 3) they showed different patterns of lysis against a panel of third party targets; 4) their cytotoxic activity against bm1 could be increased in the presence of leukoagglutinin, whereas the activity of normal lines was not increased by leukoagglutinin; and 5) their cytotoxic activity was more susceptible to inhibition by anti-Lyt-2 antibody. Taken together, these results demonstrate that the repertoire of the remaining tolerogen-specific cytotoxic T cells in neonatally tolerant mice is different from the normal C57BL/6 anti-bm1 repertoire, and the results are consistent with the idea that the remaining tolerogen-specific cells are low avidity cells that have preferentially escaped the clonal deletion process.     

Allograft immunity in vitro: V. Generation of cytotoxic effector cells in mixed lymphocyte culture and the specificity of target cell lysis

Cells from one-way mixed lymphocyte cultures lyse allogeneic target cells in vitro. Target cell lysis is effected by lymphoid cells; macrophages do not contribute to cell death to any measurable degree. The cytotolytic effect is detected at the earliest on the 4th culture day, and reaches a maximum on Day 10–12, i.e., considerably later than the peak of cell proliferation. On Day 6 the killer cell is a large cell (blast); later it is a small (lymphocyte). No cytotoxic effect is detected if DNA synthesis and cell division are blocked. Killer cells are not damaged during the lytic reaction. Direct cell-to-cell contacts rather than diffusable factors of long range, such as lymphotoxins, are prerequisites for target cell damage. Target cell lysis is specific. Labeled “third party” target cells, not sharing antigens with the stimulating cell, are not damaged.     

mdr1a-encoded P-glycoprotein is not required for peripheral T cell proliferation, cytokine release, or cytotoxic effector function in mice.

The plasma membrane transport protein P-glycoprotein (P-gp) is expressed by subsets of both CD4+ and CD8+ T cells in mice. The proportion of T cells that express P-gp goes up with age, and the P-gp-expressing subset of the CD4 memory population is hyporesponsive in many in vitro assays. The significance of P-gp expression for T cell function has not been well established, although several reports have suggested that it may promote cytokine export and/or cytotoxic T cell function. To elucidate which T cell functions may require P-gp, we have compared a variety of responses using T cells from wt and P-gp knockout mice. Protein expression and rhodamine-123 efflux studies revealed that peripheral T cells exclusively utilize the mdr1a-encoded isoform rather than the homologous mdr1b or mdr2 isoforms. Comparisons of T cells from mdr1a+/+ and mdr1a-/- mice showed no differences in proliferation or in secretion of IL-2, IL-4, IL-5, IL-10, or IFN-gamma in response to polyclonal stimulation. Moreover, mdr1a-/- T cells produced strong allospecific cytotoxic responses comparable to those of wt T cells. Our results show that P-gp is not a necessary component of peripheral T cell functional responses. Further investigation will be needed to determine the significance of P-gp expression in T lymphocytes.