In vitro generation of suppressor cell activity: suppression of in vitro induction if cell-mediated cytotoxicity.

It was observed that when normal mouse spleen cells were cultured alone in vitro (precultured) for 3 to 7 days, these cells lost the ability to generate cell-mediated cytotoxicity (CML) during subsequent in vitro sensitization with allogeneic spleen cells, trinitrophenyl (TNP)-modified syngeneic spleen cells, or syngeneic tumor cells. These precultured cells, which were themselves unable to generate CML, were also shown in mixing experiments to suppress, actively, the generation of CML by freshly explanted spleen cells. Suppression occurred at the sensitization phase of CML, and not at the effector level; supernatants from suppressive precultured cells were not suppressive. Suppression was totally abrogated by the treatment of spleen cells with a T cell-specific rabbit anti-mouse brain serum and complement (RalphaMB+C) either before or after preculturing, suggesting that a T cell eas essential both to the generation of suppressor activity and to its expression. Suppressor activity was entirely absent in precultured nylon wool column-nonadherent spleen cells, a T cell-enriched population containing most of the RalphaMB+C-sensitive cells in the spleen. Precultured nylon column-adherent cells (T cell-depleted) did have suppressive activity, and a mixture of nylon-adherent and nylon-non-adherent cells was a suppressive after preculture as the precultured unseparated spleen. Moreover, the ability of nylon-adherent spleen cells to generate suppressive activity during preculturing was abrogated by treatment with RalphaMB+C. Thus, the "spontaneous" generation of CML-suppressive activity was dependent upon a limited subpopulation of splenic T cells isolated in the nylon column-adherent fraction. The relationship of these data to a previously described synergy between subpopulations of normal spleen in the generation of CML is discussed, and the findings related to other suppressor systems described in the literature.     

Studies of thymopoietin pentapeptide (TP5) on experimental tumors: I. TP5 relieves immunosuppression in tumor-bearing mice

The allogeneic and syngeneic immune responses of tumor-bearing mice (C57BL/6 mice bearing 3LL and DBA mice bearing P815) were evaluated by the cytotoxic lymphocyte precursor unit (CLP-U) and MLC. In general, tumor-bearing mice showed slightly enhanced immune responses 4 days after tumor inoculation. This enhanced immune response rapidly declined and about 7–10 days after tumor inoculation, both allogeneic and syngeneic responses were markedly lower than normal. Mice treated with TP5, starting 2 weeks before tumor inoculation, retained normal or enhanced allogeneic and syngeneic responses up to 3 weeks after tumor inoculation. When this tumor-induced suppressive effect was studied in cell transfer experiments, spleen cells from tumor-bearing mice enhanced the growth of tumors in syngeneic recipients whereas spleen cells from TP5-treated mice inhibited the growth of tumors in syngeneic recipients. Moreover, the spleen cells from TP5-treated mice also showed enhanced cytotoxic activity against tumor cells in vitro. These findings suggest that the tumors, after a transient stimulatory phase, induced immune suppressive mechanisms in the hosts' immune defenses. Treatment with TP5 prevented the development of these immune suppressive effects and spleen cells from TP5-treated tumor-bearing mice inhibited tumor growth in freshly tumor-inoculated recipients.     

Spontaneously Induced Suppressor Cells In Vitro: Nonspecific Suppression of In Vitro Antibody Formation

Nonspecific suppressor cells were induced during in vitro culture of normal mouse spleen cells (SPC) using the Marbrook culture system. The suppressor cells inhibited both the primary and secondary antibody-formation responses antigen nonspecifically in vitro, and both IgM- and IgG-responses were inhibited. The supernatants from suppressive precultured cells were not suppressive. The suppressor cells also inhibited the response of allogeneic SPC beyond H-2 compatibility. The induction of the suppressor cells did not require the presence of antigen but required fetal calf serum (FCS) or both FCS and 2-mercaptoethanol (2-ME). The suppressor cells were generated from the nylon-wool adherent, radiation-sensitive T cell population. On the other hand, the suppressor cells were nylon-wool nonadherent, relatively radiation-sensitive T cells. Actively antibody-producing cells were not affected by the suppressor cells. The suppressor cells inhibited the mitogenic responses of normal SPC to phytohemagglutinin-P (PHA), bacterial lipopolysaccharide (LPS) and concanavalin A (Con A). The suppressor cells themselves inhibited the growth of EL4 cells (T-cell leukemia of C57BL/6 mouse origin) and MOPCll cells (B cells, plasmacytoma of BALB/c mouse origin) even at a low effector-to-target cell ratio (E:T ratio = 1:1), but did not kill these tumor cells. These results indicate that the target cells of the suppressor cells are both T and B cells, and that the mechanism of action of the suppression is either inhibition of proliferation or inhibition of early events in the course of the immune response.     

Immunoregulatory activity of culture-induced suppressor macrophages

Rat splenic cells precultured in vitro for 5 days exhibited marked suppressive activity on the secondary cytotoxic T lymphocyte (CTL) response to a Gross virus-induced lymphoma. Suppressive activity was produced by macrophages (MØ) rather than lymphocytes and as low as 1% MØ content was sufficient to achieve completely inhibited CTL responses. Aspirin, indomethacin, and d,l-6-chloro-2-methylcarbazole-2-acetic acid prevented cultured splenic MØ from exerting their inhibitory effect, thereby suggesting a role for prostaglandins in suppression. Events which occurred within the first 24 to 48 hr of the CTL response were susceptible to the suppressive action of MØ since normal CTL responses were obtained if suppressive MØ were added later than Day 2 or if indomethacin was added within the first 24 to 48 hr of culture. Two processes of lymphocyte activation, namely blast transformation and DNA synthesis, were inhibited in the presence of suppressive MØ. However, suppression of these processes did not result in the loss of CTL progenitor cells since CTL responses that were inhibited in the presence of suppressive MØ proceeded normally following their removal.     

Cooperation between mouse T-cell subpopulations in the cell-mediated response to a natural poxvirus pathogen.

Irradiated CBA anti-DBA/2 cells (10⁶ cells/culture) suppressed the production of effector cells in cultures containing 10⁷ unprimed CBA (responder) and 10⁶ irradiated DBA/2 (stimulator) spleen cells per culture. The suppressive element was cellular and suppression was specific for the stimulating antigen. The suppressive activity resided in the cytotoxic cell population in that both suppressive and cytotoxic activities were found in cells of the same size range, predominantly in T-cells, were produced in response to similar doses of stimulator antigen, and were produced with the same time course following establishment of first sensitization cultures. Eventual suppression correlated with the cytotoxic activity introduced into second sensitization cultures by suppressor cells. The short-term cytotoxic activity and suppressor activity were both highly radioresistant. These studies indicate that the suppressor cells formed in an in vitro mixed lymphocyte culture are cytotoxic to stimulator cells.     

Cellular interaction against autologous tumor cells between IL-2-cultured lymphocytes and fresh peripheral blood lymphocytes in patients with breast cancer given immuno-chemotherapy

In patients with Stage II or III breast cancer and in patients with liver metastases from breast cancer, we examined cellular interaction in the cytotoxicity against autologous tumor cells by interleukin-2(IL-2)-cultured lymphocytes (CL) and fresh peripheral blood lymphocytes (FPBL) treated with immunochemotherapy including OK-432 and cyclophosphamide. In flow cytometric analysis, CD8 + CD11b+ and CD16+ cells significantly decreased after immuno-chemotherapy in both groups of patients. A protocol study in Stage II or III breast cancer patients showed suppressive activity of FPBL on the cytotoxic activity of CL in 3/9 of the non-treatment group but no suppressive activity and enhancing activity in 3/7 in the immuno-chemotherapy group. Moreover, in 19 patients with liver metastases from breast cancer treated with immuno-chemotherapy including adoptive immunotherapy, FPBL in 6/19 showed enhancing activity, and in 8/19 suppressive activity in the lysis of autologous tumor cells. In assaysin vitro using autologous and allogeneic tumor cells, FPBL showed a partial specificity in cellular interaction against autologous tumor cells. CD4-depleted FPBL inhibited cytotoxicity of CL, while CD8-depleted FPBL enhanced cytotoxicity of CL in patients with liver metastases. These results suggest that immuno-chemotherapy eliminates the suppressive population in FPBL and may induce tumor regression if combined with adoptive immunotherapy using CL.Abbreviations IL-2 interleukin-2 - CL IL-2-cultured lymphocytes - FPBL fresh peripheral blood lymphocytes - AIT adoptive immunotherapy     

In vitro growth of murine T cells. IV. Use of T-cell growth factor to clone lymphoid cells

Murine bone marrow cells can suppress the in vitro primary antibody response of normal spleen cells without apparent cytotoxicity. The bone marrow cells suppress the response to both T-dependent (SRBC) and T-independent (DNP-Ficoll) antigens. When bone marrow cells are fractionated on a sucrose density gradient, the suppressive activity is found in the residue rather than the lymphocyte fraction. The suppressive activity is either unaffected or enhanced by treatment with anti-T- and anti-B-cell serums. Pretreatment of mice with phenylhydrazine which reduces the number of pre-B cells did not reduce the suppressive activity of their bone marrow cells. Suppressive activity is abolished by irradiation of the marrow cells in vitro with 1000 R prior to assay. The activity is present in the marrow of thymus deficient (nude) mice, infant mice, and mice which have been made polycythemic by transfusion. Furthermore, the suppressor cell can phagocytize iron carbonyl particles, is slightly adherent to plastic and Sephadex G-10, and can bind to EA monolayers. We conclude that the suppressor cell is not a mature lymphocyte or granulocyte nor a member of the erythrocytic series, but is likely to be an immature cell possibly of the myeloid series. We speculate on the physiologic role of this cell.     

Immunosuppressive activity of murine newborn spleen cells. I. Selective inhibition of in vitro lymphocyte activation.

Cell-mediated immune responses to newborn lymphocyte alloantigens were investiated using mitogen activation, mixed lymphocyte reaction (MLR) and cell-mediated lympholysis (CML). Spleen cells from 1- to 5-day-old (C57BL/6 × Balb/c) F₁ mice co-cultured with maternal strain (BALB/c) splenocytes did not affect DNA synthesis of maternal strain cells in the presence of concanavalin A or phytohemagglutinin. Newborn cells did inhibit the lipopolysaccharide response of maternal strain lymphocytes and these cells also depressed DNA synthesis when added to MLR cultures of BALB/c and C57BL/6 spleen cells. Newborn cells expressed poor stimulatory capacity in semiallogeneic MLR and also caused marked inhibition of DNA synthesis when added to semiallogeneic MLR containing BALB/c (responder) and CB6F₁ adult splenocytes (stimulator). The suppression of MLR by neonatal cells persisted for the first 2 weeks of life and was associated with a soluble factor released during culture. The suppressive activity was almost completely abrogated after depleting the T-cells from newborn splenocytes. However, these same cells did not interfere with the in vitro generation of cytotoxic lymphocytes in the CML assay. The selective immunosuppressive properties of newborn spleen cells may be important during pregancy by protecting the immunologically alien fetus from rejection by the mother.     

Synergistic cytolytic activity by combined populations of peritoneal T lymphocytes and macrophages during the L5178Y cell tumor-dormant state in DBA/2 mice

It was previously reported that the establishment of the L5178Y cell tumor-dormant state in DBA/2 mice is mediated principally by a peritoneal cytolytic T-cell response that reaches peak levels 4 days after L5178Y cell challenge, lyses more than 99% but less than 100% of peritoneal L5178Y cells, and gradually wanes to background levels by 40–70 days postchallenge (DPC). At this time the majority of mice are clinically normal, and contain a relatively small number of L5178Y cells in the peritoneal cavity. During the tumor-dormant state, mice that harbor more than 10⁴ L5178Y cells contain peritoneal macrophage-mediated cytolytic activity. We report here that tumor-dormant mice that contain fewer than 10⁴ peritoneal L5178Y cells also produce cytolytic activity in vitro, but that it is synergistic, in that the cytolytic activity of adherent (AD) peritoneal cells (PEC) and nonadherent (NAD) PEC cultured together is greater than the additive lysis produced by these cell populations when cultured separately. This synergistic cytolytic activity is: (1) effector cell density dependent, (2) dependent on the tumor-dormant status of the NAD and AD PEC donor mice, (3) protracted in its kinetics during a 48-hr in vitro assay, and (4) dependent on an interaction between NAD T cells and AD phagocytic macrophages. The consistent detection of this in vitro-assayed cytolytic activity in PEC of tumor-dormant mice which harbor small endogenous tumor burdens suggests that it reflects an in vivo cytotoxic effector mechanism involved in the long-term maintenance of the tumor-dormant state.     

Separation of functionally distinct subpopulations of Corynebacterium parvum-activated macrophages with predominantly stimulatory or suppressive effect on the cell-mediated cytotoxic T cell response.

Peritoneal cells (PEC) from mice injected ip with Corynebacterium parvum (CP) showed greatly enhanced suppressive activity on the growth of syngeneic tumor cells and on the generation of alloreactive cytotoxic T lymphocytes (CTL) in vitro. On the other hand, CP-activated PEC exhibited increased immunostimulatory (accessory or A cell) activity as measured by the restoration of the CTL response of nonadherent spleen cells. After fractionation of the CP-activated PEC according to cell size by velocity sedimentation, the mutually antagonistic A cell and immunosuppressive activities were clearly separated and found to be associated with functionally distinct subpopulations of macrophages. Thus A cell function was detected in fractions rich in small and medium sized macrophages which were probably derived from recently arrived monocytes. Immunosuppressive (and anti-tumor) activity was associated with the largest macrophages which were almost devoid of A cell function and probably represented a highly activated and differentiated macrophage subpopulation.     

Generation of cytotoxic lymphocytes to syngeneic tumor by using co-stimulator (Interleukin 2)

Cytotoxic lymphocytes (CL) highly active against the syngeneic mastocytoma, P815, were generated from spleen cells of DBA mice cultured with co-stimulator (Interleukin 2) and P815. More CL activity was generated from spleen cells of P815 tumor-bearing mice than from spleen cells of normal mice. Thymus cells from tumor-bearing mice, however, did not produce increased CL activity. Most of the CL were Thy 1 and Ly 1 positive. The optimal culture conditions and kinetics were similar to those for the generation of allogeneic cytotoxic T lymphocytes. The cytotoxic activity against syngeneic P815 was similar in magnitude to the response of DBA spleen cells to allogeneic tumor lines and to the response of allogeneic CBA spleen cells to P815. Although CL generated from tumor-bearing mice did not lyse normal DBA cells, they did lyse, to a much lesser degree, a number of tumor cell lines other than the sensitizing P815. This nonspecific lysis was not H2 restricted nor was it restricted to tumors of lymphoid origin. Generation of nonspecific cytolytic activity was antigen independent, occurring in the presence of co-stimulator alone.     

Histocompatibility requirements of rat lymphocytes for fetal antigen recognition

The mitogenic response in vitro of DA rat splenic lymphocytes to concanavalin A has been found to be greatly enhanced (up to 800-fold) if the in vitro environment in which the cells are cultured is modified by the addition of nonmitogen-responsive, mitomycin C-treated “filler” cells. The results of the experiments suggest that filler cells may act as “spacer” cells and that the phenomenon is a physical effect in which the additional cells act as non-immunological cushions that modulate suppressive factors limiting cell responsiveness in vitro. Cell viability of the spacer cells was not necessary and the enhanced responses that follow the addition of spacer cells could be duplicated by formalin-fixed cells or even non-biologically active material such as Sephadex or Bio-Gel. Soluble factors released from spacer cell preparations also resulted in a modest increase in mitogenic responsiveness. The experiments further define the conditions for the culture of rodent lymphocytes and underscore the need for controls that eliminate nonbiological effects as explanatory mechanisms where cell collaboration is putatively involved in the generation of cell-mediated immune responses.     

Mouse fetal liver cells manifest antigen-specific suppressor activity

Liver cells obtained from C57B1/6J mice at different stages of development suppress the primary in vitro induced immune response. Fetal liver cells showed the strongest suppression of the PFC response, an effect which was gradually lost after birth. Thymic or splenic cells were ineffective in suppressing the PFC response under conditions where fetal liver cells from the same donors were highly active. Liver cells from newborn C57B1/6J athymic nude mice were equally suppressive as cells from their normal thymus-bearing littermates. Preculture of liver cells from 18-day-old fetuses with antigen homologous to that used in the indicator system increased suppressor activity severalfold compared with other experimental groups in which cells have been precultured in medium alone or with the addition of a heterologous antigen. The data suggest that antigen-specific suppressor activity is present in fetal liver cells. The possible relevance of these findings in relation to acquisition of self-tolerance is discussed.     

Effect of interferon alpha on pokeweed mitogen-induced differentiation of human peripheral blood b lymphocytes

In a previous publication, we reported that B-lymphocyte-deprived mice possess a heightened in vivo resistance to a methycholanthrene-induced syngeneic fibrosarcoma. The present in vitro study has disclosed that spleens of such mice possess a significantly higher cytotoxic activity against the same tumor compared to normal rabbit globulin-injected control animals, and that this increase cannot be accounted for by the mere elimination of B lymphocytes. The cell mediating this response was found to be a natural-killer-like cell on the basis of its organ distribution, its full activation without immunization, its target specificity shown directly and by cold target inhibition experiments, and by its surface markers. It is suggested that this increased activity, which does not appear to decline with age, may be responsible for the heightened in vivo antitumor resistance of T mice.     

Subpopulations of human T lymphocytes. II. Effect of thymopoietin, corticosteroids, and irradiation.

Lymphoid cells from normal SJL/J mice gave high proliferative responses but failed to develop cytotoxic activity to γ-irradiated cells from syngeneic transplantable reticulum cell sarcomas (X-RCS). In spite of a vigorous in vivo proliferative response to X-RCS, cytotoxic activity was never generated to detectable levels in vivo. After repeated injections of X-RCS, spleen and, to a lesser degree, lymph node cells acquired the ability to give moderate secondary cytotoxic responses in vitro upon co-culture with X-RCS. This immunity was T-cell mediated and specific for RCS although it did not distinguish between different transplantable RCS lines. SJL/J mice also developed resistance to RCS growth after injection of X-RCS, which showed a transient RCS-line-specific component. (SJL/J × C₅₇B1/6)F₁ mice showed 60% less RCS growth than did SJL/J mice, and their lymphoid cells gave slightly lower proliferative responses than did cells from SJL/J mice, whereas (SJL/J × BALB/c)F₁ mice showed little tumor growth, and their spleen cells proliferated only minimally to X-RCS. B10.S mice allowed moderate RCS growth. Cytotoxic activity was generated in co-cultures with X-RCS of immunized F₁ spleen cells even after a single immunization in vivo but not in cultures of normal F₁ cells with X-RCS.     

Cell-mediated immune response to syngeneic UV induced tumors: I. The presence of tumor associated macrophages and their possible role in the in Vitro generation of cytotoxic lymphocytes

A primary in vitro sensitization system employing a chromium release assay was utilized to investigate reactivity of murine spleen cells toward syngeneic ultraviolet (uv) light induced fibrosarcomas. These tumors are immunologically rejected in vivo when implanted into normal syngeneic mice but grow progressivly when implanted into syngeneic mice that had previously been irradiated with subcarcinogenic levels of uv light. Following appropriate sensitization, spleen cells from both normal and uv irradiated mice are capable of developing cytotoxic lymphocytes in vitro against the uv induced tumors. It was subsequently discovered that in situ uv induced tumors all contained macrophages of host origin that became demonstrable only after enzymatic dissociation of the tumor tissue. These macrophages were immunologically active in vitro as their presence in the stimulator cell population was necessary to achieve an optimum anti-tumor cytotoxic response following in vitro sensitization. Anti-tumor reactivity generated by mixing spleen cells and tumor cells in the absence of tumor derived macrophages could be greatly enhanced by the addition of normal syngeneic peritoneal macrophages. When in vitro anti-tumor reactivity of spleen cells from normal and uv treated mice was compared under these conditions we again found no significant difference in the magnitude of the responses. In addition, the cytotoxic cells generated in response to uv induced tumors appeared to be highly cross reactive with respect to their killing potential. Cross reactive killing was observed between all uv induced tumors tested as well as with a syngeneic benz[a]pyrene (BP) induced fibrosarcoma. No cytotoxicity was observed against normal syngeneic PEC's even through these cells were shown to be susceptible to lysis by anti-H-2^k effector cells. It was concluded that: (a) A significant number of host-derived macrophages are present in uv tumor tissue. (b) These macrophages are important for the in vitro generation of tumor specific cytotoxicity. (c) Spleen cells from uv treated mice are capable of recognizing and responding against uv tumor associated antigens in vitro. Cytotoxic effector cells generated in response to uv induced tumors appear to have specificity for tumor associated antigens (TAA) present on all uv tumors tested as well as a syngeneic BP induced tumor. The relationship between in vivo and in vitro reactivity against uv tumors is discussed.     

Cell-mediated immune response in vitro. I. The development of suppressor cells and cytotoxic lymphocytes in mixed lymphocyte cultures.

During the in vitro development of cytotoxic lymphocytes (CL), suppressor cells also develop. Spleen cells or lymph node cells harvested from mixed lymphocyte cultures (MLC) on day 2 (day-2 MLC) and added to a fresh MLC suppressed the development of CL. This suppressive effect was sensitive to treatment with anti-theta and C. The suppressive effect of day-2 MLC was not due to cytotoxic effects nor to altered kinetics of the development of both suppressor cells and CL. Although CL develop from hydrocortisone-treated spleen cells, day-2 MLC of hydrocortisone-treated spleen cells did not suppress the development of CL. These studies suggest that suppressor cells and CL are derived from different T cell subpopulations.     

Cellular origin of cytotoxic effectors and secondary educated lymphocytes in human mixed leukocyte reaction

Human lymphocytes sensitized in vitro during a mixed leucocyte reaction (MLR) against an allogeneic-stimulating cell respond by blast transformation and generation of specific cytotoxic effector cells. Both proliferation and cytotoxicity are maximum on Days 6 and 7 of culture. On Day 14, no more dividing cells or cytotoxic cells are detected in such primary cultures. Restimulation by the specific priming cell triggers a secondary proliferative response and rapid reappearance of specific cytotoxic effector cells. The velocity sedimentation cell separation method which separates cells according to their size was applied to human lymphocytes sensitized in vitro during an MLR on Day 7 of culture. Blast cells were separated from nondividing small lymphocytes. It was shown that: (1) cytotoxic effectors generated at the peak of a primary response are exclusively present in the isolated blast population; (2) highly cytotoxic secondary effector cells are induced to reappear mainly from the blast-derived population upon restimulation; and (3) secondary educated proliferative cells mainly derive from the blast population. Conversely, the blast-depleted small lymphocyte population is operationally depleted of cells able to respond by proliferation to the priming cell while responding normally against third party control cells. HLA-D region specificity of the secondary proliferative response is suggested.     

Effect of histamine and histamine antagonists on natural and antibody-dependent cellular cytotoxicity of human lymphocytes in vitro

The in vitro effect of histamine and its antagonists, cimetidine and clemastine fumarate, on natural killer (NK) and antibody-dependent cellular Cytotoxicity (ADCC) activities of human lymphocytes was investigated. The histamine 1 (H1) antagonist, clemastine fumarate, and the histamine 2 (H2) antagonist, cimetidine, but not histamine alone, inhibited the NK and ADCC activities of lymphocytes when added directly to the mixture of effector and target cells in a ⁵¹Cr-release assay. This inhibition was proportional to the concentration of drugs added and was observed at various effector to target ratios against several targets. H1 and H2 antagonists also inhibited NK activities of T cells as well as Percoll-separated, NK-enriched effector cells. The inhibition was significantly reversed by histamine. In target binding assays, clemastine fumarate and cimetidine also decreased the target binding capacity of effector lymphocytes. Further, PBL precultured with histamine (10^?3–10^?4M) for 24 hr showed a significant decrease in their NK and ADCC activities. In coculture experiments, PBL precultured with histamine suppressed the NK activity of normal autologous effector lymphocytes. PBL precultured with histamine showed an increased number of OKT8⁺ cells, as estimated using monoclonal antibodies. The suppression of Cytotoxicity was not due to either direct toxicity, steric hindrance, crowding, or cell death, but by functionally viable suppressor cells. An immunoregulatory role for histamine in NK and ADCC reactions is proposed.     

In vitro induction of primary and secondary xenoimmune responses by liposomes containing human colon tumor cell antigens

Liposomes prepared with human LS174T colon tumor cell membranes induce specific primary and secondary xenogeneic immune responses in BALB/c splenocytes in vitro. The multilamellar vesicular liposomes were prepared by adding sonicated membrane fragments in 8 mM CaCl₂ to a dried lipid film. Cytotoxic splenocytes generated in vivo exhibited specificity for the LS174T cell; liposomes elicited higher levels of cytotoxicity than did membranes (P < 0.01). Secondary blastogenic responses elicited in in vivo-primed spleen cells by liposome-antigens also produced a significantly greater (P < 0.005) response than membranes. Subsequently, in vitro induction of primary blastogenic and cytotoxic responses by liposome-antigens were accomplished and revealed similar kinetics to that of whole LS174T cell immunogens. Specificity of the in vitro-primed spleen cells was clearly demonstrated (P < 0.01) on a variety of human tumor cells using both the primed lymphocyte and cell-mediated cytotoxicity assays. The results of competitive inhibition tests with autologous lymphoblasts demonstrated that 30% of the cytotoxic activity was directed against lymphocyte antigens. Incorporation of tumor antigens into liposomes has thus enabled primary immunization in vitro to human colon cancer antigens and may afford an adaptable means to evaluate and to select desired immune responses, as well as to identify colon tumor-specific determinants.