Regulation of the in vitro anamnestic antibody response by cyclic AMP. II. Antigen-dependent enhancement by exogenous prostaglandins of the E series.

The spleen cells from CFW/D mice injected with dimethylbenzanthracene-induced leukemia virus exhibited a progressive decline in the in vitro response to heterologous erythrocyte antigens in parallel with tumor growth. Cell transfer experiments revealed that this immunodepressed state may involve a B-cell defect rather than extrinsic factors in the cellular environment since: (i) nonresponsiveness could be transferred to irradiated non-tumor-bearing mice with spleen cells, and (ii) T cells from tumorbearing mice cooperated with normal bone marrow cells, but bone marrow from tumorbearing mice did not cooperate with normal T cells. In addition, T cells from the thymic tumor could cooperate with normal bone marrow cells upon transfer to irradiated recipients. TL 485-2 cells, a T-cell line derived from the tumor, could be specifically activated with SRBC thereby indicating that the virus transformed T cells were immunocompetent. Suppressor cells, which appeared in the spleen concomitant with immunodepression and tumor development, may directly raise B-cell thresholds for T-dependent triggering signals since the antibody response of spleen cells from tumor-bearing mice could be restored by adding agents such as LPS, 2 mercaptoethanol, or T cells exogenously preactivated in normal animals. The suppressor cell could be enriched by adherence to plastic and was removed by treatment with carbonyl iron. In addition, it was unlikely that the suppressor cell was a virus-infected cell since transformed, virus-infected cells from the tumor or TL 485-2 cells were not suppressive when added to spleen cells in vitro but rather resulted in a marked, polyclonal enhancement of the PFC response. The interaction of TL 485-2 cells and normal spleen cells resulted in the release of a stimulatory factor which increased DNA synthesis in resting cells as well as increasing PFC. The role of these enhancing factors and suppressor cells in controlling tumor growth remains to be elucidated.     

The evolution of immunosuppressive cell populations in experimental mycobacterial infection.

Immunosuppressor activity of considerable potency and complexity was generated during the course of chronic, progressive infection of C3H/Anf mice by Mycobacterium lepraemurium. From the 5th through 10th week after inoculation, spleen cells from infected mice mildly but reproducibly suppressed the direct plaque-forming cell response of normal spleen cell cultures to sheep erythrocytes. Suppression at this stage of infection was mediated by cells with macrophage-like characteristics. A marked increase in splenic suppressor activity at 10 to 11 weeks was associated with the appearance of a second suppressor cell subpopulation composed of T lymphocytes. The appearance of these cells was closely related in time to the onset of rapid splenic enlargement and a loss of cutaneous delayed type hypersensitivity to antigens of M. lepraemurium in mice at 10 to 11 weeks of infection. Suppressor cells were not present in peripheral lymph nodes until terminal infection at 22 to 25 weeks. Suppressor spleen cells depressed the T-dependent antibody response most severely, but there was also a direct effect upon B cells as shown by moderate suppression of responses to TNP-LPS and DNP-Ficoll. Spleen cells from 14-week-infected mice generated a soluble suppressor factor(s) that induces depression of moderate severity, however, the immunosuppression by intact cells was far greater.     

Mixed lymphocyte reactivity in spleen cells from F-9 tumor-bearing mice. II. Functional cross-reactivity between F-9 cells and testicular cells

Previous serological analysis has revealed cross-reactive antigens on F-9 cells and mouse germ cells. Therefore, we investigated whether suppressor activity in spleen cells from F-9 tumor-bearing mice can be restimulated in vitro by adding F-9 cells or testicular cells to mixed lymphocyte cultures. We found equal potentiation of suppressor T-cell activity with F-9 cells and with syngeneic testicular cells; as shown by sensitivity to anti-Lyt 2.2 plus complement treatment. Suppressor activity of spleen cells from other tumor systems tested was not enhanced. The data suggest that the same or cross-reactive antigens on F-9 teratocarcinoma cells and testicular cells may have similar regulatory functions.     

Proliferative and cytotoxic immune functions in aging mice. II. Decreased generation of specific suppressor cells in alloreactive cultures

The ability of spleen cells from aged C57BL/6 mice to generate specific suppressor cells in mixed lymphocyte cultures (MLC) against allogeneic H-2 antigens was investigated. The suppressor cells from young and old mice were assayed in parallel for their ability to inhibit the proliferative response and the generation of cytotoxicity in fresh MLC. Suppressor cell generation was found to be significantly decreased in 41% of aged mice (23 to 28 mo) as compared to young controls (3-8 mo). The suppressor cells were H-2-specific, radiation-resistant (1000 R), and Thy-1+; they did not function by lysing the fresh stimulators or responder cells, or by absorbing the interleukin 2 in the fresh cultures. Suppression required very small numbers of cells to be effective. It was concluded that the effect of aging was less marked on specific suppressor cell generation than on generation of cytotoxic T cells in the MLC. However, a third type of response studied, the proliferative response, was affected earliest and most severely.     

Mixed lymphocyte reactivity in spleen cells from F-9 tumor-bearing ice. I. Suppressor cell induction and characterization

The immune capacity of spleen cells from F-9 tumor-bearing mice was assessed in a one-way mixed leukocyte culture (MLR) and in MLR mixing experiments. Alloreactivity was found to be significantly depressed in mice bearing palpable tumors. Mixing experiments demonstrated that the reduced alloreactivity was due to suppressor cell activity in the spleens of the tumorous mice. Suppressor cells were characterized as adherent, Ly2⁺ T cells. This study provides the basis for an analysis of the cell surface antigens on F-9 embryonal carcinoma cells which lead to the induction of suppressor T cells in these mice.     

Characteristics of the splenic suppressor cell--target cell interaction in experimental African trypanosomiasis

We have examined further the relationship between immunosuppression and suppressor cell activity in experimental African trypanosomiasis. In the present study we describe the nature of the interaction between splenic suppressor macrophages from Trypanosoma rhodesiense-infected C57BL/6 mice and target effector cells in the primary in vitro PFC response to SRBC. Suppressor cell potential was expressed only when cell-cell contact of a noncytolytic nature was established between infected spleen cells and normal splenic responder cells. Isolation of suppressor cells from responder cells by a cell-impermeable membrane completely abrogated suppression. Similarly, supernatant fluids from infected spleen cell cultures could not passively transfer suppression. Suppressor cells did not act via prostaglandin synthesis in that indomethacin failed to restore responsiveness to infected spleen cells or to passively suppressed normal cultures. Inhibition of DNA synthesis by irradiation of mitomycin C treatment did not block suppressor cell function, but suppressor cell effects were inhibited by exposure of infected spleen cells to silica particles or to heat treatment. We conclude that suppressor cell effects in experimental African trypanosomiasis are consistent with a suppressor macrophage acting via a noncytolytic cell-cell interaction with responder target 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.     

The immune response in aged C57BL/6 mice. I. Assessment of lesions in the B-cell and T-cell compartments of aged mice utilizing the Fc fragment-mediated polyclonal antibody response

The Fc fragment-mediated polyclonal antibody response was utilized to assess B-cell, T-cell, and macrophage reactivity in aged C57BL/6 mice. Spleen cells from aged (28–30 months) mice were found to be deficient in their capacity to proliferate and produce polyclonal antibody in response to Fc fragments when compared to adult (2–3 months) controls. Since T cells are required for the Fc-induced polyclonal antibody response, T cells from aged mice were assessed for their ability to restore the polyclonal antibody response in T-cell-depleted adult spleen cell populations. Aged T cells were not as effective as adult T cells in restoring the antibody response. The T-cell requirement in the Fc-induced polyclonal response has been shown to be replaceable by the Fc-stimulated T-cell replacing factor (Fc)TRF. T cells derived from aged mice were unable to produce (Fc)TRF to the level of adult cells. In addition to a defect in the T-cell compartment a lesion exists in the B-cell compartment of aged mice as well. Adult T cells were not capable of restoring the polyclonal antibody response of aged B cells any higher than aged T cells indicating a B-cell defect. Moreover, when a direct B-cell activator, Fc subfragment, was employed, the aged B cells were not stimulated to the level of adult controls. To test the ability of aged macrophages to function as accessory cells in the polyclonal response, macrophage-depleted adult spleen cells were mixed with aged or adult macrophages and the response measured. The results indicate that aged macrophages restore the polyclonal antibody response as efficiently as their adult counterpart.     

Immunity to herpes simplex virus type 2. Suppression of virus-induced immune responses in ultraviolet B-irradiated mice

Ultraviolet B irradiation (280 to 320 nm) of mice at the site of intradermal infection with herpes simplex virus type 2 increased the severity of the herpes simplex virus type 2 disease and decreased delayed-type hypersensitivity (DTH) responses to viral antigen. Decrease in DTH resulted from the induction of suppressor T cells, as evidenced by the ability of spleen cells from UV-irradiated mice to inhibit DTH and proliferative responses after adoptive transfer. Lymph node cells from UV-irradiated animals did not transfer suppression. DTH was suppressed at the induction but not the expression phase. Suppressor T cells were Lyt-1+, L3T4+, and their activity was antigen-specific. However, after in vitro culture of spleen cells from UV-irradiated mice with herpes simplex virus type 2 antigen, suppressor activity was mediated by Lyt-2+ cells. Culture supernatants contained soluble nonantigen-specific suppressive factors.     

Suppression of lymphokine production: II. Macrophage-dependent inhibition of production of macrophage activating factor

The ability of different populations of macrophages to affect the production of macrophage activating factor (MAF) by stimulated T lymphocytes was investigated. We found that activated macrophages, infiltrating MSV-induced regressing tumors or macrophages recovered from the peritoneum of mice injected with Corynebacterium parvum, were able to actively suppress the production of MAF. MAF production by antigen-stimulated MSV-immune or -alloimmune spleen cells and by normal spleen cells stimulated by Con A was susceptible to macrophage-dependent suppression to a similar extent. In contrast, resident macrophages or those elicited by light mineral oil or proteose-peptone did not affect MAF production. While suppressor macrophages added at the time of the lymphocyte stimulation inhibited MAF production, the same cells added 4–6 hr after stimulation were ineffective. Therefore, it seems that the macrophages suppressed the early events of lymphocyte activation leading to MAF production. Suppressor macrophages, by inhibiting MAF production, may limit the expansion of the cytotoxic activity. This regulation of macrophage functions, mediated by the effects of suppressor macrophages on T lymphocytes, could be responsible for an insufficient antitumor cytotoxic response by macrophages.     

Cellular basis of tolerance to serum albumin in adult mice. I. characterization of T suppressor and T helper cells.

The surface markers and size of suppressor cells were determined in adult (BALB/c x C57BL/Ka)F1 mice which were tolerized with a single injection of deaggregated bovine serum albumin (BSA). Suppressor cells from the spleens of tolerazided donors were assayed in a cell transfer system in which graded numbers of cells were injected into irradiated syngeneic mice along with limiting numbers of T cells primed to BSA and an excess of B cells primed to DNP-BSA. Adoptive hosts were challenged with DNP-BSA in saline, and the anti-DNP response was measured. Suppressor cells were antigen specific as shown by the inhibitory activity of BSA-tolerant spleen cells on the response to DNP-BSA, but not to DNP-BGG. Suppressor cells were eliminated by in vitro treatment with anti-Thy 1.2, anti-Ly-2.2, anti-I-J subregion antisera and C, but not with anti-Ly-1 or anti-I-A subregion antisera. Neither unprimed nor primed helper T cells were detected in the spleen of tolerized donors after in vitro treatment with anti-Ly-2.2 antisera. Both helper and suppressor T cells from the spleens of primed or tolerized donors, respectively, showed a rapid sedimentation velocity (S greater than 3.7 mm/hr).     

Suppressor factor from tumor-allosensitized spleen cells--its effect on in vitro proliferation of tumor cells and in vivo skin allograft survival

C57BL/6 mice are sensitized ip with allogeneic P-815 mastocytoma cells. Fifteen days later the spleen cells of the sensitized mice are used in the production of suppressor factor or treated with mitomycin and used as suppressor cells. Sensitized spleen cells incubated with the specific alloantigen (DBA/2 m-treated spleen cells) release suppressor factor (SF)² which inhibits cell proliferation in mixed lymphocyte culture (MLC) as well as the in vitro generation of cytotoxic cells (CML). SF is most effective when added eary during MLC. SF also inhibits mitogen responsiveness of normal spleen cells. In addition to inhibiting lymphocyte function in vitro, suppressor cells as well as SF inhibit the in vitro proliferation of tumor cells. This inhibition is specific for the tumor to which the suppressor cells are induced. The inhibition of tumor cell proliferation is not due to the presence of cytotoxic cells in the spleen of the tumor-allosensitized mice. Suppressor cells from neonatal mice do not inhibit the in vitro proliferation of tumor cells. SF injected iv into C57BL/6 mice decreases the mixed lymphocyte reactivity of the host spleen cells and decreases the ability of the host to reject skin allografts. We interpret these data to suggest that tumor-allosensitized spleen cells, and the SF they produce, not only affect lymphocyte function but also inhibit tumor cell proliferation. This dual effect of suppressor cells could be an important part of the immune surveillance against tumors.     

Suppressor cells in mice infected with Trypanosoma brucei.

Within 2 to 3 days of infection with Trypanosoma brucei strain S42, the ability of spleen cells from infected CBA mice to mount a primary in vitro antibody response to sheep red blood cells (SRBC) is profoundly reduced, and suppressor cells are generated as detected by cell mixture experiments. Suppressor cell activity lies in the T and adherent cell compartments of spleens from infected mice, but not in the B cell compartment, although antibody responses to a thymus-independent antigen, DNP-Ficoll, are significantly reduced. Suppression of antibody responses of normal spleen cells depends on viable cells from infected mice. The trypanosome, itself, plays no direct role in suppression, and we have ruled out the possibility of antigenic competition as a mechanism of suppression. Our data is consistent with the model of suppressor T cells induced by concanavalin A mitogenesis. We hypothesize that trypanosome antigens may directly stimulate T cells with the concomitant release of factors with affinity for macrophage surfaces thus becoming suppressive for T and B cell responses.     

Comparison between the in vitro activities of in vivo-induced hapten-specific suppressor cells and supernatants of a hapten-specific suppressor hybridoma

A trinitrophenyl (TNP)-specific suppressor hybridoma was obtained by fusing hapten-binding spleen cells (SC) of BALB/c mice 1 week after intravenous (iv) injection of TNP-modified syngeneic lymphocytes with the AKR lymphoma BW5147. The suppressive activity of supernatants from one clone (TNP-44) was compared with that of in vivo-induced TNP-specific suppressor cells. Both the TNP-specific suppressor cells (TsTNP) and the TNP-44 were hapten binding and hapten specific. They suppressed the functional activity of TNP-haptenized T as well as B cells. TNP-44 supernatant also inhibited the proliferation of TNP-modified cells. Using native target cells, both TNP-44 supernatant and the in vivo-induced suppressor cells suppressed the anti-TNP B-cell response to TNP-bound T-dependent soluble or cellular antigens, but not to TNP-lipopolysaccharide (LPS). Furthermore, the function of TNP-specific helper T cells (THTNP) was impaired in the presence of TSTNP or supernatant from TNP-44. From these observations it was concluded that both the TSTNP and a TNP-specific factor derived from a suppressor hybridoma function via an antigen bridge at the TH or at the TH-dependent B-cell subset.     

Antigen-specific suppression of cytotoxic T cell responses: an idiotype-bearing factor regulates the cytotoxic T cell response to azobenzenearsonate-coupled cells

When A/J mice are injected subcutaneously with azobenzenearsonate- (ABA) coupled spleen cells, their splenocytes contain primed ABA-specific cytotoxic T lymphocyte (CTL) precursors. Animals that are not primed in vivo do not develop vigorous CTL activity when assessed after in vitro culture with ABA-coupled stimulators. Suppressor molecules derived from ligand-induced first-order ABA-specific suppressor T cells were evaluated for their ability to limit cytolytic T cell development. We have shown that an idiotype-bearing, hapten-specific suppressor factor suppresses priming for CTL in an H-2-unrestricted but allotype-restricted manner. The implication of these studies to regulatory networks is discussed.     

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.     

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.     

Abnormal activation and loss of suppressor T cells in the spontaneously hypertensive rat.

Suppressor T cell function in the spontaneously hypertensive rat (SHR) and normotensive Wistar Kyoto (WKY) rats was analyzed using syngeneic mixed lymphocyte reaction (SMLR) and concanavalin A (Con A) activation. A depressed SMLR was found in adult SHR but not in adult WKY. IL-2 synthesized by SHR was 40-fold lower than that of WKY, and the suppressor T cells generated in the SMLR were incapable of suppressing IgG synthesis. Precursors of cells that can be activated by Con A to become functional suppressor cells are reduced in adult SHR. Supernatant fluids derived from Con A-activated spleen cells from adult SHR failed to significantly inhibit IgG synthesis by cultures of syngeneic spleen cells compared to supernatant fluids from young SHR or WKY Con A-activated spleen cells. However, spleen cells from both adult SHR and WKY proliferated strongly and released equivalent amounts of IL-2 in response to Con A. Addition of exogenous IL-2 to the SMLR cultures in vitro restored the ability of SHR T cells to respond in the SMLR, with generation of cells capable of suppressing IgG synthesis. Administration of SHR with IL-2 in vivo also restored the suppressor T cell function in the SMLR. These results suggest a defective suppressor T cell activation and loss of suppressor T cell activity as the SHR age.     

Suppression of responses to cryptococcal antigen in murine cryptococcosis

Subpopulations of spleen cells responsible for responsiveness and unresponsiveness to cryptococcal antigen in vitro were identified. Lymphocytes which responded in lymphocyte transformation (LT) assays were nylon wool nonadherent and theta antigen positive. These lymphocytes required the presence of an accessory cell which could be supplied by normal peritoneal exudate cells. Spleen cells taken from mice which had been infected for 3 to 15 days were tested to determine their ability to respond to cryptococcal antigen in LT assays. A minimal response was detected at the ninth day of infection. The response of infected spleen cells was attributed to a nonadherent lymphocyte. Nonadherent spleen cells of infected animals had enhanced responses after removal of adherent cells and addition of normal peritoneal exudate cells. Suppressor cells were detected in the spleens of infected mice by the 12th day of infection and thereafter. A nonadherent suppressor cell was identified, but indirect evidence suggested that an adherent cell could also be present in infected spleens.     

Induction of T15-specific suppressor T cells in mice with the CBA/N defect by neonatal injection with anti-T15 idiotype antibody

Mice with the CBA/N defect (xid) are unresponsive to phosphorylcholine (PC), To determine whether idiotype-specific suppressor T cells can also be generated in these defective mice, defective (CBA/N X BALB/c)F1 male and nondefective (CBA/N X BALB/c)F1 female or (BALB/c X CBA/N)F1 male mice were neonatally injected with antibodies specific for the major idiotype of anti-PC antibody, i.e., anti-TEPC-15 idiotype (T15id) antibody. Suppressor cell activity was examined by co-culturing spleen cells from neonatally treated F1 mice with spleen cells of normal nondefective F1 mice in the presence of antigen. Spleen cells from defective (CBA/NM X BALB/c)F1 mice treated with anti-T15id antibody demonstrated a level of suppressor activity (greater than 83% suppression) comparable to that of similarly treated nondefective F1 mice. This suppression was specific for the T15id of anti-PC response, and a Lyt-1-2+-bearing T cell population appeared to be responsible for the active suppression. These suppressor T cells recognized T15 but not PC, based on a functional absorption test. These results indicate that the CBA/N defects, including the deficiency in the anti-PC response by B lymphocytes and a possible T cell defect, do not influence the generation of T15id-specific suppressor T cells by neonatal injection with anti-T15id antibody.