Secondary cell-mediated cytotoxic response to syngeneic mouse tumor challenge.

When C57BL/6 mice previously immunized with murine sarcoma virus (MSV) were challenged with a Rauscher virus-induced lymphoma, RBL-5, a secondary cell-mediated cytotoxic response could be detected by the Cr release cytotoxicity assay. The level and distribution of the secondary cytotoxic response was affected by the route of challenge. Animals injected i.p. demonstrated a high level of cytotoxicity in the peritoneal exudate cells 3 days after challenge and subsequently cytotoxicity was detected in most lymphoid organs, although at lower levels. However, when the animals were challenged intramuscularly in the leg, the response was not detected as rapidly and furthermore cytotoxic lymphocytes were found only in the draining lymph node and not in other lymphoid organs. Treatment of the effector cells with anti-theta and complement showed the secondary response to be predominately dependent on T cells. In addition, the cytotoxicity was specific in that cells lacking cross-reacting antigens were not killed by these attacker cells from mice undergoing a secondary response.     

In vitro sensitization of human lymphoid cells to antigens on cultured melanoma cells: II. Sensitization against melanoma-associated antigens

Peripheral blood lymphoid cells from patients with malignant melanoma can be sensitized on allogeneic or autochthonous melanoma monolayers. Peak cytotoxicity occurred after 5 days of sensitization. Sensitization appeared to be directed against melanoma-associated antigens, as judged by the pattern of cytotoxic reactivity. Sensitized cells were cytotoxic against autochthonous or allogeneic melanoma cells, but not against autochthonous fibroblasts or allogeneic tumor cells of different histologic types. Sensitization of responder lymphoid cells from melanoma patients on allogeneic melanoma cells usually resulted in more pronounced cytotoxicity against autochthonous melanoma target cells than did sensitization on autochthonous melanoma monolayers. These results indicate that cell cultures of human malignant melanoma contain tumor-associated antigens which can sensitize human peripheral blood lymphoid cells in vitro. These results also support the concept that there are cross-reactive tumor-associated antigens in human malignant melanomas.     

Characterization of alloimmunization-induced T lymphocytes reactive against AKR leukemia in vitro and correlation with graft-vs-leukemia activity in vivo

We have reported that immunization of H-2k mice with lymphoid cells from various allogeneic strains induced a population of cells that could eliminate first-passage spontaneous AKR leukemia from the spleens of immuno-suppressed AKR (H-2k) hosts. In the present study, we examined the nature of the cells responsible for this graft-vs-leukemia (GVL) reaction and compared them to cytolytic cells detected in vitro. Spleen cells from alloimmunized CBA/J (H-2k) mice were selectively depleted of various subpopulations by treatment with antibody and complement (C), then tested in vivo for GVL reactivity. Cell suspensions depleted of Thy-1.2+, Lyt-1+, or Lyt-2+ lymphocytes had no significant GVL reactivity, whereas suspensions depleted of NK-1.2+ cells retained GVL reactivity. The GVL-reactive cells persisted in H-2-compatible donor mice for up to 56 days. Lyt-1+2+ lymphocytes that were cytotoxic for cultured AKR leukemia cells in vitro could be detected in the spleens of alloimmunized H-2-compatible mice after expansion of the cells in T cell growth factor. Using quantitative limiting dilution cytotoxicity assays, we found that the frequency of leukemia-reactive cytotoxic lymphocytes (CL) in the spleen showed a direct correlation with the GVL efficacy of the cells in vivo. Alloimmunization was essential for induction of the GVL-reactive cell population. CL in alloimmunized mice consisted of heterogeneous cytotoxic specificities; i.e., some CL were leukemia-specific, others lysed only nonleukemic AKR target cells, and a third group mediated killing of both leukemic and nonleukemic target cells. The CL appeared to be H-2 restricted and specific for non-H-2 antigens shared by the AKR leukemia and the alloimmunizing cells.     

Studies of H-2 restriction in cell-mediated cytotoxicity and transplantation immunity to Leukemia-associated antigens.

H-2 dependency of T cell-mediated cytotoxicity and transplantation immunity to leukemia-associated antigens has been investigated. Through the use of a 20-hr 125IUdR release assay, it was found that the induction of T cell-mediated cytotoxicity against Friend virus-induced leukemias of different H-2 haplotype orgins could be produced by immunization with both syngeneic and allogeneic tumor cells; the effector cells that were generated by syngeneic immunization could also provide effective killing of allogeneic tumor cells, although the killing of allogeneic targets might require a longer incubation time (20 to 40 hr). Furthermore, in vivo transplantation immunity against Friend virus-induced leukemias also was induced by immunization with both syngeneic and allogeneic tumors and syngeneic immunization could induce specific protection against the challenge with a-logeneic tumor in x-irradiated hosts. These findings clearly indicate that, both at the sensitizing phase and effector phase of the immune response, there is no strict H-2 dependency for T cell-mediated cytotoxicity or in in vivo transplantation imunity to leukemia-associated antigens.     

Stimulation of human lymphocytes with irradiated cells of the autologous Epstein-Barr virus-transformed cell line. I. Virus-specific and nonspecific components of the cytotoxic response

Peripheral blood lymphocytes were cocultivated with irradiated cells of the autologous EB virus-transformed cell line at different responder:stimulator (R:S) ratios and the cytotoxic response was assayed up to 12 days later. In cocultures set up at a R:S ratio of 4:1, the response from both EB virus antibody-positive (seropositive) and negative donors was dominated by a broad-ranging NK-like cytotoxicity which did not segregate within the E-rosette-forming subpopulation of effector cells. In contrast, cocultures set up at a R:S ratio of 40:1 and harvested after 10 to 12 days gave rise, in the case of seropositive donors only, to effector T-cell preparations which appeared to be both EB virus specific and HLA-A and B antigen restricted. Strong lysis of the autologous virus-transformed cell line and demonstrable activity against certain allogeneic HLA-A and/or B antigen-related virus-transformed lines occurred in the absence of any significant killing either of the corresponding lines from HLA-unrelated donors or of a variety of EB virus genome-negative target cells (K562, HSB2, BJAB) particularly sensitive to NK-like cytotoxicity; furthermore, lysis of the autologous cell line by these effector T cells was specifically inhibited by monoclonal antibodies binding to HLA-A, B, and C antigens on the target cell surface. This work demonstrates that an HLA-restricted EB virus-specific cytotoxic T-cell response can indeed be induced in vitro by stimulation of fresh lymphocytes with autologous EB virus-transformed cells providing cocultures are set up at the correct R:S ratio.     

Specific and nonspecific infiltration of sponge matrix allografts by specifically sensitized cytotoxic lymphocytes

Urethane sponges coated with allogeneic or syngeneic cells were implanted subcutaneously into mice and the cytotoxicity of infiltrating host cells was assessed in vitro. First-set allogeneic sponges attracted a population of lymphocytes enriched in cytotoxic T cells directed against the alloantigens in the sponge. If two sponges bearing cells of different H-2 specificity were grafted simultaneously to a single recipient, specifically sensitized cytotoxic cells (SSCL) were found in both sponges directed against both sets of alloantigens, although specific infiltration predominated. If a syngeneic and allogeneic sponge were transplanted, SSCL were found in both the syngeneic sponge and allogeneic sponge. These data are interpreted to suggest that chemotactic substances are elaborated at graft sites which can attract circulating SSCL into sites of inflammation and that those released at the specific site are more attractive for SSCL than are those elaborated at sites of nonspecific rejection or healing. In recipients who had previously been sensitized to alloantigens, second-set grafts were rapidly infiltrated by SSCL directed against the sensitizing antigen. First-set indifferent allografts in sensitized recipients were infiltrated by SSCL directed against the previous alloantigens as well as SSCL directed against its own alloantigens. Syngeneic grafts were not infiltrated by SSCL in presensitized recipients. These data suggest that any alloantigenic stimulus can induce the mobilization from lymphoid depots of preformed SSCL directed against another set of antigens; syngeneic grafts cannot. Once mobilized, however, circulating SSCL can respond to specific and nonspecific chemotactic factors elaborated by either healing or rejecting grafts.     

Heterogenous populations of cytotoxic cells in the peritoneal cavity of BALB/c mice immunized with allogeneic EL4 leukemia cells

Adherent cells, presumably macrophages, obtained from the peritoneal cavity shortly after rejection of the allogeneic leukemia EL4, produced effective cell-mediated cytotoxicity (CMC) in vitro. These cytotoxic cells were sensitive to anti-macrophage serum and resistant to anti-thymocyte serum and 10,000 roentgen irradiation. In contrast, a second population of specifically cytotoxic cells were nonadherent, sensitive to x-rays and anti-thymocyte serum, but not to anti-macrophage serum.The two cell populations had a cooperative cytotoxic effect in vitro against allogeneic tumor cells.     

Stimulatory cells in the generation of T-cell-mediated cytotoxicity: Potent stimulating activity of a small radioresistant spleen cell population (RSCs)

The combined effects of irradiation followed by cultivation on a total spleen cell population in order to study the evolution of the stimulating potential in the in vitro generation of allogeneic cytotoxic T lymphocytes (CTLs) were tested. Results revealed that, after 3 days and up to at least 7 days of cultivating irradiated (1000 rad) spleen cells, the remaining living cells (radioresistant spleen cells or RSC) have the same potential to generate CTLs as irradiated noncultivated spleen cells. RSC can resist a 5000-rad irradiation and induce a primary cytotoxic response pattern similar to that of total spleen cells; they act in primary as well as in secondary cultures with optimal responder to RSC ratios of about 100, but are still stimulatory at MLC ratios up to 1000 or 5000. They are lysed by specific allogeneic CTLs and readily inhibit the specific lysis of H-2-identical labeled targets by CTLs. RSCs do not express unusual levels of H-2 or Ia antigens and do stimulate purified T cells. Alloantisera anti-H-2 are able to completely block the RSC-induced generation of CTL. This RSC population may prove to be a good model to study non-H-2- or H-2-associated, nonserologically detectable determinants interacting in the generation of T-cell-mediated cytotoxicity.     

Propagation of mouse cytotoxic clones with characteristics of natural killer (NK) cells

Splenocytes obtained from normal mice (BALB/c nude, BALB/c, C₃H, C57Bl/6) and from mice bearing lung or pulmonary carcinomas were propagated for 1–12 months in the presence of crude or mitogen-depleted T-cell growth factor (TCGF). Clones from several TCGF-propagated lymphoid cell lines were established by limiting dilution or the soft agar techniques. All the cultured lines and the majority of the clonal populations derived from them exhibited strong cytotoxic activity in vitro (⁵¹Cr release assay) toward a variety of syngeneic and allogeneic tumor target cells, both freshly obtained and passaged in culture, and both lymphoid and solid in origin, and including targets usually resistant to fresh NK cells. Considerable cytotoxic activity was also observed with several rat and human cultured tumor lines. Only low cytotoxic activity was detected against normal lymphoid mouse cells. Cloned populations generally exhibited more restricted target cytotoxicity than the parental cultured lines, and the pattern of reactivity varied among the clones. Of the clones tested for surface markers, all were positive for Thy 1.2, T200, and asialo GM1 and had strong binding to peanut agglutinin (PNA), all had undetectable receptors for IgG or IgM, and some were positive for Lyt 2. The cytotoxic activity was augmented by pretreatment of the effector cells with interferon and inhibited by the presence of mannose or galactose during the assay. Several clones were capable of mediating antibody-dependent cellular cytotoxicity and lectin-induced cellular cytotoxicity (LICC), and produced relatively large quantities of interferon and lymphotoxinlike material. The findings indicated continuous culturing in TCGF of previously antigen-nonstimulated mouse lymphocytes selects for the growth of at least two distinct populations with activated NK activity, one reacting preferentially with lymphoid tumor target cells (designated CNK-L), and the second reacting effectively with both lymphoid and solid tumor targets (designated CNK-SL). Both populations have several features of both T lymphocytes and NK cells.     

Systemic priming of alloreactive cytotoxic cells in carp, following anal administration of allogeneic cell antigens

In the present study, we confirmed that cellular immune responses, especially specific cell-mediated cytotoxicity, could be induced in systemic carp leucocytes, following anal administration of antigens. Effector cells isolated from systemic lymphoid tissues (head kidney, spleen and peripheral blood) of carp that were immunised anally with allogeneic cells (EPC or KG cell line) efficiently lysed immunogenic target cells. The lytic activity was increased as a result of secondary sensitisation and peaked around 7 days after the final immunisation. In some aspects, the alloantigen-specific cell-mediated cytotoxicity induced by anal sensitisation was different from that induced by intraperitoneal (i.p.) injection. First, the activity induced by anal immunisation was higher than that resulting from i.p. immunisation when fish were immunised twice with a 7-day interval, whereas similar kinetics of the cytotoxicity were observed after the final immunisation. Second, repeated anal administrations tended to decrease the cytotoxic activity, although repeated i.p. injections increased the activity. These findings indicate that the anal administration of antigens in fish can elicit and modulate cellular immune responses.     

The role of host lymphocytes and host macrophages in antitumor reactions after injection of sensitized lymphocytes and tumor target cells into naive mice

Summary DBA/2 mice were immunized i.p. against syngeneic SL2 lymphosarcoma cells. At various days after the last immunization peritoneal and spleen lymphocytes were collected. The lymphocyte suspensions were enriched for T-cells by nylon wool filtration.The peritoneal T-cells from immunized mice (a) expressed direct specific antitumor cytotoxicity in vitro, (b) induced macrophage cytotoxicity in vitro, and (c) exerted tumor neutralization measured in a Winn-type assay. Spleen T-cells from these immunized mice (a) expressed no direct specific antitumor cytotoxicity in vitro, (b) only induced moderate macrophage cytotoxicity in vitro, but (c) exerted tumor neutralization in a Winn assay.For effective tumor neutralization in vivo effector target cell ratios of 1000:1 were required. When the effector/target ratio of 1000:1 was maintained but the absolute numbers of effector and target cells were lowered from 10⁶ to 10⁵ lymphocytes and 10³ to 10² target cells respectively, no tumor neutralization was obtained.The major effect of the sensitized-transferred T-lymphocytes seemed to be the induction of cytotoxic macrophages in the (naive) recipient mice, as the peritoneal macrophages collected from the recipient mice 7 days after i.p. injection of a mixture of sensitized T-cells and tumor cells were cytotoxic. Purified peritoneal T-lymphocytes collected from these recipient mice were able to induce macrophage cytotoxicity in vitro but expressed no cytotoxic T-cell activity.In conclusion, our results show that in the tumor system used, tumor neutralization after transfer of sensitized lymphocytes is not dependent on the presence of cytotoxic T-lymphocytes. Lymphocytes with the strongest potency to render macrophages cytotoxic (in vitro and in vivo) also induce the best tumor neutralization in vivo, suggesting an important role for host macrophages as antitumor effector cells.     

Cell-mediated immunity to Friend virus-induced leukemia. III. Characteristics of secondary cell-mediated cytotoxic response.

By employing the 125IUdR release cytotoxicity assay, we have been able to measure the primary and secondary cell-mediated cytotoxic response of C57BL/6 mice to FBL-3 cells, a syngeneic Friend virus-induced leukemia. It was found that the secondary cell-mediated cytotoxic response occurred more rapidly after challenge (within 3 days) than the primary response, and the levels of reactivity were considerably higher. As in the primary response, the secondary cytotoxic reactivity of spleen cells was T cell dependent, being eliminated by pretreatment with anti-theta antibody plus complement. However, the secondary reactivity of pertioneal exudate (PE) cells was not entirely T-cell dependent. The specificity of the secondary cytotoxic response was analyzed by primary or secondary immunization with various tumor cells and by testing of cytotoxic lymphocytes against a variety of target cells. When spleen cells were used for testing, only tumor cells induced by Friend, Moloney, or Rauscher (FMR) leukemia viruses could produce secondary cell-mediated cytotoxic responses against FBL-3 cells. This correlated well with the specificity observed in the in vivo tumor transplantation protection studies. Similarly, spleen cells immune to FBL-3 had appreciable cytotoxicity against tumor cells induced by FMR viruses. The FBL-3 immune mice also gave significant protection against the challenge of FMR leukemias. When PE cells were used for testing, they gave higher levels of cytotoxicity against tumor cells induced by FMR viruses, but also gave less, but appreciable, cytotoxicity against non-FMR tumors. The latter reactivity might be related to the antigens induced by the murine endogenous type C viruses.     

Mechanisms of in vivo generation of cytotoxic activity against allograft: 1. Local differentiation of mature cytotoxic T lymphocytes in rejection of allogeneic lymphocytes

Although cytotoxic activity was not detected within the spleen and regional lymph nodes from mice immunized sc with allogeneic lymphocytes, such activity was detected consistently in glass-nonadherent and anti-θ-sensitive peritoneal exudate cells (PE cells) from Day 5 after immunization and reached a maximum by Day 7. Immunized spleen cells developed cytotoxic T lymphocytes (CTLs) earlier and more effectively than normal spleen cells when transferred ip into X-irradiated syngeneic normal mice together with immunizing antigen, while they did not become cytotoxic when transferred without antigen. These results suggest that spleen and lymph node cells which may have differentiated into some transitional state by in vivo immunization may differentiate into mature CTLs, following direct contact with antigen at the site of graft. CTLs generated there appear to be responsible for the rejection of allogeneic lymphocytes. Cytotoxicity of PE cells was also generated in X-irradiated mice and augmented cytotoxicity was generated by treatment with cyclophosphamide.     

Human T-cell cultures with selective autotumor reactivity

Summary T-cell cultures derived from the blood of 14 patients with solid tumors were propagated with T-cell growth factor (TCGF). The cultures were initiated from lymphocytes exposed to autologous tumor-biopsy cells. TCGF was added either immediately or 3–10 days later. In the former culture type the cell yield on day 7 was considerably higher. The cytotoxic potential of the cultured cells was assayed on two occasions, between days 7 and 10 and between weeks 5 and 8. Cells of all but two cultures had the potential to lyse autologous tumor-biopsy cells.On the population level, cytotoxicity was specific for autologous tumor in those cultures that were driven to growth with TCGF after the 3rd day. These lymphocytes did not lyse allogeneic tumor-biopsy cells. In contrast, all five cultures initiated in the presence of TCGF exhibited a broader cytotoxic potential, i.e., in addition to the stimulator autologous-tumor cells, they also lysed other targets. Another difference between the two culture types was their behavior toward K562. Tested on the 7th day they all lysed K562; however, this function declined in strength or disappeared later in the cultures exposed to TCGF after the 3rd day.Reexposure of the lymphocytes to autologous tumor-biopsy cells after 2 weeks of culture period, but not on the 7th day, induced DNA synthesis. This secondary response was specific inasmuch as allogeneic tumor cells had little or no effect.One of the autotumor restimulated cultures was tested for cytotoxic potential. It increased against the autologous but not against other tumors or K562 cells.     

Immune response to a syngeneic mammary adenocarcinoma. III. Development of memory and suppressor functions modulating cellular cytotoxicity.

Measurement of the development of cytolytic activity by mammary tumor primed or unprimed syngeneic spleen cells on in vitro monolayers of the 13762 rat mammary tumor operationally defined several subpopulations of lymphoid cells involved in the cytotoxic response. In vitro sensitization of cells from Fischer 344 animals injected 2 to 10 days earlier with 2 x 10(7) viable tumor cells always resulted in a higher and earlier lytic response than cells from non-inoculated animals. Adoptive transfer of the same in vivo primed cells for 5 days in irradiated syngeneic hosts removed any cytotoxic cells originally present but subsequent in vitro sensitization still resulted in a higher and earlier cytolytic response. We defined such cells as "memory" cells for cytotoxicity. Memory cells were radiosensitive and specific for the immunizing target cell. In contrast to cells from animals inoculated for 3 to 10 days, cells obtained 11 and 12 days after immunization had a lower response than unprimed cells on vitro sensitization. The anamnestic response could be restored either by culturing 12-day primed cells in vitro for 2 days without antigen or by adoptive transfer for 5 days into irradiated syngeneic rats. This suggests that another population of cells is present in spleen and suppresses the conversion of memory to cytotoxic cells. A more direct measurement of suppressor cell function was obtained by coincubating tumor-primed and unprimed cells on monolayers during in vitro sensitization. Cells from animals bearing tumors for 5 to 10 days always caused an increase in the response of the mixed lymphocyte groups, whereas 11- to 13-day tumor primed cells always caused a marked decrease in the cytolytic response. These results suggest the following interpretation of the kinetics of cell-mediated cytotoxicity to syngeneic tumor inoculation. Cytotoxic cells appear about 6 days after immunization, reach peak levels 2 days later, and then decrease rapidly. Memory cells are generated at a faster rate, reach peak levels before maximum cytolytic activity, but are then functionally inhibited from converting into differentiated cytotoxic cells by a new population of suppressor cells which reach peak activity about 12 days after immunization.     

Allogeneic tumor-specific cytotoxic T lymphocytes

Summary We report the development of cytotoxic T lymphocytes specific for an allogeneic brain tumor in a rat model. DA strain cytotoxic T cell precursors stimulated by an allogeneic tumor (9L gliosarcoma) from the Fischer rat could generate a population of cytotoxic T lymphocytes that lysed the allogeneic 9L tumor but failed to lyse other targets, including Fischer concanavalin-A(ConA)-stimulated lymphoid blast targets. DA T cells depleted of reactivity to the Fischer haplotype (DA-f) retained reactivity to the 9L tumor, demonstrating that T cell precursors with specificity for normal Fischer alloantigens were not required for the generation of a response to the 9L Fischer tumor. The preferential lysis of the tumor target did not simply reflect a higher density of Fischer target antigens on the tumor than that found on normal Fischer ConA blast targets. First, the relative densities of class I antigen on the 9L tumor and normal Fischer ConA blasts were comparable. Second, cytotoxic T cells could not be generated from DA-f precursors when Fischer ConA blasts were used as stimulators. If DA-f T cells were simply responding to the higher density of Fischer antigen found on 9L tumor, it would have been expected that the ConA blasts expressing comparable levels of antigen to that found on the tumor would have generated cytotoxicity for both the 9L and ConA targets. We conclude that the cytotoxic T cells are specific for a determinant expressed only by the tumor. Such tumor-specific cytotoxic T cells could be useful in vivo for adoptive immunotherapy of brain tumors.     

Activation of specific suppressor cells with heat-treated allogeneic tumor cells

The ability of heat-treated allogeneic cells to induce suppressor cells was examined. The tumor cell lines EL-4 (H-2^b) and P815-X2 (H-2^d), were heated to 56 °C for 10 min and injected intravenously into mice of the DBA/2J (H-2^d) and C57BL/6J (H-2^b) strains, respectively. After 4 days, the splenocytes of the treated mice were mixed with normal spleen cells and cultured for 5 days with allogeneic tumor cells. The cytotoxic T-cell response was reduced in cultures of these cell mixtures. An allogeneic difference was required to induce suppression because the syngeneic combination did not induce suppressor cell activity. Furthermore, the induction of cytotoxic T cells to the C118 cell line (H-2^k) was not suppressed by this procedure, which suggests that the suppression was haplotype specific. These suppressor cells were sensitive to anti-Thy 1.2 and complement, cortisone, and cyclophosphamide, but insensitive to irradiation. These are characteristics similar to suppressor cells activated by intact cells. Heat treatment abrogated the tumor cell's ability to induce a proliferative and a primary, but not a secondary, cytotoxic T-cell response. The heat-treated cells also lost their ability to function as cold target inhibitor cells, but retained the same quantity of serologically detected antigens as the intact cells. These results suggest that the serologically detected antigens are responsible for the activation of the suppressor cells of the cytotoxic T-cell response.     

Immune reactivity in SL2 lymphoma-bearing mice compared with SL2-immunized mice

Summary We have studied the rather paradoxical phenomenon of the growth of an antigenic tumor in an immunocomponent host. This phenomenon was studied by comparing (a) the lymphocyte reactivity and (b) the macrophage cytotoxicity, during SL2 growth in DBA/2 mice (SL2-bearing mice) and in DBA/2 mice immunized against SL2 tumor cells (SL2-immune mice). Immune mice rejected a challenge of tumor cells. The immune T-lymphocytes rendered macrophages cytotoxic (arming) and were able to transfer tumor resistance to naive animals. Nonimmunized mice did not reject a challenge of SL2 cells. In these tumor-bearing mice various forms of immune reactivity were tested. Lymphocytes with the capacity to arm macrophages could not be found in the lymphoid organs. However, lymphocytes isolated from the tissue directly surrounding the subcutaneous SL2 tumor could arm macrophages in vitro.Shortly after subcutaneous tumor grafting cytotoxic macrophages were found in the peritoneal cavity. In the serum macrophage arming factors were detected that rendered macrophages cytotoxic in vitro. This cytotoxicity of the peritoneal macrophages and the presence of macrophage arming factors in the serum showed a similar biphasic pattern. The first phase of cytotoxicity between day 3 and 8 after tumor grafting was tumor (SL2) specific. The second phase from day 12 and onwards was not tumor specific. During the first 4 days after SL2 grafting the DBA/2 mice expressed a specific concomitant immunity to a second tumor graft. Then 7 or more days after grafting the first SL2 tumor, the concomitant immunity was nonspecific as the growth of a second SL2 tumor graft and a L5178Y (DBA/2) tumor graft were inhibited. In addition, the immune suppressive activity of serum and lymphocytes was tested. Neither serum nor lymphocytes from SL2-bearing mice suppressed the macrophage arming capacity of SL2 immune lymphocytes. Lymphocytes from tumor-bearing mice did not inhibit the capacity of SL2-immune lymphocytes to transfer resistance to naive animals. On the contrary, lymphocytes obtained from SL2-bearing mice 14 days after SL2 grafting transfered tumor resistance in a Winn-type assay. These data suggest that the growth of an antigenic tumor is due to the inability of the immune system to mount an effective antitumor effector cell population during tumor growth, rather than an immune suppression of the antitumor reactivity, as a limited immune reactivity could be detected in tumor-bearing mice, whereas immune suppression could not be detected.     

The in vitro killing of syngeneic cells by peritoneal cells from adjuvant-stimulated mice.

The cytotoxicity of peritoneal exudate cells from mice which had been injected with anaerobic coryneform organisms which have adjuvant activity was assessed by measuring the release of radioactive chromium from monolayers of whole mouse embryo cells. It was found that the peritoneal cells from adjuvant-stimulated mice were more cytotoxic than cells from normal mice. The increased cytotoxicity was present as early as 2 days after injection of the organisms, and was abolished by trypsin treatment of the peritoneal cells. The cytotoxic effect requires the presence of live peritoneal cells, and is more marked as the ratio of effector to target cells is increased. The plastic adherent cells of the peritoneal cell population are more effective in the cytotoxic reaction than are the non-adherent cells. The stimulated peritoneal cells can kill both syngeneic and allogeneic mouse embryo cells. Consideration is given to the possible mechanisms by which the increased cytotoxicity might be induced.     

Allogeneic responses of human fetal (22- to 25-week) peripheral blood lymphocytes: preferential recruitment of cytotoxic effector cells with both CTL activity and NK-like function

In the present study, we have characterized human cytotoxic effector lymphocytes generated following in vitro immunization of normal fetal (22- to 25-week) peripheral blood mononuclear cells (FPBMC) by an allogeneic Epstein-Barr virus-transformed B-cell line termed LAZ388. Primary stimulations led to strong FPBMC proliferation. However, subsequent addition of LAZ388 cells to the cultures on Day 8 did not trigger conventional secondary responses. In fact, further proliferation of activated FPBMC required the addition of exogeneous interleukin 2. Cytotoxic activity generated in the mixed-lymphocyte reactions was assayed against LAZ388 immunizing cells as well as against the highly susceptible natural killer (NK) target cell line K562. Eight days after stimulation by LAZ388, there was no specific lysis and a moderate NK-like activity. However, following second and subsequent stimulations a strong killing was measured against both LAZ388 and K562 cells. Blocking experiments performed with relevant monoclonal antibodies suggested that cytotoxicity against immunizing cells was conventionally directed at MHC gene products. Effector cells were further studied using cloning procedures; it was found that all cloned cell lines able to kill LAZ388 cells were also strongly active against K562. Both types of cytotoxic function appeared to be mediated via surface receptors physically or at least functionally associated with T3 proteins.