Regulatory mechanisms in cytotoxic T lymphocyte development. II. Dissociation of in vitro cytotoxic T-lymphocyte and suppressor T-cell activities with L-ornithine

L-ornithine was found to differentially affect the induction of allospecific cytotoxic T lymphocytes (CTL) and suppressor T cells (Ts). At a concentration of 10 mM, ornithine inhibited the development of CTL in a mixed-leukocyte culture (MLC). This same population of cells suppressed the generation of CTL when irradiated and cocultured with fresh syngeneic lymphocytes and alloantigen. Suppression was mediated by Lyt-1-2+ cells and was antigen specific. Suppression was abrogated when IL-2 (10 U/ml) was added to the cocultures, but could not be reversed by increasing the antigen dose. Ornithine was not toxic to CTL precursors but rather arrested their development. Cells from MLC plus ornithine developed CTL activity within 2 days of transfer to secondary cultures in the absence of ornithine. Development of CTL effector cells (CTLe) was augmented by but did not require exogenous IL-2. Generation of CTLe from the MLC plus ornithine population was radiation sensitive and could be inhibited by reexposure to ornithine, even in the presence of IL-2. Thus, Lyt-1-2+ T cells allostimulated in vitro in MLC plus ornithine and lacking CTL activity convey radiation-resistant, antigen-specific suppression.     

Increased ornithine decarboxylase activity and polyamine biosynthesis are required for optimal cytolytic T lymphocyte induction

The objective of the present investigation was to evaluate the requirement for increased ornithine decarboxylase (ODC) activity and polyamine biosynthesis in the induction of cytolytic T lymphocytes (CTL). In this regard, we have utilized alpha-difluoromethylornithine (DFMO), an irreversible inhibitor of ODC. DFMO treatment completely abrogated Con A-induced NW T-cell ODC activity. Similarly, DFMO treatment reduced putrescine and spermidine biosynthesis 100 and 87% respectively by the end of a 48-hr incubation period. Polyamine depletion reduced the Con A-mediated polyclonal induction of CTL by 52 and 81% at 24 and 48 hr of culture, respectively. The effect of DFMO on CTL induction could be reversed by the addition of exogenous putrescine. These data indicate that the observed effects of DFMO on CTL induction were mediated through inhibition of polyamine biosynthesis. Therefore, increased ODC activity and polyamine biosynthesis are required for optimal CTL induction. Furthermore, polyamine depletion did not impair IL-2 production; however, IL-2-dependent proliferation was reduced. These data are the first to discriminate between the requirement for polyamines with regard to IL-2 responsiveness, rather than IL-2 production, during a primary T-cell mitogenic response.     

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.     

The effect of growth hormone and insulin upon MLC responses and the generation of cytotoxic lymphocytes

The ability of growth hormone (GH) and insulin to influence positively T lymphocytes responding to an alloantigen stimulus in vitro was analyzed through the use of a serum substitute system. The presence of insulin but not GH, enables the generation of a successful mixed lymphocyte culture (MLC) blastogenic response. However, the presence of GH during a 5-day MLC allowed for the generation of cytotoxic T lymphocytes (CTL). It was further demonstrated that GH needed to be present during the first 2 days of the culture system, presumably before the entry of the precursor CTL into cell division. The results are discussed in terms of the induction, by the GH, of ornithine decarboxylase activity and how this might relate to the successful generation of CTL activity.     

Regulation of the cytotoxic activity of alloreactive cytotoxic T lymphocytes by helper cells and lymphokines

The cytotoxic activity of alloreactive cytotoxic T lymphocytes (CTL) was maintained and augmented by transferring cells from a 5-day mixed lymphocyte culture MLC into a host culture (HC) containing indomethacin, freshly explanted normal spleen cells, and peritoneal cells which were syngeneic to the MLC cells. The MLC cells used in the transfer experiments were generated by culturing untreated H-2b splenic responders with irradiated H-2d stimulators, or were generated by culturing Lyt-2-depleted H-2b splenic responders with irradiated H-2d stimulators. The allo-CTL were found to be derived from the donor MLC (first culture) when unfractionated MLC cells were transferred into a host (second) culture and incubated for 5 days. In contrast, the allo-CTL were derived from host culture cells when Lyt-2-depleted MLC cells were transferred and the combined cultures incubated for 5 days. In the former case, the augmentation of MLC-derived cytotoxicity did not result from nonspecific expansion of all donor T cells; instead it was mediated by lymphokine(s), distinct from IL-2, produced by helper T cells generated in host culture, which appeared to selectively expand the antigen-specific CTL or to increase the cytotoxic activity of these CTL. The helper T cells were Thy-1+, L3T4+, and Lyt-2-. These findings indicate that antigen-nonspecific help was provided by helper cells or helper factors (lymphokines) generated in the host culture, which maintained and augmented the cytotoxic activity of the fully generated allo-CTL. This helper effect was also seen in the induction of primary allo-CTL responses which could be generated with fewer stimulating cells and with a stronger cytotoxic response at different R/S ratios tested. The generation of allo-CTL in second culture following transfer of Lyt-2-depleted MLC cells to host cultures appears to have involved antigen carryover from the MLC; however, antigen carryover alone was not sufficient. It appears that in the absence of Lyt-2+ suppressor T cells, antigen-specific help might be generated in donor cultures (Lyt-2-depleted MLC) which promoted or recruited the generation of antigen-specific CTL in host culture.     

CD4+CD25+ regulatory T cells attenuate the phosphatidylinositol 3-kinase/Akt pathway in antigen-primed immature CD8+ CTLs during functional maturation

This study was designed to determine the role of CD25(+)CD4(+) regulatory T (Tr) cells in CTL maturation and effector functions using a murine CTL line and in vitro MLC. Tr cells inhibited CTL functional maturation, but had no effect on CTL effector functions. In CD4(+) responder T cell-depleted MLC supplemented with IL-2, Tr cells suppressed mature CTL generation only when added within the first 2 days of culture. Tr cells down-regulated levels of active Akt, but not STAT5 or ZAP70 in Ag-primed immature CTLs. Down-regulation of active Akt was accompanied by a reduction in CTL cell size and IL-2Ralpha expression. In Tr cell-depleted MLC, CTLs were generated that exhibited high levels of nonspecific cytotoxicity. Our in vitro findings suggest that Tr cells regulate functional CTL maturation to generate optimal Ag-specific immune responses through the control of the PI3K/Akt pathway.     

Inhibition of cytolytic T lymphocyte maturation with ornithine, arginine, and putrescine

L-Ornithine was shown to inhibit the development of cytolytic T lymphocytes (CTL) in mixed lymphocyte cultures (MLC). Lymphokines were unable to reverse the suppressive effect, and cytotoxic activity was not revealed by coupling ornithine-inhibited MLC cells to target cells with phytohemagglutinin (PHA). If addition of ornithine to MLC were delayed, sensitivity of CTL to inhibition was reduced after 24 hr and lost by 48 hr. Suppression of CTL development was not due to a toxic effect. MLC washed free of ornithine after 3 days produced detectable cytolytic activity within 24 hr of secondary culture, and to the same degree as the uninhibited MLC control within 48 hr. Cytotoxic cells generated in secondary cultures were Lyt-2+, did not kill the natural killer-sensitive YAC-1 cell line, and were shown to be antigen-specific by virtue of the findings that cytolysis and cold target inhibition were observed only with cells carrying the original, inducing H-2 haplotype. Cytolysis of target cells by normal CTL effector cells was not inhibited by L-ornithine. MLC depleted of accessory cells so that CTL activation was dependent upon addition of lymphokines remained susceptible to inhibition by ornithine. Our findings indicate that in the ornithine-inhibited MLC, CTL precursors undergo clonal expansion, but their maturation is arrested at a precytolytic stage. L-Arginine and putrescine also suppressed generation of CTL in primary MLC, and cells recovered from arginine- and putrescine-inhibited MLC developed control levels of CTL within 48 hr of secondary culture. Inhibition by putrescine was observed in tissue culture medium supplemented with human serum but not with fetal calf serum, presumably due to the presence of diamine oxidase activity in fetal calf serum. Similar to ornithine, the suppressive effects of arginine and putrescine on T lymphocytes were apparently selective for CTL because they did not inhibit mitogen activation with concanavalin A or the production of interleukin 2 and interleukin 3. These findings are consistent with a hypothesis that the inhibitory effects of ornithine, arginine, and putrescine are mediated by polyamines, and exerted on the differentiative stage of CTL development.     

Studies on cytotoxicity generated in human mixed lymphocyte culture

Summary High levels of cytotoxic activity against the natural killer (NK) cell-sensitive target K562 and the NK-resistant target UCLA-SO-M14 (M14) can be generated in vitro either by mixed lymphocyte culture (MLC) or by culture of lymphocytes in interleukin 2 (IL2) (lymphokine activated killer (LAK) cells). The purpose of this study was to identify similarities and differences between MLC-LAK and IL2-LAK cells and allospecific cytotoxic T cells. Induction of cytotoxicity against K562 and M14 in both culture systems was inhibited by antibodies specific either for IL2 or the Tac IL2 receptor. Like NK effector cells, the precursors for the MLC-LAK cells were low density large lymphocytes. However these precursors differed from the large granular lymphocytes that mediated NK cytolysis in sensitivity to the toxic lysosomotropic agent L-leucine methyl ester (LME). The resistance of the MLC-LAK precursors to LME indicated that the precursors included large agranular lymphocytes. Although interferon-gamma (IFN-gamma) is produced in MLC and in IL2 containing cultures, it is not required for induction of either type of cytotoxic activity. Neutralization of IFN-gamma in MLC-and IL2-containing cultures with specific antibodies had no effect on the induction of cytotoxic activities. Both allospecific cytotoxic T lymphocyte (CTL) and LAK activities were enhanced by IL2 and IFN-gamma at the effector cell stage. However, the mechanism of cytolysis was different in the two systems. NK- and MLC-induced LAK activities were independent of CD3-T cell receptor complex while CTL activity was blocked by monoclonal antibodies specific for the CD3 antigen. These results suggest that NK and the in vitro induced LAK cytotoxicities are a family of related functions that differ from CTL. Furthermore, MLC-induced and IL2-induced cytotoxicities against K562 and M14 appear to be identical.This work was supported by NIH grant CA34442     

Suppression of lymphocyte alloreactivity by early gestational human decidua. II. Characterization of the suppressor mechanisms

We have earlier shown that first trimester human decidual cells (typical decidual cells and decidual macrophages) suppress lymphocyte alloreactivity (MLR and CTL generation) in vitro in an MHC-unrestricted manner and that this suppression is mediated by PGE2. The present study explored the mechanisms underlying this suppression by noting the effects of decidual cells (+/- indomethacin or anti-PGE2 antibody) or chemically pure PGE2 on numerous T lymphocyte activation events following allogeneic stimulation in mixed lymphocyte culture (MLC) or polyclonal activation with Con A. The results revealed that this suppression was the net result of an action of PGE2 on at least two events during lymphocyte activation: (i) a down-regulation of IL-2 receptor development on lymphocytes, quantitated with a radioimmunoassay and radioautography; this was noted in MLC or Con A-stimulated lymphocyte cultures in the presence of decidual cells (reversible in the presence of indomethacin or anti-PGE2 antibody), or PGE2, but not PGF2 alpha; (ii) an inhibition of IL-2 production in the MLC, measured with a bioassay using an IL-2-dependent T cell line (CTLL-2) and a recombinant IL-2 standard. These effects blocked cell proliferation and eventual generation of killer cells in the MLC. Decidual cells or PGE2 did not interfere with IL-2-dependent proliferation of CTLL-2 cells, which require an interaction between IL-2 receptors on these cells and IL-2. Finally, neither agent interfered with the lytic function of CTL, once generated. These results indicate that the PGE2-mediated immunosuppressor function of early gestational human decidual cells is accomplished by an afferent blockade of the early events in T lymphocyte activation.     

Effect of synthetic beta-carotene on the formation of cytolytic T-lymphocytes

The effect of intraperitoneal injection of beta-carotene in different doses on the formation of cytolytic T lymphocytes (CTL) in a one-way mixed lymphocyte culture (MLC) of allogeneic mice was studied. The maximal cytotoxic activity of lymphocytes was attained in the MLC with splenocytes of mice which received 10 mg/kg beta-carotene 6 days before experimentation. The correlation was studied between the beta-carotene ability to stimulate CTL formation and antineoplastic activity. It was discovered that injection of beta-carotene in doses and times provoking maximal CTL induction had no effect on the animals' lifespan and the size of transplanted sarcoma 180.     

Induction and characterization of minor histocompatibility antigens. Specific primary cytotoxic T lymphocyte responses in vitro

A definite cytotoxic activity was developed in a BALB/c (H-2d) anti-DBA/2 primary mixed leukocyte culture (MLC), which received interleukin 2 (IL-2) on day 3 of culture. This cytotoxic activity was minor histocompatibility antigens (MIHA)-specific at the stimulator level, and was not developed in a syngeneic (BALB/c anti-BALB/c) MLC. The addition of IL-2 on day 3 of culture was crucial; no or very weak cytotoxic activity was developed in MLC receiving IL-2 on day 0 or on both day 0 and day 3. Only appropriate MIHA-allogeneic tumor cells were lysed as the target of the cytotoxic activity. The cytotoxic activity seemed MIHA-specific also at the target level; it lysed tumor cells of DBA/2 mouse origin but not those of BALB/c (syngeneic) origin. Phenotypes of the cytotoxic effector cell were Thy-1+ Lyt-2+. We concluded from these results that MIHA-specific cytotoxic T lymphocytes (CTL) were generated in the MIHA-allogeneic primary MLC. In this newly developed system, we studied genetic and antigenic requirements for primary anti-MIHA CTL responses in vitro. We demonstrated; among spleen cells (SC) of seven B10 H-2-congenic strains only SC of B10.D2 strain whose major histocompatibility complex (MHC) (H-2d) was compatible with the responder MHC effectively stimulated responder BALB/c (H-2d) SC for an anti-MIHA (DBA-C57BL-common) CTL response. Similarly, only SC of two out of seven C x B recombinant inbred strains (C x B.H and C x B.D), which were compatible at the MHC with responder SC, activated responder BALB/c SC for the response. The possibility that cells responding to H-2 alloantigens suppressed the anti-MIHA response was ruled out. Additional experiments showed that compatibility at the H-2K-end or the H-2D-end of the MHC was sufficient for a definite anti-MIHA response. These provided formal evidence that primary anti-MIHA CTL responses in vitro were MHC-restricted at the stimulator level. We then showed that sonication-disrupted SC or Sephadex G-10 column-passed nonadherent SC failed to stimulate responder SC for a primary anti-MIHA CTL response, whereas G-10-passed nonadherent SC responded well to adherent stimulator cells. Further study demonstrated that Ia+ adherent cells were the most active cell type as stimulator. Finally, we confirmed that the primary anti-MIHA CTL responses to adherent stimulator cells was MHC-restricted.     

Expression of interleukin-2 receptor on blood lymphocytes stimulated with allogeneic lymphocytes or autologous tumor cells

Summary The kinetics of interleukin-2 receptor (IL-2R) expression and the [³H]dT incorporation of blood lymphocytes after the first and the second stimulation with allogeneic leukocytes (primary and secondary MLC) or with the autologous tumor cells (primary and secondary MLTC) were compared. The expression of IL-2R paralleled the induction of DNA synthesis. The proportion of IL-2R⁺ cells of the unprimed donors peaked earlier in the secondary MLC as compared to the primary MLC (on days 3 and 5 respectively). In MLC of alloimmunized healthy individuals and in the MLTC of cancer patients the highest proportions of IL-2R⁺ cells were detected between days 2 and 3 after both the first and second stimulations. Thus the first in vitro stimulation in the MLTC showed similar kinetics to those of the secondary MLC of unprimed individuals and to the primary MLC response of the allo-immunized individuals. The findings in the MLTC substantiate the hypothesis that cancer patients can be sensitized to their own tumors. The kinetics of the appearance of the IL-2R together with the characteristics of the IL-2-propagated cultures provide useful information for the strategy of expansion of auto-tumor reactive lymphocyte populations.     

Role of uncultured human melanoma cells in the proliferation of autologous tumor-specific cytotoxic T lymphocytes.

The role of uncultured melanoma cells in the proliferation of autologous tumor-specific cytotoxic T lymphocytes (CTLs) was investigated. Uncultured autologous tumor cells by themselves induced modest, but significant, proliferation in 10 of 13 (77%) CTL clones and in only two of nine non-CTL clones. Uncultured allogenic melanoma cells mostly failed to induce CTL proliferation. Autologous tumor-induced CTL proliferation declined with increasing age of the culture. It did not correlate with IL-2 receptor-alpha expression or was not inhibited by addition of anti-IL-2 antibody to the culture. It was inhibited by pretreatment of tumor cells with anti-MHC class II, but not -MHC class I mAb. IL-2 alone was sufficient for the potent proliferation of five of nine CTL clones. In all these five CTL clones, autologous tumor cells suppressed IL-2-induced proliferation. The remaining four CTL clones, however, required both uncultured autologous melanoma cells and IL-2 for the proliferation. IL-4 or IL-6, in particular IL-6, facilitated IL-2-induced CTL proliferation, but not their cytotoxicity. In summary, uncultured melanoma cells by themselves induced modest levels of CTL proliferation in the context of MHC class II antigens, whereas they suppressed IL-2-induced CTL proliferation in more than half of the clones.     

Alloantigen-induced activation of rat splenocytes is regulated by the oxidative metabolism of L-arginine

Activated macrophages have been demonstrated to metabolize the amino acid L-arginine by the oxidative pathway to produce nitric oxide, citrulline, and NO2-/NO3-. Nitric oxide has been shown to be cytostatic for tumor targets and to inhibit the mitochondrial respiration and other functions of the macrophages that produce it. Addition of NG monomethyl-L-arginine (NMA), a competitive inhibitor of oxidative L-arginine metabolism, to rat splenocyte (SPL) MLC results in allospecific lymphocyte proliferation and CTL induction. In the absence of NMA, neither proliferation nor CTL induction is observed. Citrulline and NO2-/NO3- levels in the supernatants of rat SPL MLC are decreased in the presence of NMA compared with cultures without NMA. NMA also augments the proliferation and CTL induction in mouse SPL MLC. Detectable levels of cytokines able to induce T cell proliferation were present in supernatants of rat SPL MLC without NMA on days 1 to 5 of culture. Supernatants of cultures with NMA contained detectable levels of cytokines on days 1 to 3 and undetectable levels by days 4 and 5 of culture, concomitant with the observed lymphocyte proliferation and presumed depletion of cytokines. Thus, inhibition of rat SPL proliferation to alloantigen seems not to be caused by the lack of production of cytokines able to induce T cell proliferation. The inhibition of proliferation and CTL induction in rat SPL cultures may be caused by a direct effect of the cytostatic products of oxidative L-arginine metabolism on lymphocyte proliferation, or by an indirect deleterious effect on the mitochondrial respiration and viability of macrophages that oxidatively metabolize L-arginine. Alternatively, diversion of L-arginine to the oxidative pathway may affect production of polyamines that are necessary for cell growth and proliferation.     

CD4-positive T lymphocytes are required for the generation of the primary but not the secondary CD8-positive cytolytic T lymphocyte response to herpes simplex virus in C57BL/6 mice.

To understand the cellular basis for recovery from HSV infection, it is critical to identify functional interactions between HSV-specific T lymphocyte subpopulations involved in the generation of the optimal response. To this end, the requirement for CD4+ (L3T4+) T lymphocytes in the development of the primary and secondary CD8+ (Lyt-2+) cytolytic T lymphocyte (CTL) response following HSV infection in C57BL/6 mice was investigated. It was found that chronic depletion of CD4+ cells in vivo by treatment with the mAb GK1.5, which resulted in greater than 95% depletion of peripheral CD4+ T lymphocytes in treated animals, caused a profound decrease in the levels of cytolytic activity obtained during the primary response in the draining popliteal lymph nodes of mice responding to infection in the hind footpads. However, treatment did not affect the levels of in vivo secondary CTL activity in the popliteal lymph nodes, nor the in vitro secondary response in the spleen. The decreased CTL activity observed during the primary response was not due to an inability to prime HSV-specific CTL precursors (CTLp), as full cytolytic activity was obtained following culture of lymphocytes in the presence of exogenous IL-2 and antigen, and the response could be reconstituted by treatment with recombinant IL-2 in vivo. Analysis of the secondary CTL response in the spleen indicated that CD4+ cells were not required for either the generation or maintenance of this aspect of the response. However, blockade of IL-2 utilization by CTL using anti-IL-2R antibodies indicated that this lymphokine was absolutely essential for secondary CTL expansion in vitro. Finally, mice that had been infected 12 months previously exhibited a decreased ability to generate secondary HSV-specific CTL in vitro following CD4-depletion in vivo. Taken together, these results suggest two distinct stages of CTL development during the response: an early primary stage dependent upon the presence of CD4+ cells, and a later, CD4-independent stage operative during the secondary response, which decays with time postinfection.     

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.     

Inhibition of T cell-mediated cytolysis by monoclonal antibodies directed against Lyt-2: heterogeneity of inhibition at the clonal level

The inhibitory effect of monoclonal anti-Lyt-2 antibodies on T cell-mediated cytolysis has been investigated at the clonal level. In agreement with previous reports from several laboratories, populations of cytolytic T lymphocytes (CTL) generated in vitro in mixed leukocyte cultures (MLC) were reversibly inhibited by monoclonal anti-Lyt-2 antibodies in a dose-dependent fashion. However, when alloimmune peritoneal exudate lymphocytes (PEL) were used as a source of CTL, little or no inhibitory effect of anti-Lyt-2 antibodies on cytolysis was observed. A series of CTL clones derived from MLC or PEL populations was also tested for inhibition of cytolysis by anti-Lyt-2 antibodies. In agreement with results obtained at the population level, most MLC-derived clones (81%) were strongly inhibited by the reagent, whereas few PEL clones (15%) were inhibited. Several of these clones were expanded and maintained in culture without loss of their "inhibition phenotype." Flow cytofluorometric analysis using the same monoclonal anti-Lyt-2 antibodies further revealed that both inhibited and uninhibited clones expressed comparable amounts of Lyt-2 antigen. These results provide direct evidence that inhibition of CTL by anti-Lyt-2 antibodies is heterogeneous at the clonal level. The possibility that this heterogeneity may be related to avidity of antigen receptors is discussed.     

Differential expression of the repertoire in in vitro and in vivo responses to minor alloantigens

The response to multiple minor alloantigens in the secondary mixed lymphocyte culture (MLC) between mouse strains that are identical at the major histocompatibility complex (MHC) generally yields effector cytotoxic T lymphocytes (CTL) which show cross-reactive killing of most or all third-party mouse strains which also share MHC haplotypes. We have investigated the clonal diversity of CTL responses in vivo versus in vitro by examination of such cross-reactions, using CTL effector cells derived from a primary response, an in vivo secondary response, and an in vitro secondary MLC. CTL from these three responses were assayed on a panel of H-2' targets. Restimulation of antigen-primed spleen cells in vitro yielded CTL which were strongly cross-reactive on all targets, whereas the in vivo responses were much less so. We conclude that the set of clones which become cytotoxic effectors in vivo is much less diverse than the set which is primed on a first encounter with antigen and that powerful constraints must therefore operate on the specificity of in vivo responses to non-MHC antigens.     

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.     

Veto cell H-2 antigens: veto cell activity is restricted by determinants encoded by K, D, and I MHC regions

Responder cells from primary syngeneic and allogeneic one-way mixed-lymphocyte cultures (MLC) specifically inhibit the development of cytotoxic T lymphocytes (CTL) directed against the major histocompatibility complex (MHC) antigens of the MLC responder cells. This special kind of suppressor activity is known as veto suppression. Ia+ cells with veto activity obtained from H-2 recombinant mouse strains were shown to downregulate alloantigen (class II)-specific helper activity for class I-specific CTL development in a primary MLC provided that the veto cells expressed the same I-E alpha subregion as the MLC stimulator cells. The veto-induced suppression of allo-help was prevented by the addition of supernatant from concanavalin A-stimulated spleen cells (Con A-SN) and was inhibited considerably by very high amounts of recombinant interleukin-2 (IL-2). In the presence of Con A-SN, CTL precursors recognizing either the K end or the D end of the veto cell MHC were found to be inactivated. Thus, our results indicate that MLC responder cells include active veto cells expressing Ia region-encoded restriction elements for allospecific T helper cells, as well as K- or D-encoded restriction elements for allospecific T cytotoxic cells.