Mechanisms of C-type viral leukemogenesis. I. Correlation of in vitro lymphocyte blastogenesis to viremia and leukemia.

Various inbred strains of mice respond immunologically to genetically transmitted ecotropic C-type viruses. Part of this response is T cell blastogenesis with type specificity for the viral envelope glycoprotein gp71. Of those nonviremic, nonleukemic strains, and F1 crosses examined, in which virus expression occurs early in life, gp71-specific blastogenic T cells were detected within the first 2 months of age and temporally preceded the development of a humoral immune response. However, in the viremic, highly leukemic strain of AKR mice, gp71-specific T cell blastogenesis in vitro was readily detectable throughout the preleukemic phase, the first 5 months of age. In appropriate F1 crosses and backcrosses, the persistent in vitro blastogenic response segregated with viremia and leukemia. These data suggest that in vivo T cell stimulation by endogenous viral gp71, caused by viremia, may contribute to virus-induced leukemogenesis in mice.     

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.     

Leucyl-leucine methyl ester treatment of donor cells permits establishment of immunocompetent parent----F1 chimeras that are selectively tolerant of host alloantigens

Treatment of murine lymphocytes with L-leucyl-L-leucine methyl ester (Leu-Leu-OMe) selectively removes natural killer cells, cytotoxic T lymphocyte precursors, and the capacity to cause lethal graft-vs-host disease, whereas bone marrow stem cell function and alloantigen-induced L3T4+ T helper function remains intact. The present studies assess the immunocompetence of allogeneic bone marrow chimeras established by reconstituting irradiated (C57BL/6 X DBA/2)F1 (B6D2F1) mice with Leu-Leu-OMe-treated C57BL/6 (B6) bone marrow and spleen cells. Spleen cells from such chimeras were found to have normal B and T cell mitogenic responses. Furthermore, levels of natural-killer cell function were comparable to those observed in B6----B6 syngeneic radiation chimeras established without Leu-Leu-OMe treatment of donor cells. Spleen cells from B6----B6D2F1 mice were identical with B6----B6 or B6 mice in allostimulatory capacity and thus contained no discernible cells of non-H-2b phenotype. Whereas B6----B6D2F1 spleen cells demonstrated alloproliferative and allocytotoxic responses toward H-2k bearing spleen cells, no H-2d specific proliferative or cytotoxic responses could be elicited. B6----B6D2F1 spleen cells did not suppress the generation of anti-H-2d or anti-H-2k proliferative or cytotoxic responses from control B6 spleen cells. Furthermore, addition of rat concanavalin A supernatants did not reconstitute anti-H-2d responses of B6----B6D2F1 chimeric spleen cells. Thus, Leu-Leu-OMe treatment of B6 donor cells not only prevents lethal graft-vs-host disease, but also permits establishment of long-lived parent----F1 chimeras that are selectively tolerant of host H-2 disparate alloantigens, but fully immunocompetent with respect to natural killer cell function, B and T cell mitogenesis, and anti-third party alloresponsiveness.     

Cellular immunity in chronic Theiler's virus central nervous system infection.

After (IC) inoculation of the DA strain of TMEV, SJL/J mice develop chronic CNS infection with marked mononuclear cell infiltration of spinal cord leptomeninges and white matter and concomitant demyelination. In the present study the temporal course of cell-mediated and humoral immune responses to virus were measured in this infection. It was shown that chronic TMEV infection is associated with the development of immunologically specific spleen cell reactivity as judged by in vitro incorporation of 3H-TdR into DNA in response to inactivated TMEV antigen. Spleen cell reactivity is first detectable about 2 months after infection, persists for at least 1 year, and correlates with the temporal development of serum-neutralizing antibody. The late development of sensitized spleen cells is not the result of an immunosuppressive effect of this virus infection since infected mice exhibit normal spleen cell proliferative responses to T cell mitogens and produce normal antibody responses to a heterologous protein antigen, sheep red blood cells. In addition, anti-viral antibody inhibits virus-induced spleen cell reactivity. Finally, the antigen-reactive lymphocyte subpopulation within the spleen responsible for proliferation to TMEV antigen are T cells and not B cells.     

Specific unresponsiveness to skin allografts in anti-lymphocyte serum-treated, marrow-injected mice: participation of donor marrow-derived suppressor T cells

Sequential changes of cell-mediated immune reactivities were examined in anti-lymphocyte serum-(ALS) treated, C3H/He (C3H; H-2k) bone marrow-injected (C57BL/6 X A)F1 (B6AF1; H-2b/k.d) mice bearing enhanced C3H skin grafts. Spleen cells of these mice exhibited marked suppression of the proliferative response to phytohemagglutinin and concanavalin A. When the spleen cells were assayed for the direct lymphocyte-mediated cytotoxicity against H-2k targets, their lytic activity remained low until the time of graft rejection, in contrast to the increasingly high cytotoxic activity exhibited by spleen cells of control B6AF1 mice given only ALS and C3H skin grafts. When spleen cells of marrow-injected B6AF1 mice were cultured with mitomycin-C treated C3H spleen cells, the proliferative response was significantly suppressed the throughout the course, despite the early appearance of high "secondary-type" cytotoxic activity. Co-culture experiments demonstrated the presence of C3H antigen-specific suppressor cells in the ALS-treated, marrow-injected mice bearing intact allografts. Treatment of spleen cells with anti-H-2, anti-Thy 1 and anti-I-J sera and C revealed that the suppressor cells present late in the marrow-injected mice were T cells of donor C3H bone marrow cell origin.     

Specific suppression of the in vitro parent anti-hybrid reaction. I. Characterization of a suppressor cell induced in hybrids by pretreatment with parent-strain spleen cells

Spleen cells from B6D2F1 hybrid mice pretreated with 5 X 10(7) B6 spleen cells iv 7 days earlier (B6-pretreated B6D2F1) exhibit a reduced capacity to stimulate the in vitro proliferative and anti-D2 CTL responses of B6 spleen cells. This inability of B6-pretreated B6D2F1 spleen cells to stimulate B6 spleen cells efficiently is due neither to the absence of stimulating cells bearing the D2 alloantigens nor to the destruction of B6 responding cells, but to the presence in the B6-pretreated B6D2F1 cell population of a suppressor mechanism, since the addition of B6-pretreated B6D2F1 spleen cells to a culture of normal B6 responding and irradiated B6D2F1-stimulating spleen cells can suppress the B6 anti-B6D2F1 response. This suppression is mediated by a nylon adherent, Thy-1-negative cell of parent-strain origin which is radioresistant at 2000 R. This suppressor cell is not induced by the injection to B6D2F1 hybrids of spleen cells from the other parent strain (D2) or an allogeneic strain (C3H). It does not suppress either the response of the other parent (D2) or an allogeneic strain (C3H) to B6D2F1 antigens, or the response of B6 cells to an allogeneic strain (C3H).     

Immunologic effects of neonatal infection with mouse thymic virus.

Mouse thymic virus is a herpesvirus that causes extensive thymic necrosis when given to newborn mice. During the time of acute infection spleen cells have markedly diminished reactivity to T cell phytomitogens and to allogeneic cells and are incapable of effecting a primary in vitro response to a "T-dependent" antigen; responses to B cell mitogens and to a T-independent antigen are unimpaired. Spleens from acutely infected mice have low theta antigen normal numbers of immunoglobulin-bearing cells. Surprisingly, despite widespread necrosis and cellular depletion, thymic cell reactivity to mitogens is unimpaired. However, the ability to thymocytes to proliferate and to generate cytotoxic killer cells in response to allogeneic cells is diminished.     

The role of HLA-DR determinants in monocyte-macrophage presentation of herpes simplex virus antigen to human T cells

Spleen cell killing of target cells can manifest through spleen cell-target cell interaction in the presence of mitogenic lectin, lectin-dependent cell-mediated cytotoxicity (LDCC). Spleen cells from C57B1/6 mice immunized with C3H mouse cells were found to be capable of cytotoxicity against autologous and other C57B1/6 spleen cells in the presence of Con A. Thus, alloimmune spleen cells are capable of an anti-self cytotoxic response in the presence of mitogenic lectin, antiautologous LDCC. Antiautologous LDCC is blocked by preincubation of cytotoxic cells with colchicine, an inhibitor of the cytotoxic effector mechanism. Analysis of alloimmune spleen cell subpopulations suggests that the antiautologous LDCC cell is an immature alloimmune cytotoxic cell (prekiller cell). Potent LDCC was found in alloimmune spleen cell preparations depleted of alloimmune cytotoxic T cells (killer-depleted) by three passes on allogeneic cell monolayers genetically identical with the immunizing cell. However, some LDCC effectors were also found to adhere to the adsorbing target, suggesting that there is some maturational diversity among LDCC effectors.     

Selection of 3LL tumor subline resistant to natural effector cells concomitantly selected for increased metastatic potency

Summary Studies were carried out to test whether the selection of 3LL tumor cells resistant to the cytotoxic activity of normal spleen cells will concomitantly select for increased metastatic capacity. A total of 0.5×10⁶ 3LL tumor cells and 50×10⁶ normal spleen cells were admixed and inoculated SC in C57BL/6 mice. This procedure was repeated for eight transplant generations. The tumor cells which were selected in this manner (3LLN) were relatively resistant in vitro to the cytotoxic effect of normal spleen sells. The 3LLN cells were less susceptible than the original 3LL tumor cells to the hybrid resistance mechanisms, as determined by their growth capacity in F1(BALB/c×C57BL/6) or F1(C3H/DiSn×C57BL/6) mice. After three selection generations, 3LLN tumor cells were more efficient in the production of spontaneous lung metastases. These results support our suggestion that natural cell-mediated immunity may be involved in the control of metastatic spread.     

Regulation of the In Vitro Secondary Cell-Mediated Cytotoxic Response against Syngeneic FBL-3 Leukemia by Macrophages

Depletion of macrophages from immune spleen cells by treatment with carbonyl iron and magnet or by in vivo treatment with carrageenan enhanced the in vitro secondary cell-mediated cytotoxic response against a syngeneic Friend virus-induced leukemia, FBL-3 cells of C57BL/6 mice. However, further depletion of macrophages by passing the carbonyl iron-treated immune spleen cells through a nylon wool column abrogated the cytotoxic response. The addition of splenic macrophage-enriched preparations from either FBL-3-immune or normal mice suppressed the cytotoxic response of immune spleen cells treated with carbonyl iron and magnet. This suppressive effect of splenic macrophages presented a marked contrast with the enhancing effect of normal peritoneal macrophages on the same cell-mediated cytotoxic response, indicating regulation of the generation of killer T cells against a syngeneic tumor by functionally distinct macrophages. The suppressed cell-mediated cytotoxic response against FBL-3 cells by immune spleen cells was augmented by the addition of indomethacin to the culture medium, and this augmentation with indomethacin was greatly decreased by depletion of phagocytic cells from the immune spleen by treatment with carbonyl iron and magnet. The mechanisms of regulation of the cell-mediated cytotoxic response with soluble factors released from macrophages are discussed.     

A monoclonal antibody that recognizes an Ly-6-linked antigen inhibits the generation of functionally active T cell subsets

A monoclonal antibody (mAb) generated against the chemically-induced BALB/c Meth A sarcoma, designated HD42, reacts in cytotoxic tests with Meth A as well as with BALB/c peripheral lymph node cells and mitogen-activated spleen cells. The antigen was detected by FACS analysis on BALB/c spleen and lymph node cells, and by absorption assays on all normal lymphoid cells of BALB/c but not B6 mice. The expression of the antigen was not found on normal adult lung fibroblasts, on brain, nor on an extensive panel of tumors of BALB/c and B6 origin. Because the strain distribution of the antigen is reciprocal to that of Ly-6.2 and is not expressed in congenic C3H.Ly-6b mice, we have tentatively defined it as Ly-6.1 and referred to the mAb as alpha-Ly-6.1. The presence of alpha-Ly-6.1 abrogates both the Con A-induced and the IL 2-dependent proliferative response of normal T cells, whereas the response of normal B cells to LPS remains unaffected. alpha-Ly-6.1 is a potent suppressor of the primary in vitro plaque-forming cell (PFC) response to SRBC. Pretreatment of normal splenic T cells with alpha-Ly-6.1 and complement had no effect on the ability of these cells to generate in vitro either T helper cells (TH) or T suppressor cells (TS) to SRBC. However, addition of antibody in the absence of complement during the generation of TH or TS, or posttreatment of these T cell subsets with antibody and complement after in vitro education, completely removed the functional activity of these cell types. Addition of alpha-Ly-6.1 to MLC suppressed the MLR as well as the generation of cytotoxic lymphocytes (CTL), whereas the presence of the antibody during a cell-mediated lympholysis (CML) had no effect. Therefore, it appears that alpha-Ly-6.1 recognizes an antigen that is important for the generation of TH and TS cell subsets.     

Distinctive cytokinetics of blastogenic responses by spleen cells fromLegionella pneumophila-sensitized mice

Legionella pneumophila, the etiologic agent of respiratory pneumonia and systemic infections of man and some experimental animals, was studied in regard to the ability of these bacteria to induce blastogenic responses by spleen cells from normal vs sensitized mice. Antigens from this organism, including whole cell vaccine, an outer membrane extract, and a purified lipopolysaccharide-rich antigen, induced blastogenesis of normal spleen cells with peak responses on day +3 in vitro, similar to the blastogenic responses of spleen cells from the same animals exposed to the plant mitogens phytohemagglutinin and Concanavalin A, or the nonspecific bacterial antigenEscherichia lipopolysaccharides coli (LPS). Spleen cells from mice vaccinated with killedLegionella or infected with a sublethal dose of these bacteria 3–4 weeks or more previously evinced increased blastogenic responses to theLegionella antigens but not to the nonspecific mitogens or theE. coli LPS. The spleen cells from legionellae-sensitized mice evinced not only heightened blastogenic responses on day +3 of culture but also heightened responses during day +5 of culture. Spleen cells from sensitized mice showed less responses to the nonspecific plant mitogens orE. coli LPS on day +5 of culture. These results support the view that, after sensitization of mice with a bacterial antigen such asL. pneumophila, spleen cells respond in a specific heightened blastogenic manner toLegionella antigen, and this response has a higher magnitude and is more prolonged than the non-specific responses of cells from normal mice.     

Strain difference in the radiosensitivity of immunocompetent cells and its influence on the residual host-vs-graft reaction in lethally irradiated mice grafted with semiallogeneic bone marrow

A striking difference in radiosensitivity was noted between C3H/He (H-2k) and C57BL/6J (H-2b) strain mice when assessed by primary anti-SRBC PFC response of intact animals and primary cell-mediated lympholysis (CML) response of spleen cells to allogeneic cells in vitro, the C3H strain being more radioresistant. On the other hand, when C3H and B6 mice were exposed to 6.62 to 10.40 grays (Gy) of x-rays and then were transplanted with 2 X 10(6) bone marrow cells from B6C3F1 (H-2b/k) donor mice within 3 hr or at 24 hr after radiation exposure, the early mortality caused by residual host-vs-graft (HVG) reaction was much higher when C3H mice were used as recipients. Furthermore, the proportion of surviving animals manifesting host-type lymphohemopoiesis, i.e., host-type revertants, was much higher in B6C3F1 to C3H than in B6C3F1 to B6 combination. Spleen cells from such host-type revertants manifested strong anti-donor reactivity when assessed by mixed lymphocyte reaction (MLR) and/or CML in vitro. Increase of radiation doses to the recipients to 10.40 Gy resulted in 100% survival and 100% donor-type lymphohemopoiesis in both groups of chimeras. These results indicate strongly that a genetic difference in radiosensitivity of immune system of the recipients can greatly influence the magnitude of residual HVG reactions observed in hybrid to parental strain bone marrow transplantation in mice.     

LPS regulation of the immune response: Bacteroides endotoxin induces mitogenic, polyclonal, and antibody responses in classical LPS responsive but not C3H/HeJ mice

Recent studies have suggested that lipopolysaccharide (LPS) derived from gram-negative organisms such as Bacteroides, which are not members of the Enterobacteriaceae, stimulate B cells from the classic LPS-hyporesponsive C3H/HeJ mouse. In the present study, purified, phenol-water-extracted LPS from Bacteroides fragilis ATCC 25285 (B-LPS) was tested for its ability to induce in vivo and in vitro responses in classic LPS-responsive C3H/HeN, LPS-hyporesponsive C3H/HeJ, and (C3H/HeN X C3H/HeJ)F1 hybrid mice. B-LPS induced mitogenic responses in both C3H/HeN and C3H/HeJ spleen cell cultures when cells were cultured under standard conditions, i.e., 8 X 10(5) cells/well. Interestingly, when lower spleen cell numbers were tested with B-LPS, a typical responsive-nonresponsive pattern developed in which good mitogenic responses were induced by B-LPS in C3H/HeN cultures and in which low responses in C3H/HeJ spleen cell cultures were evident. In vivo immunization of mice with B-LPS resulted in high antibody responses in C3H/HeN, intermediate responses in F1, and low responses in C3H/HeJ mice. When purified splenic B cells were incubated with B-LPS, both mitogenic responses and polyclonal immunoglobulin M (IgM) synthesis occurred in C3H/HeN cultures, whereas intermediate responses were noted in F1 cultures and no response was seen in B cell cultures from C3H/HeJ mice. Furthermore, in vitro TNP-B-LPS responses were induced in C3H/HeN spleen cells or purified B cell cultures, and intermediate anti-TNP PFC responses occurred in F1 spleen cells or purified B cell cultures. The toxicity of B-LPS was tested in galactosamine-sensitized mice. The LD50 values for B-LPS in classic LPS-responsive C3H/HeN and C57BL/6J mice were 0.6 microgram and 1.1 microgram, respectively; F1 hybrid mice were approximately 15-fold more resistant, whereas C3H/HeJ mice gave an LD50 of 1650 micrograms. This study shows that phenol-water preparations of B-LPS are biologically active and induce responses in the classic LPS-responsive but not in the LPS-hyporesponsive C3H/HeJ mouse strain.     

In vitro reactivity of splenic lymphocytes from normal and UV-irradiated mice against syngeneic UV-induced tumors.

Skin tumors induced in mice by chronic ultraviolet (UV) irradiation are highly antigenic and are frequently immunologically rejected upon transplantation to normal syngeneic recipients. In this study we characterized this immune response with an in vitro microcytotoxicity test. Cytotoxic activity was present in the spleen cells of mice given a single injection of syngeneic UV-induced fibrosarcoma cells. After removal of adherent spleen cells, the remaining splenic lymphocytes were specifically cytotoxic for the immunizing tumor and showed no cross-reactivity with other syngeneic UV-induced or methylcholanthrene-induced tumors of similar histologic type. The level of cell-mediated reactivity against UV-induced tumors was quite high compared to that obtained with syngeneic tumors induced by methylcholanthrene, and the cytotoxicity was attributable to a population of theta antigen-bearing lymphocytes. With this in vitro test, we compared the response of normal mice, which reject a syngeneic tumor challenge, with that of UV-irradiated mice, in which the syngeneic UV-induced tumors grow progressively. After tumor cell inoculation, lymphocytes form the unirradiated (regressor) mice showed a high degree of cytotoxicity that reached a maximum level 8 days after injection. In contrast, no reactivity could be detected in the spleens of tumor-challenged UV-irradiated (progressor) mice.     

Cell-mediated cytotoxic responses of spleen cells from mice bearing primary, chemically induced tumors.

Sarcomas were induced in C57BL/6 mice by using 3-methylcholanthrene. Spleen cells taken from these mice bearing primary, chemically induced tumors and from matched control mice were assessed for the capacity to generate cell-mediated cytotoxic cell activity after in vitro sensitization. Spleen cells from tumor-bearing mice generated strong cell-mediated cytotoxic responses against alloantigens and antigens on syngeneic cells.     

Lymph node cell responsiveness in BALB/c mice infected with Leishmania mexicana

In the present study we measured the blastogenic response of lymph node cells from BALB/c mice infected with Leishmania mexicana throughout the course of infection. Results showed that infected mice displayed normal blastogenic responses in the lymph nodes until twenty weeks of infection. Thereafter, there was a gradual suppression. Comparison of the immunoresponsiveness in the spleen and lymph nodes, revealed normal responses in the lymph nodes several weeks after suppression in the spleen had occurred. Suppression of blastogenic responses in the lymph nodes was related to an adherent macrophage-like cell which actively suppressed normal proliferative responses to mitogens.     

H-Y antigen: No evidence for alleles in wild strains of mice

H-Y antigen(s) coded or controlled by the Y chromosome in a variety of wild mouse strains have been compared with those of the inbred laboratory strains C57BL/6 (B6) and C57BL/10 (B10). H-Y antigen(s) were detected by H-2-restricted cytotoxic T cells from B6 and B10 female mice primed in vivo and boosted in vitro with syngeneic male spleen cells: There was no difference in the degree of H-Y specific lysis of male cells from the C57BL strains and of F₁ hybrids or B6 congenic mice carrying the Y chromosome from the wild mouse strains examined. This result indicated that at the level of target cell specificity the H-Y antigen(s) from wild and laboratory strains were indistinguishable. H-Y antigen(s) were also found to be indistinguishable at the level of the in vitro induction of the anti H-Y cytotoxic response: F₁ female mice, primed in vivo and boosted in vitro with homologous F₁ male cells, all made H-Y-specific responses and where it could be examined, the target cell specificity of the anti-H-Y cytotoxic cells showed that B10 male cells as well as the homologous F₁ male cells (where the Y chromosome was derived from the wild strain) were good targets. Finally, possible differences in H-Y transplantation antigens between the wild strains and the B10 laboratory strain were examined by grafting F₁ male mice, the progeny of B10 females, and wild strain males with B10 male skin. These grafts were not rejected during an observation period of more than 9 months. Taken together, neither the cytotoxic data nor the skin graft data provide any evidence for allelism of H-Y even though the mouse strains examined were collected from widely disparate geographical locations.     

In vitro studies of the natural humoral antitumor reactivity of BALB/c and C57BL/6J mice

Summary Antitumor antibodies were produced in vitro by spleen cells harvested from 12- to 18-month-old C57BL/6J and BALB/c mice with a naturally occurring complement-dependent serum cytotoxicity for tumor cells. The antibodies were of the IgM class and had a complement-dependent cytotoxic reactivity on EL4 cells, which was not absorbed by normal thymus cells. No natural antibodies were produced by untreated spleen cells from 1- or 3-month-old mice of the same two strains, which had no natural serum reactivity. However, after a treatment with an anti-Thy-1 serum and complement before culturing, spleen cells from 3-month-old mice, but not 1-month-old mice, produced the natural antitumor cytotoxic antibodies in vitro. When antibody-producing spleen cells from 12-month-old mice were cultured in vitro together with spleen cells from the unreactive 3-month-old syngeneic mice, inhibition of the antibody production occurred. This inhibiting capacity increased between 1 and 6 months of age and was abrogated by a treatment with an anti-Thy-1 serum and complement or with an anti-Ly-2 serum, whereas the passage of the inhibiting spleen cells on an anti-IgG column did not modify the inhibiting capacity. The in vitro data confirm previous in vivo findings on the nature, specificity and systems of regulation of the natural antitumor cytotoxic antibodies.     

Soluble factors from BCG-induced suppressor cells inhibit in vitro PFC responses but not cytotoxic responses.

A macrophage-like suppressor cell is present in the spleens of BCG-infected C57BL/6 mice. This suppressor cell is capable of suppressing both in vitro cytotoxic and PFC responses of normal C57BL/6 spleen cells. Suppression was not caused by changes in the kinetics of the responses or in the quantities of antigen required for stimulation. Suppression of the in vitro cytotoxic response could not be linked to any soluble mediator. In contrast, supernatants obtained from BCG spleen cell cultures, which failed to inhibit alloantigen-induced cytotoxic responses, suppressed the in vitro PFC response to SRBC by normal C57BL/6 spleen cells. It is postulated that either BCG-induced macrophage-like suppressor cells inhibit these in vitro responses via different mechanism(s) or these responses are regulated by different suppressor cell subpopulations within the monocyte/macrophage compartment of BCG spleen cells.