Suppressor function of liver mononuclear cells isolated during murine chronic graft-vs-host disease. II. Role of prostaglandins and interferon-gamma.

Mononuclear inflammatory cells (MC) isolated from the livers and spleens of mice with chronic graft-vs-host disease (CGVHD) to minor histocompatibility antigens (B10.D2----BALB/c) show defective proliferation when stimulated with Con A and LPS. In turn, both CGVHD liver and spleen cells suppress the proliferation of mitogen-stimulated normal spleen cells in a genetically unrestricted manner. The suppressor activity of CGVHD spleen cells is mediated by plastic nonadherent null (natural suppressor) cells and involves a soluble suppressor factor(s). In contrast, the suppressor activity of CGVHD liver cells is mediated by macrophages (M phi). In the current studies we show that the suppressor activity of CGVHD liver cells is also mediated by soluble factors and compare the roles of prostaglandins and interferon (IFN)-gamma in mediating defective proliferation and suppressor activities of CGVHD liver and spleen MC. Monoclonal antibody to IFN-gamma partially reversed the defective mitogen-stimulated proliferation of CGVHD spleen MC but had no effect on proliferative response of CGVHD liver MC. Indomethacin did not alter the low proliferative response of either CGVHD liver or spleen MC. Anti-IFN-gamma inhibited the ability of CGVHD spleen cells to suppress proliferation of Con A and LPS-stimulated B10.D2 spleen cells. In contrast, anti-IFN-gamma resulted in a small decrease in the ability of liver MC to suppress Con A (but not LPS)-stimulated cell proliferation. Indomethacin decreased the ability of both CGVHD liver and spleen cells to suppress Con A-stimulated proliferation but had inconsistent effects on LPS-stimulated proliferation. These results show that IFN-gamma and prostaglandins partially mediate the suppressor activity of CGVHD spleen MC. The suppressor activity of CGVHD liver MC also involves prostaglandins but is relatively independent of IFN-gamma.     

Characteristics of immunosuppressive macrophages induced in spleen cells by Mycobacterium avium complex infections in mice

The profile of generation and characteristics of splenic macrophages (M phi s) which suppress the concanavalin A (Con A) mitogenic response of splenic T cells (designated as 'immunosuppressive M phi s') in host CBA/JN mice during the course of Mycobacterium avium complex (MAC) infection were investigated. In MAC-infected mice, reductions in some cellular functions of host splenic T cells, such as the Con A mitogenic response and mixed leucocyte reaction, were seen around 2 weeks after challenge of organisms, and this was accompanied by appearance of immunosuppressive M phi s in spleen cells. In this case, increase in immunosuppressive M phi activity was seen in terms of both activity per spleen and activity per individual M phi. In this phase of the infection, MAC-induced splenic M phi s showed a markedly increased ability to produce reactive oxygen radicals in response to phorbol myristate acetate. Thus, the expression of suppressor activity of MAC-induced M phi s seems to be closely linked to their activated state. A large proportion of the immunosuppressive M phi s exhibited suppressor activity dependent on prostaglandins and membrane functions related to microfilaments. It was also found that the generation of IL-2-reactive T cell populations in response to Con A was markedly inhibited by MAC-induced splenic M phi s, whereas they caused no significant reduction in the IL-2-producing ability of normal spleen cells.     

Interaction of reovirus with cell surface receptors. II. Generation of suppressor T cells by the hemagglutinin of reovirus type 3

In studying reovirus interactions with lymphocytes, we have found that reovirus type 3, but not type 1, inhibits the in vitro proliferative response of murine splenic lymphocytes to concanavalin A (Con A). By analyzing recombinant clones containing genes from both reovirus types 1 and 3, we found that the S1 gene, the gene that encodes the viral hemagglutinin, is responsible for the inhibitory effect. In addition we found that type 3, but not type 1, generates suppressor T cells in vitro capable of suppressing Con A proliferation. By analyzing recombinant clones, we also found that the viral hemagglutinin is responsible for the generation of suppressor T cells by reovirus type 3. These effects were observed whether UV-inactivated or live virus was used. Reovirus type 3 inhibition of the proliferative response of murine splenic lymphocytes to Con A was blocked by anti-reovirus type 3 antibody but not by anti-reovirus type 1 antibody. Antiviral antibody had no effect on the ability of reovirus type 3 induced suppressor cells to inhibit Con A proliferation. We have previously demonstrated a receptor on murine lymphocytes for the hemagglutinin of reovirus type 3, and our results suggest that the in vitro suppression of Con A proliferation of murine lymphocytes by reovirus type 3 is secondary to the interaction of the viral hemagglutinin with a receptor on the surface of murine lymphocytes, which results in the generation of functionally active suppressor T cells.     

Studies of the T-lymphocytes resident in the spleens of thymectomized, irradiated, bone marrow-reconstituted (TXB) mice.

The T-lymphocytes resident in the spleens of thymectomized, lethally irradiated mice that had been reconstituted with syngeneic bone marrow (TXB) were characterized. Both recently reconstituted N-TXB, (approximately 3 weeks after bone marrow injection) and aged (>6 months after reconstitution) A-TXB animals were studied. The T-lymphocytes from spleens of recently reconstituted N-TXB donors did not respond to PHA but did react significantly to Concanavalin A (Con A). The lack of PHA sensitivity was not due to dilution of reactive cells by other cell types. Removal of adherent cells, likewise, did not restore N-TXB spleen cell PHA responsiveness. N-TXB splenic T-cells were cortisone resistant. N-TXB spleen cells by themselves did not cause a graft vs host response. However, N-TXB spleen cells amplified the graft vs host response of normal lymph node cells but not N-TXB lymph node cells. Addition of cyclic GMP enhanced [³H]thymidine uptake of N-TXB spleen cells caused by Con A. N-TXB spleen cells were exclusively spleen seeking. The Con A reactive cell within N-TXB spleens was demonstrated to be of donor origin. Fetal liver as well as syngeneic bone marrow contained cells capable of reconstituting the Con A response. Spleen cells from aged. (>6 months) A-TXB were found to be PHA sensitive. Competitive inhibition assays measuring θ expression in A-TXB spleen cells indicate a significant increase in the θ positive lymphocyte population occurred with time. The data indicate that considerable reconstitution of θ positive cells had occurred in A-TXB donors. The results also suggest that the T-lymphocyte population of the TXB spleen may be a unique subpopulation of T-lymphocytes that resides exclusively in spleen and bone marrow.     

The differentiation of suppressor cell populations as revealed by studies of the effects of mitogens on the mixed lymphocyte reaction and on the generation of cytotoxic lymphocytes.

The regulation by concanavalin A (Con A) and bacterial lipoloysaccharide (LPS) of the mixed lymphocyte reaction (MLR) and of the generation of cytotoxic lymphocytes (CL) was studied in congenic resistant mice using cortisone resistant thymocytes as the responding cells. LPS enhances the generation of CL selectively when suboptimal numbers of allogeneic cells are present in mixed lymphocyte cultures and also results in the augmentation of the MLR. Mitogenic concentrations of Con A on the other hand suppress the generation of CL regardless of alloantigen dose. The mechanism of suppression cannot be ascribed to the presence of suppressor T cells, since the addition to the cultures of syngeneic cortisone resistant thymocytes activated by Con A does not change the immune response. However, prospective suppressor cells that can be activated by Con A are located in secondary lymphoid organs such as spleen and lymph node. Suppressor activity by those cells is abolished by anti θ plus complement. Con A activated spleen cells suppress the MLR, whereas Con A activated thymocytes amplify the proliferation of responding cells.     

Modulation of the immunosuppressive effects of splenic macrophages in Fischer rats bearing adenocarcinoma 13762

Summary The nature of spleen cells in Fischer rats bearing a large size (>1 cm diameter) mammary adenocarcinoma 13762A (MAC) which block the immunostimulating capacities of MTP² (a synthetic immunomodulator) and suppress proliferation in vitro of splenic T and B lymphocytes by their respective mitogens was investigated. Splenic macrophages were recognized as the suppressor cells by (a) restoration of mitogenic responses by depletion of macrophages from spleen cell suspensions and (b) continued suppressor activity in spleen cell suspensions of tumor bearers devoid of viable T lymphocytes. Macrophage contact with T lymphocytes was required for the inhibition of T lymphocyte proliferation by concanavalin A as shown by (a) the absence of suppressor activity in supernatants derived from cultured suppressor macrophages, (b) lowering of the suppressor activity of intact macrophages after treatment with neuraminidase, (c) lowering of the suppressor activity of macrophages by addition of red cells to spleen cultures of tumor bearers indicating red cell interference with macrophage-T cell interaction and (d) lack of inhibiting action of suppressor macrophages on allogenic T lymphocyte proliferation showing macrophage T cell recognition for suppression.Animals bearing a large size tumor exhibited spleen hypertrophy and an increase in macrophage:lymphocyte ratio and a decrease in red cell:lymphocyte ratio. Splenic macrophages did not appear to be implicated in blocking antitumor immunity induction since (a) suppressor macrophages were absent in spleens during the inductive phase of the immune response and (b) MAC implanted in allogenic Wistar rats grew to about 2 cm diameter, induced splenic suppressor macrophages but the tumor was later rejected by the animals. Collectively the results suggest that suppressor macrophages are the result of increasing tumor volume rather than its cause.This study was supported by a grant from the National Cancer Institute of Canada Abbreviations used: Con A, Concanavalin A; LPS, lipopolysaccharide; PHA, phytohemagglutinin; MTP, maltose tetrapalmitate; MAC, mammary adenocarcinoma 13762; RPMI, Roswell Park Memorial Institute; TBR, tumor bearing rat; RBC, red blood cell     

The immunology of Eta-1/osteopontin

The cytokine Eta-1/osteopontin is secreted by activated macrophages and may constitute the most abundant molecule secreted by activated T-lymphocytes. It causes macrophages to migrate and suppress production of reactive oxygen species. It enhances generation of immunoglobulins or proliferation of B-lymphocytes. Its biochemical characteristics suggest that Eta-1/osteopontin may be the T-lymphocyte suppressor factor. The apparently conflicting effects on individual immune functions may reflect homeostatic mechanisms.     

Suppressor T cells in thymus-reconstituted nude mice: regulation of mitogen-induced transformation

A population of glass-wool-adherent splenic cells which could suppress the response of other spleen cell populations to T-cell mitogens was isolated from thymus-reconstituted nude mice. Such adherent cells were characterized as sensitive to anti-Thy 1.2 and complement treatment. Glass-wool-adherent cells from athymic mice do not have suppressor activity to self or normal littermate NAC; however, these mice possess precursor suppressor cells as demonstrated by isolation of glass-wool-adherent T regulatory cells in thymus-grafted nude mice. Such cells are generated in either freshly obtained or in vitro cultured thymus. Evidence for suppressor T cells of host genotype was supported by their sensitivity to host-specific anti-Thy serum treatment as well as their generation in alymphoid thymus grafts. Prior anti-Thy 1.2 treatment of GAC partially removed the suppressor activity: however, macrophages and B lymphocytes were shown not to be secondary regulatory cells or suppressor mediators, thus mature T lymphocytes with low amounts of Thy 1.2 antigen may be responsible for this residual suppression. Further characterization of GAC indicates that active cell growth is required for their regulatory function, as irradiation removed the suppressor activity. This report provides evidence for the presence of a T-lymphocyte subpopulation which has a regulatory function and requires a thymus in the generation of these cells.     

Proliferative and cytotoxic immune functions in aging mice. IV. Effects of suppressor cell populations from aged and young mice

The changes with age in three splenic suppressor cell populations were studied in C57BL/6 mice. Allospecific Ts cells and nonspecific non-T suppressor cells were both generated in vitro in allogeneic MLC. The presence of "pre-existing" suppressor cells in fresh spleen cells from normal mice was examined. Suppressor cell activities were assayed for their ability to suppress proliferation in a fresh allogeneic MLC after treatment to prevent their own proliferation. The ability to generate both specific and nonspecific suppressor cells decreased with age, whereas pre-existing suppressor cells were detected in spleens from the majority of the aged animals but not in spleens from young animals. The decrease in suppressor cell activity was not due to any requirement for age matching between donors of suppressor and target cells. The specific and nonspecific MLC-generated suppressor cells inhibited both the proliferative response in the assay MLC and the generation of cytotoxic cells. The pre-existing suppressor cells only suppressed the proliferative response and not the generation of cytotoxic cells. The changes seen with age in these suppressor cell populations suggest that the ability to generate suppression (both allospecific and nonspecific) to newly encountered Ag declines with age, whereas a resident splenic suppressor cell population accumulates over the lifetime of the animals.     

Suppression of lymphocyte proliferative responses: characterization of the suppressor and kinetics of suppression

Culturing spleen cells for 2 or more days in the absence of mitogenic stimulation results in the generation of suppressor cells that can effectively inhibit the proliferative responses of freshly prepared spleen cells to mitogen or alloantigen stimulation. Suppression does not appear to be mediated by prostaglandins nor other soluble factors produced during the preculture period. The suppressor cell is described as a plastic-adherent Thy-1.2-, IgM-, FcR+ macrophage-like cell. Significant suppression of Con A responses can be detected at suppressor to target ratios as low as 1:100. The plastic-adherent suppressor is capable of terminating Con A-induced proliferation of spleen cells whether added at the onset of the Con A response or added as late as 48 hr after mitogenic stimulation. The suppressed spleen cell population displays an absence of large blast cells and a decrease in surface density of Thy-1.2 determinants.     

Site of action of a soluble immune response suppressor (SIRS) produced by concanavalin A-activated spleen cells.

The cellular site of action of SIRS, a soluble immune response suppressor released by Con A-activated spleen cells which suppresses antibody responses to heterologous erythrocytes by murine spleen cells in vitro, was investigated. Exposure of spleen cells to SIRS for 2 hr at 37 degrees C or 1 hr at 4 degrees C was sufficient to suppress 5-day antibody responses in vitro. Similar exposure of splenic or peritoneal exudate macrophages to SIRS also suppressed antibody responses by untreated splenic lymphoid cells; exposure of splenic lymphoid cells to SIRS was without effect. SIRS did not act via T cells which might have contaminated the macrophage preparations. SIRS-mediated suppression could be partially overcome by an excess of normal peritoneal exudate macrophages, but not by an excess of T or B cells. These data indicate that the target cell of SIRS activity is the macrophage. The results are discussed in the context of macrophage functions that could be affected by SIRS.     

Dual effects of OK-432 on mitogenic response of splenocytes to concanavalin A

OK-432, a streptococcal preparation, was studied for its effect on the concanavalin A (Con A)-induced mitogenesis of the host spleen cells. When mice were given a single intraperitoneal injection of OK-432, there was a substantial increase in the mitogenic response of splenocytes, whereas multiple injections conversely resulted in a marked reduction of the mitogenic response, when the spleen cells were cultured at high cell densities of over than 5 X 10(5) cells/well. The reduced Con A-responsiveness in the latter was not restored by mixing spleen cells from mice given multiple OK-432 injections with those from normal mice. Moreover, splenic macrophages from OK-432-injected mice exhibited marked inhibitory activity against Con A-mitogenesis of normal splenocytes, while normal splenic macrophages failed to show such an effect. Splenic T cells from OK-432-injected mice also showed an inhibitory activity against Con A-mitogenesis of normal splenocytes and similar activity was also noted in normal splenic T cells. Therefore, the OK-432-spleen cells contain two types of suppressor cells; one is a newly elicited suppressor macrophage and the other is a suppressor T cell supposedly resident also in normal spleen cells. In the OK-432-injected spleen cells, accessory cell function for T cell Con A-mitogenesis was markedly reduced. On the other hand, it was noted that the interleukin 2-producing ability of the OK-432-splenocytes was augmented more than that of normal splenocytes, indicating that multiple OK-432 injections also cause an increase in the helper T cell activity of the host spleen cells.     

Suppressor cell regulation of encephalitogenic T cell lines: generation of suppressor macrophages with cyclosporin A and myelin basic protein.

Chronic relapsing experimental allergic encephalomyelitis (CR-EAE) can be adoptively transferred using myelin basic protein (BP)-specific helper T cell lines, and suppressor cells may be important in recovery from EAE. In order to generate suppressor cells, spleen cells obtained from BP-complete Freund's adjuvant (CFA) inoculated SJL/J mice and from normal mice were cultured for 7 days with medium, with cyclosporin A (CsA), or with CsA and antigen (BP or purified protein derivative of mycobacterium (PPD)). Cultured spleen cells were assayed for suppressor activity in vitro by coculture with BP-specific and PPD-specific helper T cell lines derived from SJL/J mice. Immunized donor spleen cells cultured with cyclosporin A (CsA) and BP were potent inhibitors of T cell line proliferation, and suppressor activity was increased 17-fold compared with control splenocytes. The number of suppressor cells required to suppress PPD-specific line proliferation by 50% (I50) was significantly higher than the number required to suppress BP-specific line proliferation, suggesting an antigen-specific component to the suppression. The major effector cell required for suppression was a large granular Mac-1+ cell with the functional characteristics of a macrophage. Suppressor activity persisted after depletion of Thy 1.2+ cells, but suppression was no longer antigen-specific, suggesting that culture of spleen cells with CsA and BP may generate suppressor macrophages which are antigen-nonspecific and Thy 1.2+ suppressor cells which are antigen-specific. These suppressor cells may be important in the regulation of CR-EAE and the techniques described for their generation may prove useful for treatment and prevention of disease.     

Soluble suppressor activity of concanavalin A-activated spleen cells on B-lymphocyte colony formation in vitro.

Supernates from concanavalin A (Con A)-activated mouse spleen cell cultures suppress the formation of B-lymphocyte colonies (BLC) in soft agar culture by 30 to 95%. Con A-induced BLC suppressive culture supernates can be heated at 80 °C for 1 hr without losing activity. The BLC suppressive activity is eliminated totally by trypsin treatment and partly by treatment with β-galactosidase. Activity is unaffected by treatment with DNAse, RNAse, and α-glucosidase. By ultrafiltration the BLC suppressive factor(s) was shown to have a molecular weight greater than 300,000. These data suggest that BLC suppression is mediated by a protein-carbohydrate complex. BLC suppression was obtained when normal spleen cells were preincubated in Con A-activated supernates for only 1 hr at 37 °C. BLC suppressor activity was absent in the supernatant fluid of Con A exposed anti-θ-treated spleen cells, nonadherent spleen cells, extensively washed spleen cells, and spleen cells from nude (athymic) mice suggesting that cells responsible for Con A-induced BLC suppression are adherent, fragile cells of the T lineage. Con A-activated spleen cell supernates do not suppress colony formation in soft agar by normal mouse granulocyte-macrophage precursors, by plasmacytoma cells, T-lymphoma cells, or by carcinoma cells. However, colony formation by Abelson's murine leukemia virus transformed B-lymphoma cells was suppressed by 95% suggesting a relationship between this immature B-lymphoma line and B-lymphocyte colony-forming cells. Con A-activated spleen cell supernates do not suppress lymphocyte activation in liquid culture by phytohemagglutinin, Con A, or lipopolysaccharide. Heat-treated supernates—which inhibited BLC development by 90–95%—did not suppress the plaque formation by spleen cells immunized in vivo or in vitro by sheep red blood cells.     

Enhancing and suppressive effects of macrophages on T-lymphocyte stimulation in vitro.

The immunoregulatory effect of peritoneal and splenic macrophages on Con A-stimulated mouse splenic T lymphocytes was investigated in vitro using [¹²⁵I]UdR incorporation as a measure of lymphocyte proliferation. [¹²⁵I]UdR incorporation was enhanced by the addition of increasing numbers of splenic or low doses of peritoneal adherent cells to macrophagedepleted splenic lymphocytes. The addition of increasing numbers of peritoneal macrophages beyond 5–10%, however, proportionally suppressed T-cell proliferation. Activated splenic macrophages obtained from mice 6 days after infection with Listeria monocytogenes were suppressive, whereas macrophages obtained from immune donors 9–10 days after infection were not, so that a chronological association appeared to exist between macrophage activation and immunosuppression. The addition of 2-mercaptoethanol to the cell cultures increased [¹²⁵I]UdR incorporation without affecting the stimulatory and suppressive effects of splenic and peritoneal macrophages, respectively. Heat-killed and freeze-thawed macrophages lost their capacity to enhance or inhibit lymphocyte transformation. Macrophages treated with mitomycin C to inhibit DNA synthesis retained their regulatory functions. These studies suggest differential regulatory roles for spleen versus peritoneal macrophages on T-lymphocyte responses to Con A stimulation in vitro.     

Suppressor function of hepatic mononuclear inflammatory cells during murine chronic graft-vs-host disease. I. Macrophage-enriched cells mediate suppression in the liver.

Murine chronic graft-vs-host disease (CGBHD) to minor histocompatibility antigens (B10.D2----BALB/c) is characterized by inflammatory destruction of intrahepatic bile ducts, scleroderma-like skin lesions, and lymphoid involution. Spleen cells isolated from this model proliferate poorly when stimulated with mitogens. Previous reports indicate defective lymphocyte proliferation in this model is the result of active suppression induced by the graft-vs-host reaction in the spleen and is mediated by Thy 1.2-, sIg-, plastic nonadherent, splenic natural suppressor (NS) cells. To determine whether the intense CGVHD in the liver is associated with induction of suppression, we compared the suppressor activity of hepatic and splenic mononuclear inflammatory cells isolated concurrently during murine CGVHD. Both hepatic and splenic MC suppressed the proliferation of mitogen-stimulated normal spleen cells in a non-MHC, non-Mls restricted manner. T cells contributed to the suppressor activity of both populations. However, the suppressor activity of hepatic MC was mediated largely by a macrophage-enriched population of MC while that of splenic MC was mediated largely by NS cells.     

The effect of bone marrow depletion on prostaglandin E-producing suppressor macrophages in mouse spleen

The i.p. injection of Corynebacterium parvum (CP) into CBA/J mice effected increases in macrophage colony-forming cells (M-CFC) when spleen cells were cultured with L cell culture filtrate as a source of colony-stimulating factor. Significant increases in phagocytic macrophages (M phi) with Fc receptors for IgG2a and IgG2b immune complexes were additionally noted among the spleen cells in these mice. These M phi effectively inhibited Con A-induced lymphocyte proliferation, probably reflecting a 10-fold increase above normal controls in prostaglandin E to 47 ng/3 X 10(6) spleen cells/ml. To determine whether the suppressor M phi are immediate derivatives of splenic M-CFC, we tried to induce suppressor M phi by the injection of CP into mice depleted of bone marrow M-CFC by the earlier administration of the bone-seeking isotope, 89Sr. This procedure reduced M-CFC in the bone marrow to less than 1% of normal for more than 30 days. Monocytes in the blood fell to 5% of normal by day 10 and were 30% on day 30. Levels of resident peritoneal M phi showed relatively little change in this period. By contrast, splenic M-CFC increased to 20-fold higher than the "cold" 88Sr controls. CP-induced suppressor M phi activity, however, was sharply reduced in 89Sr marrow-depleted mice on day 10, despite the striking increase in M-CFC. There was a threefold increase in the number of phagocytic M phi binding IgG2a immune complexes, with no significant increase in IgG2b binding M phi. The kinetics of recovery of suppressor M phi activity showed that on days 20, 30, and 50 after 89Sr injection the activities reached 20%, 30%, and 70% of the "cold" control, respectively, and correlated with the recovery of significant levels of M-CFC in the bone marrow. Taken together, these observations suggest that splenic M-CFC are not an immediate source of PGE-suppressor M phi in vivo. It appears more likely that the CP-inducible suppressor M phi, in particular, originate from radiosensitive bone marrow cells or require for differentiation a microenvironment provided by bone marrow cells. The data also suggest that the expression of the Fc gamma 2b receptor and of suppressor activity by CP-induced splenic M phi are related phenomena.     

The differential effect of 2-deoxyguanosine on concanavalin A-induced suppressor and cytotoxic activity

The effect of 2-deoxyguanosine (dGuo) on the generation in vitro of nonspecific suppressor cells in murine spleen cell cultures by concanavalin A (Con A) is examined. The experiments indicate that dGuo abrogates the generation of nonspecific suppressor activity by lectin stimulation of murine spleen cells. When comparisons were made between the effect of this nucleoside on the generation of suppressor and cytotoxic cells by Con A stimulation of murine spleen cells, it was found that dGuo only affected the generation of suppressor cells. The development of lectin-stimulated cytotoxicity was not affected by dGuo. In addition it was found that dGuo does not affect the NK activity of murine spleens.     

Further studies on suppressor cell activity in the spleen of neonatal mice.

Spleen cells from newborn BDF₁ and C57BL/6 mice are tested for suppressor activity in mixed lymphocyte culture. The added spleen cells, treated with mitomycin, suppress both cell proliferation and the generation of cytotoxic cells. Thymus cells from newborn mice have little suppressor activity. Suppressor cells act across an allogeneic barrier, are cortisone-resistant, XR-resistant, T-cells and their activity is inversely correlated to the MLC reactivity in the spleen of the young animal. Incubation of neonatal suppressor cells on macrophage monolayers reduces suppressor cell activity and points to the possible importance of the macrophage in controlling immunological maturation.     

Effect of graft-versus-host disease on anti-tumor immunity

BCL1, a spontaneous B cell leukemia of BALB/c origin, is rejected by C.B-20 (Ighb, H-40b) but not BALB/c (Igha, H-40a) mice. Adoptive transfer of C.B-20 anti-BCL1 effector cells specific for the minor histocompatibility Ag H-40a protects irradiated C.B-20 but not BALB/c recipients. Because C.B-20 donor cells could potentially generate graft-vs-host disease (GVHD) in BALB/c recipients, we investigated the possibility that GVHD prevents the anti-tumor effect. GVHD was induced in (C.B-20 X B10.D2)F1 [H-2d, H-40b X H-2d,H-40b] recipients after injection of B10.D2-primed C.B-20 donor cells. GVHD was indicated by the histologic appearance of tissue sections from C.B-20----F1 livers, target organs of GVHD, which showed a marked mononuclear cell infiltrate around the portal tracts and central veins. In addition, splenic lymphocytes from these mice had altered CD4/CD8 ratios and were unable to respond to the polyclonal activators Con A and LPS. The mitogen unresponsiveness was at least partially due to the presence of a suppressor cell, because proliferation of normal spleen cells to Con A and LPS was suppressed upon addition of C.B-20----F1 spleen cells. Further immune dysfunction was evident by the inability of T cells from mice with GVHD to generate a CTL response to H-2 alloantigens. Addition of C.B-20----F1 spleen cells to F1 responder cells at the induction of culture did not prevent generation of CTL, indicating that a suppressor cell was not responsible for the lack of CTL activity. In this setting of GVHD, F1 recipients were able to reject BCL1 upon adoptive transfer of C.B-20 anti-BCL1 effector cells. These data indicate that GVHD-induced immune dysfunction does not inhibit the activity of antileukemia T cells.