Cell-mediated immunity to friend virus-induced leukemia. IV. In vitro generation of primary and secondary cell-mediated cytotoxic responses.

Primary and secondary cell-mediated cytotoxic responses to FBL-3 cells, a syngeneic Friend virus-induced leukemia in C57BL/6 mice, could be generated by in vitro techniques as tested by the 125IUdR release assay. The specificity of the cytotoxic reactions appeared to be directed against the Friend type-specific antigen and the FMR (Friend, Moloney, Rauscher) antigen which were also the major antigens for transplantation immunity to FBL-3. In comparison to the primary cytotoxic response, the secondary cytotoxic response was accelerated (detected at an earlier time after sensitization), enhanced (gave much higher levels of cytotoxicity), was also longer lasting, and could be induced by a wide dose range of tumor cells. The secondary response could only be induced with lymphocytes obtained from regressors that were resistant to FBL-3 challenge; lymphocytes from mice with progressive tumor growth had no detectable secondary response. It was found that both induction phase and the effector phase of cytotoxic responses were T cell dependent. The characteristics of these reactions were thus very similar to those obtained with in vivo immunization or challenge, providing a good correlation with in vivo tumor immunity.     

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.     

Specific T-cell-mediated killing of autologous lung tumour cells

The phenomenon that strong syngeneic T-cell-mediated cytotoxicity is observed if killer, stimulator, and target cells share H-2 histocompatibility antigens is called H-2 restriction. Here a syngeneic model system making use of hapten-coupled stimulator and target cells is used to explore whether H-2 restriction is absolute or not. Using TNP-coupled spleen or tumor cells as stimulator or target cells in syngeneic and allogeneic situations, it is shown that neither the induction step nor the effector step of TNP-dependent killing is H-2 restricted. By varying the experimental assay conditions more or less H-2-restricted, TNP-dependent killing can be observed. For instance, suboptimal coupling of TNP to targets may result in H-2-restricted killing. Similarly, the use of spleen cell targets as opposed to spleen blast cells or tumor cells may result in H-2-restricted lysis. In contrast optimal coupling of TNP to sensitive target cells and coupling of TNP to cells with certain H-2 haplotypes may lead to significant TNP-dependent killing which is not H-2 restricted. Since hapten-coupled cells lacking H-2 are neither stimulators nor targets these results suggest that the T-cell receptor recognizes TNP-modified H-2 antigens simply as nonself-H-2. Thus hapten coupling of syngeneic cells appears to lead to a histocompatibility antigen change similar to the situation in an allogeneic cytotoxic reaction. Experiments are presented which support this view showing that TNP-coupled and uncoupled syngeneic or allogeneic stimulator and target cells cross-react. For instance allogeneic sensitization may lead to killing on TNP-coupled targets syngeneic to the effector cells and TNP-coupled stimulator cells syngeneic to the effector cells may induce killing on uncoupled syngeneic targets. TNP-dependent cytotoxicity can therefore be envisaged as a kind of allogeneic reactivity due to modification of H-2 antigens by the TNP coupling. This conclusion may have bearing on other model systems in which syngeneic killing appears to be H-2 restricted. In support of this possibility it is shown that allogeneic sensitization may lead to priming of memory cells able to respond to minor histocompatibility antigens.     

H-2 antigen requirements in the in vitro induction of SV40-specific cytotoxic T lymphocytes

T cytotoxic cells generated to syngeneic SV40 virus transformants lyse only SV40 target cells that are syngeneic at the H-2 locus. In contrast, SV40-specific tumor transplantation immunity shows no requirements for syngeneic H-2. Inoculation of allogeneic or even xenogeneic transformants will confer immunity to a challenge of syngeneic SV40 tumor cells. The experiments described here represent an attempt to reconcile these apparently conflicting observations. In our hands, generation of SV40-specific T cytotoxic cells in vitro requires both in vivo priming and secondary in vitro sensitization. We have found that priming for a secondary syngeneic-restricted response requires only that the cell employed be SV40 transformed. That is, priming may be accomplished with syngeneic, allogeneic, or xenogeneic SV40 transformants. Thus, the apparent lack of H-2 restriction in vivo immunity does not eliminate a role for the H-2-restricted cytotoxic T cell in tumor transplantation immunity.     

Studies on the specificity of in vitro induced lymphocytotoxicity to SV40-transformed fibroblasts.

Cytotoxic effector lymphocytes were induced by in vitro immunization of lymph node and spleen cells from AKR-mice (H-2k) and from BALB/c-mice (H-2d) to syngeneic SV40-transformed fibroblasts. The T cell-dependent cytotoxicity was specific for target cells expressing the same H2-specificity as the immunizing cells. Nontransformed fibroblasts as stimulator cells did not induce efficient cytotoxicity to transformed or nontransformed target cells. Incubation with phytohemagglutinin during the sensitization period modified the specificity of the T cell-mediated lysis of syngeneic SV40-transformed fibroblasts: allogeneic as well as syngeneic target cells were destroyed by these effector cells. However, the polyclonal stimulant activates preferentially cytotoxicity to H2-matched target cells. The in vitro generation of cytotoxic effector cells was restricted to living SV40-transformed fibroblasts as immunizing cells; it was not possible to immunize lymphocytes in the presence of membrane proteins prepared from the SV40-transformed cells. The cytotoxicity of the in vitro immunized lymphocytes was inhibited by incubation with membrane protein preparations from syngeneic or allogeneic SV40-transformed fibroblasts.     

Further studies on the structural requirements of agents for immunotherapy of the guinea pig line-10 tumor

Summary We made a comparative study of the in vivo binding of immunoglobulins (Ig) to a polyoma virus-induced ascitic tumor propagated in syngeneic or allogeneic mice. The Ig coat was found to appear more rapidly and to be denser in H 2-incompatible than in H 2-compatible mice. This suggests that antibodies were fixed specifically on strong normal transplantation antigens (H-2) recognized as non-self by allogeneic mice. Experiments with mice in which immunosuppression had been achieved by means of X-irradiation confirmed that the Ig fixed on SEWA cells are actively bound antibodies. The only mice that could fix Ig on tumor cells were those that had been specifically immunized against cell surface antigens shared by SEWA cells before irradiation, while mice hyperimmunized against nonrelated antigens could not.In partial fulfilment of doctorate thesis requirements     

Resistance to cell-mediated cytotoxicity is correlated with reduction of H-2K gene products in AKR leukemia

AKR leukemia cell lines differing in the amount of H-2K and H-2D antigens expressed on the cell surface were used to assess cell-mediated immune responses in syngeneic mice against Gross/AKR murine leukemia virus (MuLV)-induced tumors. Leukemic cells with reduced expression of H-2K^k antigens were inactive as inducers of Gross-MuLV/H-2^k-specific cytotoxic T lymphocytes (CTL) and resistant to lysis by CTL raised against H-2K^k positive AKR leukemia cells. H-2K^k positive leukemias induced cytotoxic effectors, which upon restimulation in vitro, lysed the stimulating and other H-2K^k positive leukemia cells. In antibody inhibition experiments, T-cell-mediated cytotoxicity to these leukemias could only be inhibited by antisera and monoclonal antibodies specific for the H-2K^k antigens. Due to this specific role of H-2K^k antigens in T-cell cytotoxicity to Gross/AKR MuLV-induced tumors, reduced expression of H-2K^k antigens on spontaneous AKR leukemic cells could have important implications for surveillance of these neoplastic cells.Abbreviations used in this paper CTL cytotoxic T lymphocytes - MuLV murine leukemia virus     

Functional heterogeneity in allospecific cytotoxic T lymphocyte clones. II. Development of syngeneic cytotoxicity in the absence of specific antigenic stimulation

Two out of four long-term murine allospecific cytotoxic T lymphocyte (CTL) clones tested could develop high levels of cytotoxicity against syngeneic target cells when cultured under appropriate conditions. All CTL clones maintained strict allospecificity so long as they were cultured with both appropriate allogeneic stimulator cells and growth factor (supernatant from secondary mixed lymphocyte cultures). In two of the clones, syngeneic reactivity rapidly developed when the allogeneic stimulator cells were replaced with syngeneic or third party stimulator cells, and when the supernatant from EL4 thymoma cells stimulated with phorbol ester was used as growth factor. In addition to killing the appropriate allogeneic target, clones with syngeneic reactivity could kill both syngeneic C57BL/6 targets and H-2-congenic BALB.B targets but not third party unrelated targets, suggesting that the self structure recognized was coded for within the major histocompatibility complex. Such clones did not kill the natural killer (NK) target YAC. The results obtained from cold target inhibition and from subcloning at limiting dilution of clones with syngeneic reactivity suggested that both allogeneic and syngeneic reactivity could be expressed by the same individual cell in the CTL clone. The specificity for syngeneic H-2 as opposed to third party H-2 and NK-sensitive target cells, and the observation that both allospecific and syngeneic killing could be partially blocked by anti-Lyt-2 antibody treatment of the CTL, strongly suggested that different recognition structures are involved in CTL-mediated syngeneic cytotoxicity and NK cytotoxicity.     

Virus-specific T-cell sensitization

Syngeneic, semiallogeneic, or allogeneic spleen lymphocytes were transferred intonu/nu BALB/c mice, which were infected with vaccinia virus. Specific Sensitization of transferred thymus-derived cells was determined in vivo by mean survival time and virus titer in the spleen six days after infection, and in vitro by cell-mediated cytolysis of vaccinia virus-infected syngeneic target cells. Virus-specific Sensitization took place only after transfer of syngeneic or semiallogeneic spleen lymphocytes; allogeneic lymphocytes had no influence on mean survival time or virus titer and showed no virus-specific cytolytic activity in vitro. Infection of mice with vaccinia virus-strain WR, Elstree, DIs, or DIs-infected syngeneic fibroblasts resulted in the generation of virus-specific effector cells, while injection of a high amount of inactivated virus particles caused no Sensitization. These results suggest H-2 homology for production of virus-specific effector cells. Propagation of virus is not necessary, since early surface antigens, combined with syngeneic H-2 antigens, suffice for Sensitization of cytolytic T lymphocytes.Abbreviations used in this paper are as follows CMC cell-mediated cytolysis - CTL cytolytic T lymphocyte - LCM lymphocytic choriomeningitis - MHC major histocompatibility complex - MST mean survival time - T cell thymus-derived cell - TCID₅₀ 50 percent tissue culture infective dose     

Mechanisms of leukemogenesis. I. Generation of autoreactive lymphocytes in response to a murine leukemia virus.

Examined in this paper is the capacity of 334C murine leukemia virus (MuLV) to stimulate the generation of virus-specific cytotoxic effector cells in mice of the C57BL/6 strain that are relatively resistant to Friend, Moloney, and Rauscher (FMR) MuLV-induced leukemia, and in BALB/c mice that are relatively susceptible to leukemia induced by FMR MuLV. Generation of cytotoxicity requires in vivo administration of the virus followed by in vitro culture of lymphoid cells from virus-injected animals. Lymphoid cells from MuLV-resistant C57BL/6 donors develop high levels of specific cytotoxicity after secondary in vitro stimulation with syngeneic MuLV-induced tumor cells. Cells derived from these same donors, cultured in the absence of MuLV-induced tumor cells, fail to exhibit cytotoxicity. Secondary in vitro stimulation of lymphocytes from MuLV-susceptible BALB/c animals results not only in generation of cytotoxic reactivity against syngeneic MuLV-induced tumor cells but also induces apparently autoreactive effector cells capable of lysing other H-2d tumor cells as well as normal peritoneal cells bearing H-2d antigens. Moreover, generation of cytotoxicity by BALB/c lymphocytes occurs whether or not MuLV-induced tumor cells are included in the secondary culture system.     

Studies on the induction and expression of T cell-mediated immunity. IV. Non-overlapping populations of alloimmune cytotoxic lymphocytes with specificity for tumor-associated antigens and transplantation antigens.

Two non-overlapping populations of alloimmune cytotoxic T cells with specificity for tumor-associated antigens (TAA) and for histocompatibility antigens (H-2) were characterized by two independent methods. The heterogeneity of cytotoxic cells was demonstrated in spleen cells derived from BALB/c (H-2d) mice sensitized to EL-4 (H-2b) tumor and from C57BL/6 (H-2b) mice sensitized to G-35 (H-2d) tumor cells. Adsorption of immune lymphocytes on monolayers prepared with cells bearing the sensitizing H-2 antigens abrogated the in vitro cell-mediated cytotoxicity (CMC) directed against 51Cr-labeled normal target cells (spleen cells or ConA-activated spleen blasts), whereas significant cytolytic activity to the corresponding 51Cr-tumor cells was still retained. Likewise, in competitive inhibition assays, CMC to 51 Cr-tumor target cells was only partially inhibited by unlabeled normal cells, whereas CMC to 51Cr-normal target cells was completely abrogated. These results suggested that alloimmune cytotoxic lymphocytes are heterogeneous and can be subdivided into two independent populations of restricted specificity. Several experiments suggested that the effector cell population directed against TAA can no longer elicit a graft-vs-host (GVH) reaction in vivo. This was demonstrated by adoptive transfer into lethally-irradiated allogeneic recipients of cytotoxic or primed spleen cells fractionated on host target cell monolayers. Furthermore, these results demonstrated that both effector cells and memory cells possess high affinity binding receptors to corresponding H-2 antigens. The potential use of fractionated immune lymphocytes sensitized to tumor allografts in adoptive immunotherapy is discussed.     

In vivo protection against syngeneic Gross virus-induced lymphoma in rats: comparison with in vitro studies of cell-mediated immunity.

Spleen cells at various times after inoculation of W/Fu rats with a syngeneic Gross virus-induced lymphoma, (C58NT)D, were tested for their in vivo activity in adoptive transfer experiments and for their in vitro reactivity in a 4-hr 51Cr release cytotoxicity assay and in a mixed lymphocyte-tumor cell interaction assay. In adoptive transfer, the best protection against tumor growth was observed with immune spleen cells taken at 30 days after tumor cell inoculation (the peak of reactivity in the mixed lymphocyte-tumor cell interaction assay) whereas cells taken at 10 days (the peak reactivity in the 51Cr release cytotoxicity assay) gave only partial protection. The protection detected in the adoptive transfer experiments was specific for (C58NT)D associated antigens, and this correlated well with the specificity observed in the in vitro cell-mediated immunity assays. T cells, but not complement receptor-bearing cells or macrophages, were essential for the protection against tumor growth in vivo, and also for the in vitro reactivity in the 51Cr release cytotoxicity and the mixed lymphocyte-tumor cell interaction assays.     

Normal T-cell receptors for alloantigens

To study the diversity of normal mouse T lymphocytes capable of mediating allograft immunity, we modified a cell culture system so that both induction of sensitization and target cell damage could be studied in vitro. Mouse lymph node lymphocytes were sensitized in vitro against allogeneic fibroblasts. The sensitized lymphocytes produced immunospecific cytotoxic effects against target fibroblasts in vitro. We found that T lymphocytes were directly involved in both sensitization and cytotoxicity.We used this allograft system to separate nonsensitized mouse lymphocytes on the basis of their ability to bind to allogeneic fibroblasts. Adhering lymphocytes were found to be enriched in effector cells following sensitization. The nonadhering lymphocytes showed a decreased ability to undergo sensitization against fibroblasts that were syngeneic to the ones used for adsorption. However, they were able to become sensitized against unrelated fibroblasts of another H-2 phenotype.These findings indicate that specific receptors for histocompatibility antigens pre-exist on diverse populations of normal mouse T lymphocytes.     

Role of natural killer cells in resistance against friend retrovirus-induced leukemia

We have previously shown that immunization with a synthetic peptide that contains a single CD4(+) T-cell epitope protects mice against immunosuppressive Friend retrovirus infection. Cells producing infectious Friend virus were rapidly eliminated from the spleens of mice that had been immunized with the single-epitope peptide. However, actual effector mechanisms induced through T-helper-cell responses after Friend virus inoculation were unknown. When cytotoxic effector cells detected in the early phase of Friend retrovirus infection were separated based on their expression of cell surface markers, those lacking CD4 and CD8 but expressing natural killer cell markers were found to constitute the majority of effector cells that lysed Friend virus-induced leukemia cells. Depletion of natural killer cells by injecting anti-asialo-ganglio-N-tetraosylceramide antibody did not affect the number of CD4(+) or CD8(+) T cells in the spleen, virus antigen-specific proliferative responses of CD4(+) T cells, or cytotoxic activity against Friend virus-induced leukemia cells exerted by CD8(+) effector cells. However, the same treatment markedly reduced the killing activity of CD4(-) CD8(-) effector cells and completely abolished the effect of peptide immunization. Although the above enhancement of natural killer cell activity in the early stage of Friend virus infection was also observed in mice given no peptide, these results have demonstrated the importance and requirement of natural killer cells in vaccine-induced resistance against the retroviral infection.     

T-cell-dependent hybrid resistance against a natural killer-resistant Moloney virus-induced lymphoma (YWA): in vitro generation of cytotoxic lymphocytes

A Moloney leukemia virus-induced lymphoma of the A.SW strain, YWA, was used to generate cytotoxic cells in vitro. Cocultivation of spleen cells from in vivo primed syngeneic and semisyngeneic mice with X-irradiated YWA tumor cells for 5 days resulted in a strong killing activity against YWA. The cytotoxicity was H-2 restricted and mediated by Thy-1.2-positive lymphocytes. F1 hybrids with variable degrees of natural resistance to the YWA tumor in vivo all generated cytotoxic cells after secondary stimulation in vitro but showed differences in optimal responder:stimulator requirements.     

Immune responses against allogeneic and syngeneic tumors in aged C57BL/6 mice

Aged C57BL/6 (B6) mice could reject allogeneic BALB/c RL male 1 tumor as efficiently as young B6 mice. However, in vitro analysis showed impaired generation of cytotoxic T cell response in aged B6 mice against allogeneic tumor. The reaction could be augmented by the addition of recombinant interleukin-2 (rIL-2). Enzyme-linked immunospots (ELISPOT) produced by CD8+ T cells purified from spleen cells showed no reduction in aged mice. The findings suggested that the number of CD8+ T cells capable of reacting against allogeneic H-2 antigens was similar in young and aged B6 mice. Low cytotoxic T lymphocyte (CTL) responsiveness in aged B6 mice appeared to have resulted from low responsiveness of CD4+ T cells producing IL-2. Although CTL generation was apparently impaired, strong multiple antigenicity of allogeneic tumor evoked a rejection response in aged B6 mice. On the other hand, no rejection response was observed against syngeneic EL4 tumor in aged B6 mice even after depletion of CD4+ CD25+ immunoregulatory cells. Depletion of CD4+ CD25+ cells caused rejection of EL4 tumor in young B6 mice. The findings suggested that aged B6 mice were incapable of inducing effector cells against weak tumor antigens. Only marginal CTL response and small number of ELISPOTs were generated in young but not aged B6 mice against EL4. Addition of rIL-2 to the culture augmented EL4 killing and ELISPOTs in spleen cells from young and aged B6 mice.     

Lectin-dependent cell-mediated cytotoxicity in hamsters bearing syngeneic tumors

Spleen cells from LSH hamsters inoculated with xenogeneic, allogeneic, or syngeneic (PARA-7) tumor cells were assayed for their ability to mediate direct cell-mediated cytotoxicity (DCMC) and lectin-dependent cell-mediated cytotoxicity (LDCC) in a 4-hr chromium release assay. Spleen cells from animals immune to xenogeneic or allogeneic cells demonstrated specific DCMC against homologous target cells in the absence of Con A and nonspecific LDCC against both homologous and heterologous target cells in the presence of Con A. Spleen cells from animals bearing syngeneic PARA-7 tumors (TBA) failed to express DCMC against homologous or heterologous target cells; however, significant lysis of all target cells occurred in the presence of Con A. LDCC was not detectable when nonsensitized spleen cells from normal animals were employed. The LDCC reaction was dependent on the concentration of Con A and the number of effector cells present in the reaction. The development of LDCC effector cells in the TBA appeared to parallel the development of both DCMC and LDCC effector cells in immune animals.     

Studies on the specificity of in vitro-induced lymphocytotoxicity to methylcholanthrene-induced fibrosarcoma cell lines

Cytotoxic effector lymphocytes were induced by in vitro immunization of lymph node and spleen cells from CS7B16(H2^b) and Balb/c(H2^d) mice to syngeneic or allogeneic methylcholanthrene-induced fibrosarcoma (MCAF) cell lines. The T cell-dependent cytotoxicity was specific to target cell lines to which the lymphocytes were immunized in vitro. Normal fibroblasts as stimulator cells did not induce lymphocytotoxicity to syngeneic MCAF cells or to normal syngeneic fibroblasts. The results indicate that the in vitro-immunized lymphocytes recognize individual specific tumor-associated antigens of the MCAF cells. In experiments in which the lymphocytes were immunized in vitro to allogeneic MCAF cells, cytotoxic reactions to alloantigens, but not to tumor-associated antigens, were detected. Incubation with phytohemagglutinin (PHA) during the sensitization period modified the specificity of the cell-mediated lysis of MCAF cells: Allogeneic as well as syngeneic target cells were destroyed by these effector cells. PHA induced a nonspecific cytotoxic effect which increased the specific lysis of target cells. The cytotoxicity of the in vitro-immunized lymphocytes was inhibited by incubation with membrane protein preparations from the syngeneic MCAF cell lines. In contrast to the specificity of the cytotoxic effect to the different syngeneic cell lines, the membrane extract of one individual syngeneic MCAF cell line was able to inhibit the lymphocytotoxicity to all other syngeneic cell lines. Membrane protein preparations from allogeneic MCAF cells or from normal syngeneic fibroblasts were not inhibitory. The in vitro-immunized cytotoxic lymphocytes did not impair the tumor growth in vivo as could be demonstrated by passive transfer of the lymphocytes in a Winn assay.     

Studies of the mechanisms for the induction of in vivo tumor immunity. I. Induction of primary and secondary cell-mediated cytotoxic responses by adoptive transfer of lymphocytes.

Cell-mediated immunity to FBL-3, a syngeneic Friend virus-induced leukemia in C57BL/6 mice, could be adoptively transferred. Characteristic primary and secondary cytotoxic responses could be induced by adoptive transfer of normal and presensitized lymphocytes, respectively. In vivo tumor immunity could also be produced by adoptive transfer of presensitized lymphocytes. Both the primary and secondary cell-mediated cytotoxic reactions were T-cell dependent. The specificity of these reactions was primarily directed against F (Friend) type-specific antigen and FMR (Friend, Moloney, Rauscher) common antigen. The cytotoxic responses produced by adoptive transfer experiments gave better correlation to in vivo tumor immunity than those generated by in vitro mixed lymphocyte tumor cell culture reactions.     

Lectin-dependent cell-mediated cytotoxicity: induction of a unique effector cell population.

Spleen cells from C57BL/6 (H-2^b) mice were assayed for their ability to mediate lectin-dependent (Con A, PHA) cell-mediated cytotoxicity (LDCC), following immunization with erythrocytes, bovine serum albumin, Bacillus Calmette Guerin, and allogeneic (H-2^d) P815 cells. Sensitization with viable, but not formaldehyde-fixed, P815 cells resulted in lectin-dependent lysis of syngeneic EL-4 cells. All other sensitization procedures failed to produce LDCC. Spleen cells from mice challenged with high (10⁸) doses of P815 cells were capable of mediating both direct (anti-P815) cytotoxicity and LDCC, while challenge with low (10⁴) doses of P815 cells produced strong LDCC reactivity in the apparent absence of direct cytotoxicity (DCMC). Characterization of the effector cells indicated that LDCC reactivity was mediated by an activated, non-adherent T cell population. The effector cells appear to be unique in that LDCC could be induced in the absence of DCMC, LDCC activity appeared prior to DCMC, and DCMC could be removed by adsorption on P815 monolayers without depleting LDCC reactivity.