Increased cytolytic T lymphocyte activity induced by 2-mercaptoethanol in mixed leukocyte cultures: kinetics and possible mechanisms of action.

The 20- to 50-fold increase in cytolytic T lymphocyte (CTL) activity caused by the addition of 50 muM 2-mercaptoethanol (2-ME) at the onset of a one-way murine mixed leukocyte culture (MLC) between C57BL/6 and DBA/2 splenic lymphocytes appears to be unrelated to early events in the culture: if 2-ME was present for the first 24 hr of culture only, there was no increase on day 4, but if addition of 2-ME was delayed until the last 24 hr of culture, the CTL activity was almost as high as that of cultures that were exposed to 2-ME for the entire 4-day culture period. The increase of CTL activity caused by delayed addition of 2-ME ("2-ME rescue") was used to investigate the mechanism by which the thiol induces differentiation of CTL from precursor cells. 2-ME rescue was mimicked by two other thiols, dithiothreitol and cysteamine phosphate, but at higher concentrations. Because the latter compound has no free sulhydryl group until it diffuses into cells and is enzymatically dephosphorylated, we conclude that thiols may increase the differentiation of CTL from precursor cells by an intracellular process involving free sulphydryl groups rather than by interaction with membrane sulfhydryls or destruction of inhibitor cells or their products. Cell separation experiments indicated that 2-ME rescue was independent of the presence of B lymphocytes and of adherent cells (macrophages) and was restricted to a subpopulation of T lymphocytes that developed into large lymphoid precursor cells during the first 3 days in culture even without 2-ME. The development of this subpopulation required DNA synthesis between 24 nad 72 hr after the onset of MLC. When 2-ME was added to day-3 MLC, CTL activity increased slightly as early as 4 hr later, but the major increase occurred during the second half of the 24 hr "rescue"period. Because this increase was inhibited by cytosine arabinoside (ARA-C), it seems likely that DNA synthesis is associated with and may be required for the differentiation of large precursor lymphoid cells into CTL after the addition of 2-ME.     

Mechanism of augmentation of the antibody response in vitro by 2-mercaptoethanol in murine lymphocytes: III. Serum-bound and oxidized 2-mercaptoethanol are available for the augmentation

The fetal calf serum (FCS) that was incubated with 2-mercaptoethanol (2-ME) followed by the removal of free 2-ME could support the antibody response to sheep erythrocytes in vitro as effectively as native FCS plus 2-ME. The supporting activity of 2-ME-pulsed FCS was reversibly abrogated by the treatment with dithiothreitol followed by dialysis. In addition, iodoacetamidetreated FCS did not acquire the supportiveness by 2-ME pulsing. These observations suggest that the activity of 2-ME-pulsed FCS would be due to the mixed disulfide between 2-ME and FCS components. On the other hand, the disulfide form of 2-ME (2-ME_ox) could also augment the antibody response as effectively as fresh 2-ME (the reduced form). These derivatized forms of 2-ME as well as fresh 2-ME was found to stimulate the transport of [³⁵S]cystine into murine lymphocytes when the uptake was examined by the long-term experiments (24 hr). These stimulations were thought to be mediated by the formation of the mixed disulfide between 2-ME and cysteine because the lymphocytes promoted the reaction of [³⁵S]cystine with 2-ME_ox- or 2-ME-pulsed FCS to produce the mixed disulfide that had been shown to be taken up by the lymphocytes four to five times more rapidly than cystine. Therefore, it was suggested that 2-ME_ox and 2-ME-pulsed FCS could augment the antibody response in a similar fashion to 2-ME by stimulating the uptake of cystine, an essential amino acid.     

Function of 2-mercaptoethanol as a macrophage substitute in the primary immune response in vitro.

The mechanism by which 2-ME acts as a macrophage-substitute for the induction of a primary PFC response to SRC in vitro was studied in macrophage-depleted mouse spleen cell cultures. 2-ME could replace macrophages only in FCS-supplemented cultures. Evidence is presented that the function of 2-ME is independent of residual macrophages. Neither normal nor macrophage-depleted spleen cell cultures from congenitally athymic nude mice supplemented with 2-ME, with or without FCS, could give rise to a primary in vitro anti-SRC immune response. 2-ME, at an optimal concentration of 10(-5) M, induced DNA synthesis in normal and macrophage-depleted spleen cells in both FCS-containing and serum-free cultures. The peak response occurred on day 3. The stimulation was accompanied by a polyclonal B cell activation to antibody secretion which was much more pronounced in FCS-containing than in serum-free cultures. Spleen cells from nude mice showed a weaker DNA stimulation than did cells from normal mice in FCS-containing cultures, and nearly no response under serum-free conditions. T cells obtained by a nylon column adherence method from normal mouse spleen cells showed good DNA synthetic responses in FCS-containing, but no response in serum-free cultures. These results show that 2-ME has weak mitogenic activity for B cells, and in combination with FCS, strong mitogenic activity for T cells. Since the macrophage provides stimulation to the T cell in the primary anti-SRC PFC response in vitro, these results suggest that the direct mitogenic activity of 2-ME with FCS on T cells provides the functional substitution for macrophages.     

Nonspecific activation of murine lymphocytes. II. Parameters of the interaction between splenic lymphocytes and radiolabeled 2-mercaptoethanol in vitro.

Recent evidence has indicated that addition of 2-mercaptoethanol (2-ME) to culture medium is able to activate murine lymphocytes to undergo blastogenesis, to synthesize polyclonal antibody, and to develop cytotoxicity to both autologous and heterologous target cells. In order to explore the basis for these phenomena, a study of the physical interaction between the cell and 2-ME was undertaken by using a radiolabeled preparation of 2-ME. Uptake of labeled 2-ME increased over the initial 24 hr of culture, after which a steady state was achieved. Cells were found to have maximal susceptibility to activation by 2-ME after incubation for 24 hr in the absence of the thiol compound. This observation was not explicable in terms of any alteration in the kinetics of 2-ME uptake. The amount of labeled 2-ME taken up was a function of the 2-ME concentration with which the cell was incubated, with the exception of the concentration range that is optimal for mitogenesis. At this range, the curve was suggestive of a saturation effect. Uptake by B cell cultures was found to exceed that by T cell cultures. Uptake was shown to result from interaction with protein, to be independent of metabolic energy, to be governed by temperature-dependent kinetics, and to be highly specific.     

Involvement and relative importance of at least two distinct mechanisms in the effects of 2-mercaptoethanol on murine lymphocytes in culture

2-Mercaptoethanol (2-ME) exerts several effects on murine lymphocytes in culture that might explain its ability to enhance survival and growth of these cells. The uptake of the essential amino acid cystine and consequently the maintenance of intracellular glutathione levels are enhanced by 2-ME. Furthermore, 2-ME (even in the disulfide form) causes lymphocytes to release thiols into the culture medium. These effects might protect the cells from oxidative damage. The additional cystine provided by treatment of lymphocyte cultures with 2-ME might also allow adequate protein synthesis to support survival and/or growth. This study was conducted to assess the relative importance of the antioxidant and protein synthesis effects of 2-ME. As expected, 2-ME increased cystine uptake at all concentrations that enhanced growth and survival, but four nonthiol antioxidants that enhanced growth and/or survival either did not substantially affect cystine uptake or decreased it and did not affect the release of cystine or its products. The results presented here demonstrate that antioxidant protection is necessary and sufficient for lymphocyte survival and that cystine uptake in untreated lymphocytes is sufficient to support the protein synthesis needed for survival and limited growth. However, we also noted that concentrations of 2-ME that stimulated maximal growth more than doubled protein synthesis as measured at 8 hr. Thus the portion of the effects of 2-ME not accounted for by antioxidant action could be accounted for by enhanced protein synthesis.     

Dissociation of differentiation and proliferation in the primary induction of cytolytic T lymphocytes by alloantigens

The requirement for DNA synthesis in the induction of cytolytic T lymphocytes (CTL) by alloantigens has been investigated. C57BL/6 splenic T cells purified by passage on nylon wool columns were stimulated in vitro in mixed leukocyte culture (MLC) and assayed for cytotoxicity against 51Cr-labeled target cells. With this system, CTL activity was detectable after 24 hr of MLC and reached high levels after 48 hr. Addition of cytosine arabinoside (ARA-C) or hydroxyurea to such cultures at concentrations that were sufficient to inhibit DNA synthesis by greater than 98% did not reduce CTL activity measured after 24 hr; however, the increase in activity that occurred between 24 and 48 hr in control cultures was strongly reduced (or abolished) by these drugs. Velocity sedimentation analysis of MLC cells activated for 48 hr in the presence of ARA-C further revealed that CTL precursor lymphocytes had enlarged into medium- to large-sized CTL under these conditions. These studies provide direct evidence that the primary induction of CTL by alloantigens can be dissociated into a differentiation step, which occurs within 24 hr in the absence of DNA synthesis and is accompanied by blast transformation, and a subsequent proliferation.     

CSF-responsive bone marrow cells in liquid culture: characterization and screening applications

In a previous study, colony-stimulating factor (CSF) activity assayed in colony culture correlated closely with 3HTdR uptake by human marrow cells depleted of adherent cells. To use this assay for screening media for CSF and immunotoxins for marrow toxicity, cells growing in liquid culture were compared to conventional granulocyte/macrophage (CFU-gm) colony assays. CSF dose-response relationships for liquid and colony-forming assays were nearly identical. 3HTdR uptake by nonadherent marrow cells was CSF dose-related, and there was a linear relationship between number of cells cultured and 3HTdR uptake. Ricin cytotoxicity curves for liquid cultures and CFU-gm were identical on day 7 but showed some disparity with day 14 cultures. Results with all cultures showed 3HTdR uptake to be most closely correlated with CFU-gm colony, rather than cluster, growth. Myeloid cell differentiation in liquid culture was similar to colony cultures, producing mixtures of granulocytes, macrophages and eosinophils. By combining cell and differential counts, production of various myeloid cells could be quantitated. Cytotoxicity of anti-Ia for CFU-gm and liquid culture cells was compared and the majority of both cell populations expressed Ia-like antigens. Simultaneous staining for surface antigens and DNA content was used to characterize proliferating marrow cells, and the vast majority of cells expressed myeloid markers. Transferrin receptors were displayed by cells in S/G2/M and appeared after CSF stimulation on G0/G1 cells. We conclude liquid cultures can be used to screen conditioned media for human CSF and to screen for cytotoxicity to normal myeloid precursor cells. Behavior of CSF-responsive cells in liquid culture appears most closely related to that of CFU-gm colony-forming cells, and characterization of CSF-stimulated cells allows quantitative as well as qualitative estimates of myeloid cell production.     

Immunomodulation of human leukocytes by staphylococcal enterotoxin A: augmentation of natural killer cells and induction of suppressor cells

Staphylococcal enterotoxin A (SEA), a protein isolated from culture supernatants of Staphylococcus aureus, is a potent T-cell mitogen and an inducer of interferon-gamma (IFN-gamma). We report here that SEA exhibits a number of significant in vitro immunomodulatory functions. In vitro treatment of human peripheral blood monocyte-depleted lymphocytes with SEA resulted in significant augmentation of their natural killer cytotoxicity against target cells from hemopoietic (K562, Daudi) or solid (melanoma, lung, colon) human tumor cell lines. SEA was found to be more effective than interferons-alpha (natural or Escherichia coli-derived) in augmenting natural killer (NK) cytotoxicity of peripheral blood lymphocytes. Studies on the kinetics of the augmentation revealed a significant increase of NK within 3 hr of in vitro treatment with SEA at 37 degrees C. A neutralizing monoclonal antibody specific for human IFN-gamma did not affect the augmentation of natural killer cytotoxicity by SEA, suggesting that SEA augmented natural killer cytotoxicity primarily by a mechanism not involving induction of interferon-gamma. Furthermore, in vitro treatment with SEA resulted in significant augmentation of antibody-dependent cell-mediated cytotoxicity and of natural killer-like cytotoxicity, generated in mixed lymphocyte culture, against the K562 targets. Induction of suppressor cells to proliferative responses of autologous or allogeneic mononuclear cells to phytohemagglutinin (PHA) or to allogeneic cells in mixed lymphocyte culture was observed after in vitro treatment of peripheral blood mononuclear leukocytes with SEA for 24 or 48 hr at 37 degrees C. In addition, the presence of SEA in mixed lymphocyte cultures (MLC) resulted in significant inhibition of the generation of specific T-cell-mediated cytotoxicity in MLC. These results suggest that SEA, which may be involved in S. aureus infections and in treatment with extracorporeal perfusion systems over S. aureus columns, can regulate a number of significant lymphoid functions.     

Modulation of in vitro immune responses by monoclonal antibody to T200 antigen

The effects of monoclonal antibody to the T200 antigen on murine mixed-lymphocyte cultures (MLC) and on the generation of alloreactive cytotoxic T lymphocytes (CTL) are investigated. Addition of monoclonal anti-T200 without complement to MLC results in a late suppression of the proliferative response preceded in some cases by an early enhancement. These modulations require the presence of allogeneic stimulator cells; no effects are seen when antibody is added to responders alone. A similar effect is seen on the generation of CTL. Compared to controls without antibody, cultures carried out in the presence of anti-T200 show reduced levels of cytotoxicity measured against allogeneic targets by Day 5. The kinetics of the suppressive effects differ from those seen with anti-Lyt-2, and no suppressive effects are seen with monoclonal antibodies to other cell surface molecules.     

Effects of 1,25-dihydroxyvitamin D3 on the syntheses of DNA and glycosaminoglycans by rat aortic smooth muscle cells in vitro

Studies were made on the effects of 1,25-dihydroxyvitamin D3 [1,25-(OH)2D3] on the syntheses of DNA and glycosaminoglycans (GAG) by rat aortic smooth muscle cells (SMC) in vitro. DNA synthesis in cell cultures without fetal calf serum (FCS) was stimulated by incubation for 24 hr with 1,25-(OH)2D3 at concentrations of more than 10(-12) M, stimulation being maximal at a concentration of 10(-8) M. On the other hand, GAG synthesis was inhibited dose-dependently by 1,25-(OH)2D3 at concentrations of more than 10(-11) M. Other vitamin D3 metabolites had similar, but weaker effects on the syntheses of DNA and GAG by SMC, which were proportional to their affinities for the 1,25-(OH)2D3 receptor. These effects of 1,25-(OH)2D3 were not seen after short-term incubation (1 hr). These findings suggested that 1,25-(OH)2D3 stimulated the proliferation of SMC independent of growth factors in FCS, and that its effects were dependent on its specific receptor. Excess 1,25-(OH)2D3 might cause arteriosclerosis not only by stimulating proliferation but also by suppressing GAG synthesis.     

Differential inhibition of human T-lymphocyte activation by maleimide probes

Cellular thiols are known to be involved in lymphocyte activation, differentiation, and growth. In theory, alkylation of selective cellular thiols could be used to regulate specific processes in the activation sequence by inactivating particular enzymes or structural proteins, although to date specific alkylating probes have not been reported. N-Ethylmaleimide (NEM) is a lipophilic sulfhydryl-alkylating agent that is known to block the in vitro proliferative response of T lymphocytes. NEM (10 microM) was found to be fully inhibitory in PHA, Con A, and MLC assays only when added prior to or simultaneously with the mitogens or allogeneic cells; the addition of NEM only 15 sec after stimulating the cells with PHA resulted in a loss of greater than 50% of the inhibitory activity. The addition of 50 microM 2-ME 10 min after treating the cells with NEM failed to block the inhibitory effect. NEM (10-20 microM) had no adverse effect on lymphocyte viability, but completely blocked lymphocyte agglutination in response to mitogens or allogeneic cells. The lymphocytes overcame the inhibitory effects of NEM after 48 hr in both the PHA and MLC experiments. Resumption of the proliferative response was associated with the onset of agglutination in the PHA assay. In experiments using various analogs of NEM, we noted that the presence of a nonpolar N-linked side group was necessary for inhibitory activity. Pretreatment of PBMC with NEM decreased the total cellular thiols by 50% and blocked proliferation by 99%, whereas N-hydroxymaleimide decreased the total cellular thiols by 38% but had no effect on the proliferative response. The additional 12% of the cellular thiols that react with NEM, but not NHM, account for the inhibitory effect of NEM on lymphocyte proliferation. These findings suggest that selective cellular thiols are critical for T-cell activation.     

Comparative study of intracellular glutathione content in rat lymphocyte cultures treated with 2-mercaptoethanol and interleukin-2

The level of intracellular glutathione (GSH) in mitogen-stimulated mouse lymphocytes is increased in the presence of 2-mercaptoethanol (2-ME), an enhancer of lymphocyte activation and proliferation. Since proliferation of lymphocytes in response to mitogens involves direct activation by a mitogen followed by continued proliferation in response to interleukin-2 (IL-2), we have investigated the effect of 2-ME and exogenous IL-2 on the GSH content and cell proliferation of rat lymphocytes stimulated with phytohemagglutinin (PHA). PHA stimulation increased both GSH content and the magnitude of the proliferative response, as measured by thymidine incorporation into cellular DNA. However, incubation of stimulated lymphocytes with 2-ME or IL-2 for 72 hr produced a significant further elevation of GSH levels and thymidine incorporation. 2-ME also increased the GSH content in unstimulated cultures, but it had little effect on thymidine incorporation. IL-2 increased GSH content and decreased thymidine incorporation in unstimulated lymphocytes. Exposure of cells to DL-buthionine-(S,R)-sulfoximine (BSO), an inhibitor of GSH biosynthesis, significantly depleted GSH and lowered the proliferative response, suggesting a crucial role of de novo GSH synthesis for lymphocyte activation. The data suggest that both 2-ME and IL-2 promote lymphocyte proliferation, although the mechanisms by which intracellular GSH levels are increased by the agents are apparently different.Copies of articles are available through ISI Document Delivery Services c/o The Genuine Article, 3501 Market Street, Philadelphia, PA 19104.     

T cells and the anti-trinitrophenyl antibody response to fetal calf serum and 2-mercaptoethanol

Unprimed murine lymphocytes maintained in culture medium containing fetal calf serum (FCS) and 2-mercaptoethanol (2-ME) developed very high levels of anti-trinitrophenyl (TNP) plaque forming cells (PFC). Both FCS and 2-ME contributed to the response. The development of anti-TNP PFC during culture was accompanied by a 10-fold expansion in the number of immunoglobulin-secreting cells, indicating polyclonal stimulation. However, the number of anti-TNP PFC was disproportionately high and not accompanied by a similar increase in plaques specific for sheep red blood cells. The TNP-specific plaques were not artifacts of the plaque assay since they were 98% inhibited by specific antigen. The in vitro induction of anti-TNP PFC by FCS and 2-ME was common to a number of mouse strains, although some genetic variation occurred. Nylon-wool-separated B cells, nude mouse spleen cells, and bone marrow cells all produced high levels of anti-TNP after culture with medium containing FCS and 2-ME. The addition of T cells to B-cell cultures increased the numbers of anti-TNP PFC by 1.5- to 2.5-fold. The presence of a TNP-cross-reacting antigen in FCS probably contributed to the unexpectedly high anti-TNP response. The response to the antigen in FCS was potentiated by the enhancing activity of 2-ME.     

Proliferative and cytotoxic immune functions in aging mice. II. Decreased generation of specific suppressor cells in alloreactive cultures

The ability of spleen cells from aged C57BL/6 mice to generate specific suppressor cells in mixed lymphocyte cultures (MLC) against allogeneic H-2 antigens was investigated. The suppressor cells from young and old mice were assayed in parallel for their ability to inhibit the proliferative response and the generation of cytotoxicity in fresh MLC. Suppressor cell generation was found to be significantly decreased in 41% of aged mice (23 to 28 mo) as compared to young controls (3-8 mo). The suppressor cells were H-2-specific, radiation-resistant (1000 R), and Thy-1+; they did not function by lysing the fresh stimulators or responder cells, or by absorbing the interleukin 2 in the fresh cultures. Suppression required very small numbers of cells to be effective. It was concluded that the effect of aging was less marked on specific suppressor cell generation than on generation of cytotoxic T cells in the MLC. However, a third type of response studied, the proliferative response, was affected earliest and most severely.     

Generation of cytotoxic T lymphocytes in vitro. VI. Effect of cell density on response in mixed leukocyte cultures.

Reexposure of day 14 murine mixed leukocyte culture (MLC) populations to the original irradiated allogeneic stimulating spleen cells has previously been found to result in the ratpid generation of cytolytic T lymphocytes (CTL) associated with a net increase in cultured cell number. Under the experimental conditions used, day 5 MLC cells appeared unable to respond to the allogeneic stimulus. In order to characterize further the development of the potential for anamnestic reactivity during the course of MLC, C57BL/6 spleen cells were incubated with irradiated (1000 rads) DBA/2 spleen cells (primary MLC) for up to 3 weeks. At various time intervals after the onset of the primary MLC, the surviving cells were collected and reexposed, at varying cell concentrations, to irradiated DBA/2 spleen cells (secondary MLC). At daily intervals thereafter, CTL activity was assessed using a quantitative 51Cr-release assay system. A paradoxic effect of responding cell concentration on generation of CTL activity was observed; relatively greater increase in CTL activity was observed as the concentration of responding cells was decreased over a 100-fold range. This effect was more pronounced with responding cells reexposed to antigen after primary MLC for 20 days, but was observed even with normal cells. The apparent unresponsiveness of day 5 MLC cells to alloantigen restimulation could be overcome by simple dilution of responding cells. Cytotoxic activity at the time of restimulation with antigen seems to be a major factor determining the magnitude of the secondary response. Since intact cells bearing alloantigens are required for the generation of CTL in MLC, residual cytotoxic cells reduce the effective antigenic stimulus by destroying stimulating cells. This effect of concentration of responding cells on generation of CTL in MLC complicates interpretation of experiments investigating the role of "inhibitor" and "helper" cell in cell-mediated immune responses occurring in vitro. Under optimal conditions, the highest CTL activity and the largest increase in total cell number was observed 4 days after restimulation of day 10 MLC cells. On a per cell basis, the lytic activity was up to 4 times greater than that observed at the peak of a primary response, and the number of viable cells recovered was nearly 20 times higher than that at the onset. Such secondary MLC are thus a convenient source of lymphoid cells selected primarily on the basis of proliferation induced by alloantigens.     

Effects of interferon-gamma on the activation of human T lymphocytes

The role of interferon (IFN)-gamma in the activation of human T cells was investigated. Addition of IFN-gamma to mixed-lymphocyte cultures (MLC) augmented both the proliferation and the development of T-cell-mediated cytotoxicity. IFN-gamma also augmented the early expression on CD8+ but not CD4+ lymphocytes of IL-2 receptor alpha chain (Tac antigen) and Class II major histocompatibility antigen (HLA-DR). This effect synergized with that caused by interleukin 2 and was not observed with IFN-alpha. The addition of neutralizing antibody against IFN-gamma to MLC suppressed the development of cytotoxicity and proliferation and the expression of activation antigens on CD8+ cells. In experiments in which highly purified CD8+ T cells were activated with cell-free stimuli, IFN-gamma slightly but significantly augmented proliferation, antibody to IFN-gamma suppressed proliferation, and excess IFN-gamma reversed this suppression. It is concluded that (i) IFN-gamma augmented activation of T cells in human MLC, (ii) IFN-gamma exerted effects directly on T cells, and (iii) IFN-gamma preferentially augmented CD8+ cell activation.     

Glutathione modulates activation-dependent proliferation of human peripheral blood lymphocyte populations without regulating their activated function

L-Buthionine-(S,R)-sulfoximine (BSO) specifically depletes GSH synthesis by inactivating gamma-glutamylcysteine synthetase, whereas 2-ME augments intracellular GSH concentration. These reagents were used to examine GSH regulation of the proliferation and function of human PBL in response to IL-2 or OKT-3 mAb directed at the CD3 T cell Ag. 2-ME enhanced both IL-2-induced proliferation of PBL and CD3- large granular lymphocytes (LGL) and OKT-3 mAb-induced proliferation of CD3+ T cells. BSO partially suppressed activation-induced proliferation in CD3- LGL and CD3+ T cells and totally inhibited the positive co-proliferative regulation by 2-ME in these cells. By contrast, neither BSO nor 2-ME appeared to affect the activation-dependent differentiation of cytotoxic lymphocytes. The absence of effect of 2-ME or BSO on activation-induced PBL NK activity and T cell cytotoxic potential was supported by their negligible effect on the induction of two different markers of activated cytotoxic lymphocytes, namely pore-forming protein gene expression and benzoyloxycarbonyl-1-L-lysine thiobenzylester-esterase activity. BSO inhibition of CD3- LGL proliferation accounted for the inhibitory effects of BSO on both IFN-gamma production in IL-2-stimulated PBL cultures and IL-2-induced PBL lymphokine activated killer activity. The modulatory effects of 2-ME and BSO on lymphocyte proliferation regardless of phenotype (LGL vs T cell) or stimulation (IL-2, via CD3, lectin, etc.) and the functional differentiation of cytotoxic lymphocytes independent of proliferation suggests that these cells share a common site of GSH regulation close to or at the level of DNA synthesis.     

Interleukin 2-mediated induction of lytic activity in a cloned murine CTL line

We have analyzed the ability of interleukin 2 (IL 2) to induce lytic activity within a cloned murine H-2Dd-specific CTL line. Weakly lytic CTL harvested 6 to 7 days after previous stimulation with irradiated DBA/2J spleen cells and conditioned medium from secondary MLC (MLC SN) could be reactivated to high antigen-specific lytic activity with highly purified gibbon IL 2 or E. coli-produced human recombinant DNA IL 2. Dose-response curves with IL 2 and MLC SN suggest that IL 2 may be the principal detectable activity in MLC SN that is active on these CTL. Doses of IL 2 or MLC SN that were saturating for the induction of lytic activity were suboptimal for the expression of DNA synthesis measured by 3HTdR incorporation. This is consistent with a mechanism in which different threshold IL 2 concentrations are required to induce these two biologic responses. Finally, we show that IFN-gamma has little effect on the expression of lytic activity either alone or in combination with IL 2 in this bioassay.     

Allogeneic recognition and killing capacity of immune macrophages in mixed macrophage cultures (MMC).

Stimulation of DNA and RNA synthesis did not occur in mixed macrophage cultures (MMC) consisting of macrophages growing in different allogeneic combinations, compared with syngeneic cultures. Incubation of immune macrophages with either macrophages bearing those alloantigens used for immunization or unrelated alloantigens led to suppression of ³HTdR incorporation. Specific killing, studied by ⁸⁶Rb uptake, was effected by immune macrophages growing in contact with target macrophages bearing the sensitizing alloantigens. Repeated immunization was found to be important for optimal macrophage cytotoxic capacity. Cell crowding was important for maximum killing effect, and no killing occurred when immune macrophages were separated from the specific allogeneic target cells. Immune spleen cells were capable of arming nonimmune macrophages and rendering them cytotoxic. This suggests that macrophage cytotoxicity may be due to a product(s) derived from lymphocytes and attached to the macrophage surface.     

Cytotoxic lymphocytes induced by soluble factors derived from the medium of leukocyte cultures.

Studies were undertaken to evaluate the cytotoxic capacity of human peripheral blood lymphocytes activated by either supernatants (CFM) derived from lymphocyte cultures or lymphocytes treated for 60 min at 45 degrees C. The effect of the addition of heat-treated cells on the cytotoxic activity of CFM-induced effector cells was also studied. CFM from either unmixed or mixed cultures of lymphocytes was capable of activating cytotoxic effector cells. These effector cells could kill any allogeneic target cells but failed to effect cytotoxicity on the target cells autologous to the responding cells. Both the heat-treated cells and CFM from cultures of these cells also activated lymphocytes to cytotoxic effector cells having specific receptors for nonself antigens. The question of whether heat-treated cells activate cytotoxic cells by themselves or through secreted soluble factor cannot yet be clearly answered. The findings of the present investigation suggest that expression of cytotoxicity induced in MLC is not necessarily restricted to the target cells syngeneic to the stimulator cells, but can be extended to any allogeneic target cells by the indirect effect of soluble factor secreted from stimulated cells that causes a polyclonal activation of cytotoxic precursors in the responding cell populations. The present findings also emphasize the need for caution in the use of heat-treated lymphocytes as innocent-bystander cells in MLC to provide additional cytotoxic specificities in the responder cells, since heat-treated cells alone can activate lymphocytes to cytotoxic effector cells that kill any allogeneic target cells.