Soluble Suppressor Factor Research Articles

ALLOANTIGENICITY OF HUMAN ENDOTHELIAL CELLS II. ANALYSIS OF INTERLEUKIN 2 PRODUCTION AND PROLIFERATION BY T CELLS AFTER CONTACT WITH ALLOGENEIC ENDOTHELiA

In organ allograft recipients, the first point of contact between the host immune system and the graft alloantigens is the graft vascular endothelia. Our previous experiments have established that there are multiple pathways by which T cells can be activated in vitro by endothelial alloantigens. In this report, we focus on the first of these pathways: the direct activation of T cells by endothelial MHC class I molecules. Using conventional mixed cell cultures and limiting dilution analyses, we demonstrate that "resting" allogeneic human umbilical vein endothelial cells (HUVEC) stimulate IL-2 production, but not proliferation of purified CD3+ PBMC. Transwell experiments demonstrate that soluble suppressive factors are not responsible for the lack of proliferation. Instead, they suggest that the production of growth factors, such as IL-2, is suboptimal in this system. Indeed, submitogenic concentrations of IL-2 synergize with HUVEC to induce strong T cell proliferative responses. This proliferation is associated with a detectable increase in T cell IL-2R expression, which is not apparent after stimulation with HUVEC or IL-2 alone. In conjunction with previous data, these observations characterize the first direct pathway of endothelia-induced T cell activation. Via this pathway, a small number of CD8+ T cells can be activated by the allogeneic MHC class I molecules displayed by resting allogeneic endothelial cells. This activation results in the elaboration of IL-2, among other things, in concentrations that are too small to promote IL-2R up-regulation, and thus T cell proliferation. Proliferation readily occurs if sufficient IL-2 is available in the environment to overcome this cytokine deficit. These studies suggest that endothelial MHC class I alloantigens are mildly antigenic to a small subset of T cells. However, in an inflammatory environment that is rich in cytokines and growth factors, these endothelial alloantigens may become potent direct stimulators of T cell activation and clonal expansion.

The role of lymphocyte surface binding sites for wheat germ agglutinin in the negative regulation of cancer patients.

The role of lymphocyte surface binding sites for wheat germ agglutinin (WGA) in the negative regulation of cancer patients was investigated. The number of WGA binding sites on the surface of each lymphocyte ranged from 10(7) to 10(8). Fluorescein isothiocyanate (FITC)-conjugated WGA, bound to the majority of peripheral blood lymphocytes (PBL) with two peaks of fluorescent intensity was expressed either dimly or brightly. The increase in lymphocytes brightly expressing WGA fluorescent intensity (WGA bright lymphocytes) significantly correlated with the number of WGA binding sites. The suppression of lymphocyte proliferation mediated by the purified soluble suppressor factor (SSF) significantly correlated with an increase in the WGA bright lymphocyte population (P < 0.05). A significantly greater number of WGA bright lymphocytes in PBL was found in patients with esophageal, gastric, breast, or colon cancer, than in those with benign diseases or in healthy controls. Furthermore, an increase in WGA bright lymphocytes was found in subsets expressing the antigens CD8 dimly or CD16. Thus, it is suggested that the number of WGA binding sites may increase mainly on the surface of effector cells such as NK cells and CD8-positive killer T cells in cancer patients, triggering the negative regulation mediated by SSF.

Analysis of T-cell receptor alpha beta chains of CD8+ suppressor T cells induced by tolerogenic conjugates of antigen and monomethoxypolyethylene glycol. Involvement of TCR alpha-CDR3 domain in immunosuppression.

A number of investigators have demonstrated that there exists a relationship between Ag receptors of Ts cells (TCR) and their soluble suppressor factors. With a view to elucidating this relationship, the primary structures of receptors of Ts cells, induced in mice by tolerogenic conjugates of Ag and monomethoxypolyethylene glycol, were characterized in this study. The cDNA encoding the alpha and beta chains of TCR of cloned Ts cells specific for (i) OVA and (ii) human monoclonal (myeloma) IgG (HIgG) were produced by polymerase chain reaction. From the analysis of the V alpha genes of TCR of Ts cells it was deduced that these receptors utilized a new member of the V alpha 15 gene family, which was productively joined to the J alpha genes that differed for each of the Ts cells of the two distinct specificities. Similarly, sequence analysis of the beta chain cDNA of the two Ts cell clones revealed that both clones utilized the V beta 8.2 gene, and that their J beta gene differed from each other. It is inferred that the Ts cells generated in response to the different tolerogenic Ag(mPEG)n conjugates belonged to a subset of T cells utilizing similar TCR alpha beta chains and differed only in their J alpha/J beta regions. Most importantly, pretreatment of mice with a mixture of pentadecapeptides comprising the TCR alpha chain of the OVA-Ts cells, down-regulated the immune response specific to OVA, but not to HIgG. Moreover, injection of mice with a pentadecapeptide corresponding to the CDR3 region of the TCR alpha chain of either OVA-Ts or HIgG-Ts suppressed specifically the Ab response to OVA or HIgG, respectively. On the basis of all these results, it is concluded that the CDR3 of the TCR-alpha chain of Ts cells plays a pivotal role in the Ts network underlying the specific down-regulation of the immune responses induced by tolerogenic Ag(mPEG)n conjugates.

Portal Endotoxemia Stimulates the Release of an Immunosuppressive Factor from Alveolar and Splenic Macrophages

Impairment of cell-mediated immunity is both a common manifestation of critical illness and a potential cause of increased infectious morbidity and mortality. The mechanisms responsible for alterations in systemic immune regulation are incompletely understood; however, monocytes and fixed tissue macrophages appear to play a central role. We have previously shown that infusion of gram-negative organisms into the portal vein, but not into the systemic circulation, induces suppression of delayed hypersensitivity responsiveness in vivo and of mitogen-stimulated lymphocyte proliferation in vitro. The present studies were undertaken to probe the mechanisms of this suppression. Rats received 3 × 108 killed Pseudomonas aeruginosa via the inferior vena cava or the portal vein; they were sacrificed 24 hr later and the mitogen-driven proliferative responses of isolated splenocytes were assayed. Portal infusion resulted in significant suppression of Con A-induced proliferative responses (15.5 ± 2.7 cpm × 10-3 compared to 68.6 ± 9.8 cpm × 10-3 for infrahepatic vena caVA-infused animals and 48.0 ± 5.4 cpm × 10-3 for nonoperated controls). Suppression was shown to be a consequence of the release of a soluble suppressive factor from splenic adherent cells. Suppression of the proliferative responses of control lymphocytes could also be induced by a soluble factor present in culture supernatants of alveolar macrophages harvested from portally infused animals (4.7 ± 0.4 cpm × 10-3 vs 88.6 ± 27 cpm × 10-3 for systemically infused animals and 60.1 ± 8.4 cpm × 10-3 for nonoperated controls). The stimulus for the release of this factor was not endotoxin, but a second factor released from the liver. These results demonstrate that portal endotoxemia can induce systemic immune suppression and suggest a novel mechanism for the initiation of the immunologic alterations of critical illness.

Suppression of proliferation of a human B-cell leukaemic cell line derived from acute lymphoblastic leukaemia by soluble factor(s) from Campylobacter rectus

Soluble sonic extracts of several strains were examined for their ability to alter proliferation of a cell line derived from acute lymphoblastic leukaemia (BALL-1). Extracts of all strains tested caused dose-dependent suppression of proliferation when assessed by DNA (tritiated thymidine incorporation), RNA (tritiated uridine incorporation) and protein (tritiated leucine incorporation) synthesis. There was no effect on the viability of BALL-1 as measured by either trypan-blue exclusion or extracellular release of the cytoplasmic enzyme lactate dehydrogenase. The suppressive factor(s) was separated in a well-defined peak by high-pressure liquid DEAE ion-exchange chromatography, which revealed a single active peak with a molecular mass of 48 kDa. Characterization of the peak indicated that the suppressive factor(s) was heat labile (activity destroyed at 80 °C) and sensitive to the proteolytic enzyme pronase P. The soluble suppressive factor(s) from Campylobacter rectus thus has protein-like properties and no cytotoxicity to a human B-cell leukaemic cell line.

Heterogeneity of splenic natural suppressor cells induced in mice by treatment with cyclophosphamide.

Administration of high dose cyclophosphamide (CY, 200 mg/kg body weight) to adult mice induces transient, nonspecific suppressor activity in the spleen of treated animals. Characterization of the CY-induced natural suppressor (NS) cells which inhibit mixed lymphocyte reactions revealed a heterogeneous population of lymphocytes expressing the CD8 T cell marker and the B220 B cell marker, as well as cells bearing the granulocyte-monocyte marker CD11b. On a cell per cell basis the most potent of these suppressors were found to be positive for CD11b. Inhibitory activity was also detected in the CD8-, CD11b-, B220- compartment of CY-spleen, suggesting the presence of null NS cells. The fact that several phenotypically distinct cell populations contribute to the overall inhibitory effect of CY-spleen cells indicates that natural suppression defines an activity rather than a specific cell type. Interestingly, NS activity was observed to reside solely within the fraction of CY-spleen that is agglutinable with soybean agglutinin or wheat germ agglutinin, suggesting that expression of receptors for these plant lectins is a universal characteristic of CY-induced NS cells, regardless of their lineage. CY-spleen cell-mediated suppression of lymphoproliferative responses was found to be partially dependent on DNA synthesis and totally dependent on protein synthesis, but did not require cell-cell contact, indicating the production of soluble suppressor factor(s).

Characterization of suppressor T cell clones derived from a mouse tolerized with conjugates of ovalbumin and monomethoxypolyethylene glycol

The induction of antigen-specific tolerance in mice by conjugates of ovalbumin (OVA) and monomethoxypolyethylene glycol (mPEG) previously had been shown to be associated with the generation of antigen-specific suppressor T (Ts) cells. For the elucidation of the nature of these Ts cells, five nonhybridized OVA-specific Ts cell clones were generated from the spleen cells of a BDF1 mouse which had been immunosuppressed by the tolerogenic conjugate, OVA(mPEG) 12. The cloned Ts cells were maintained in vitro by periodic stimulation with OVA and feeder cells and were able to suppress the in vitro antibody production in an OVA-specific and MHC class I (H-2K d or H-2D d)-restricted manner. All these Ts cell clones were shown to be Thyl.2 +, CD4 −, CD5 −, CD8 +, and to express CD3 and the αβ heterodimer of the T cell receptor. The cell-free extracts of these cells contained soluble suppressor factors which could mimic in vitro the suppressive activity of the intact cells. In contrast to cytotoxic T lymphocytes (CTL), none of the cloned Ts cells were endowed with cytolytic activity as revealed in the perforin-mediated microhemolysis and in the 18-hr 51Cr release assays. These results demonstrate that (i) OVA-specific Ts cell clones can be generated from mice pretreated with OVA(mPEG) 12 by employing conventional T cell culture techniques, and (ii) these Ts cells are functionally different from conventional CD8 + CTL.

Cytokine regulation of bone marrow natural suppressor cell activity in the suppression of lymphocyte function

Natural suppressor (NS) cells, which nonspecifically suppress immune responses, are present in the spleen following exposure to radiation, chronic graft-versus-host disease, or cancer and in normal bone marrow. A model system is described which allows the study of cytokines activating and inhibiting NS cells, cytokines mediating NS activity, and NS effects on cytokine synthesis. Recombinant interleukin-3 (rIL-3) and granulocyte-macrophage colony-stimulating factor (rGM-CSF) efficiently activated NS cells present in normal bone marrow and were effective at concentrations as low as 5 U/ml. At high concentrations, GM-CSF, but not IL-3, did not activate NS cells. Recombinant interferon-γ (rIFN-γ) blocked the activation of bone marrow NS cells by rIL-3, but did not down-regulate NS cells once activated. The NS cells secreted one or more soluble suppressor factors, which blocked IL-2 synthesis and also inhibited IL-2-dependent T cell proliferation in the presence of excess IL-2.

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

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 non-adherent null (natural suppressor) cells and involves a soluble suppressor factor(s). In contrast, the suppressor activity of CGVHD liver cells is mediated by macrophages (Mφ). 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)-γ in mediating defective proliferation and suppressor activities of CGVHD liver and spleen MC. Monoclonal antibody to IFN-γ 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-γ inhibited the ability of CGVHD spleen cells to suppress proliferation of Con A and LPS-stimulated B10.D2 spleen cells. In contrast, anti-IFN-γ 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-γ 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-γ.

Pregnancy-associated suppressor cells in mice: Functional characteristics of CD3 +4 −8 −45R + T cells with natural suppressor activity

Natural suppressor (NS) cells are MHC-unrestricted regulatory cells with non-specific inhibitory activity for immune responses. In adult mice, NS cells are characteristically found in bone marrow and in splenic tissue following total lymphoid irradiation and cyclophosphamide treatments. Recently, we have shown that the spleens of pregnant mice harbour a population of lymphocytes which resemble NS cells in terms of phenotype and inhibitory activity. In this study, we use positive and negative selection techniques to further characterize splenic pregnancy-associated NS (SPANS) cells as predominantly ‘double negative’ T cells (CD3 +4 −8 −) bearing receptors for the lectins wheat germ agglutinin and soybean agglutinin, as well as expressing CD45R and the heat-stable J11d.2 antigen. Taken together, these findings lead us to conclude that SPANS cells belong to an immature T cell lineage. In keeping with their T cell phenotype, SPANS cells do not express the natural killer (NK) cell-specific markers NK2.1 and asialoGM1 and do not mediate lytic activity against NK-sensitive YAC-1 cells, although natural cytotoxic activity against WEHI-164 cells was found to co-purify with SPANS cells. Suppressive activity of SPANS cells in mixed lymphocyte reactions (MLR) is abolished by treatment with mitomycin C, suggesting that natural suppression in this system is a proliferation-dependent phenomenon. Preincubation of SPANS cells with conditioned medium from Con A-stimulated T cell cultures results in augmented NS activity, indicating that SPANS cells respond to T cell signals. Our data suggest that SPANS cells mediate suppression via the elaboration of a soluble suppressor factor since SPANS cells do not require cell-cell contact to mediate suppression and supernatants from short-term cultures of SPANS cell-enriched SBA + pregnancy spleen cells inhibit MLR. We believe that SPANS cells may be important in regulating hematopoiesis and maternal anti-fetal immunity during murine pregnancy.

Splenic T-lymphocyte functions during early syphilitic infection are complex

Immune regulation during syphilitic infection is extremely complex. This paper presents findings on the early events of T-cell activation following testicular infection in rabbits. Treponema pallidum was preincubated for 24 h with nonadherent spleen cells. After being washed to remove the organisms, these spleen cells were either stimulated with concanavalin A (ConA) to induce interleukin-2 (IL-2), or added to adherent cells that were then stimulated with lipopolysaccharide to induce IL-1. Preincubation with the treponemes up-regulated nonadherent cell functions. These sensitized cells increased their IL-2 production and augmented macrophage IL-1 synthesis. In sharp contrast, if this preincubation step was omitted, down-regulation was apparent. When T. pallidum was directly incubated with nonadherent cells in the presence of ConA, reduced levels of IL-2 were detected. Nonadherent cells from infected rabbits secreted soluble suppressive factors after 48 h of in vitro incubation; these factors inhibited ConA-induced IL-2 generation as well as ConA-induced lymphocyte proliferation. At least some of this suppressive activity was attributed to transforming growth factor. In addition, when T lymphocytes were depleted, less suppression was detected. Treponemes also inhibited ConA-induced T-cell proliferation, and monophosphoryl lipid A reversed this inhibitory effect. Since monophosphoryl lipid A neutralizes T-suppressor activity, these findings further suggest a role for T-suppressor activity during syphilitic infection. Finally, T. pallidum directly stimulated IL-2 synthesis when coincubated with phorbol myristate acetate. This agent reverses the prostaglandin E2 blockage of T-helper cell protein kinase C, a necessary second messenger signal for IL-2 synthesis. In summary, T-cell functions are extremely complex and represent a composite of both stimulation and down-regulation, which occur concurrently but to different degrees.

T-cell receptor alpha chain plays a critical role in antigen-specific suppressor cell function.

Antigen-specific suppressor T-cell hybridomas release soluble suppressor factors (TsF) in the supernatant that modulate both in vivo delayed-type hypersensitivity and in vitro plaque-forming cell responses in an antigen-specific manner. To study the relationship between the T-cell receptor (TcR) and TsF, we developed a series of TcR alpha- or TcR beta- expression variants from suppressor T-cell hybridomas that expressed the CD3-TcR alpha/beta complex. We demonstrate that loss of TcR alpha but not TcR beta mRNA was accompanied by the concomitant loss of suppressor bioactivity. Homologous transfection of TcR alpha cDNA into a TcR alpha- beta+ clone reconstituted both CD3-TcR expression and suppressor function. Furthermore, suppressor activity from TcR beta- variants was specifically absorbed by antigen and anti-TcR alpha antibodies, but not by anti-CD3 or anti-TcR beta affinity columns. These data directly establish a role for the TcR alpha chain in suppressor T-cell function and suggest that the TcR alpha chain is part of the antigen-specific TsF molecule.

Immunopotentiation of cattle vaccinated with a soluble Brucella abortus antigen with low LPS content: an analysis of cellular and humoral immune responses

The adjuvant effects of dimethyl dioctadecyl ammonium bromide (DDA) alone or in combination with trehalose dimycolate (TDM) or muramyl dipeptide (MDP) on bovine humoral and cellular responses to a soluble protein extract of gamma irradiated Brucella abortus strain 19 (SPEBA) were investigated. Thirty-five beef steers were randomly allotted to nine groups. Three of these groups received SPEBA (2 mg protein per dose) subcutaneously in combination with adjuvants, one group received the reduced dose of B. abortus strain 19 (S19), and one group received SPEBA alone. Controls included groups receiving adjuvant preparations only or no vaccine. Immune responses to the various immunizations were assessed sequentially for 56 days using various in vitro and in vivo assays. The humoral response to B. abortus was measured using standard serologic tests, an enzyme-linked immunosorbent assay, and a quantitative fluorometric immunoassay. The cell-mediated immune (CMI) response was measured by antigen-specific lymphoproliferation (LP), interleukin 2 (IL 2) production, and soluble suppressor factor release. Skin testing at day 35 for delayed-type hypersensitivity (DTH) to SPEBA was also performed. Minimal humoral responses were induced with SPEBA alone. The highest and most sustained serum antibody responses to B. abortus antigens were elicited by the S19 vaccine. A combination of SPEBA with DDA + TDM induced higher antibody levels than SPEBA with DDA or SPEBA with DDA + MDP. Responses to DTH among the groups receiving SPEBA were most notable in the SPEBA with DDA + TDM groups. Increased IL 2 production was greatest in the S19 and SPEBA with DDA + TDM vaccinates. The results indicated that a combination of DDA + TDM best potentiated immune responses to a soluble B. abortus antigen preparation and may be useful as adjuvants for future vaccines.

The effects of adjuvants on immune responses in cattle injected with a Brucella abortus soluble antigen

Five different adjuvants were examined for potentiation of humoral and cell-mediated immune (CMI) responses in cattle to a Brucella abortus soluble antigen (BASA). Two separate experiments were performed involving a total of 64 steers, divided among six groups (Experiment 1) and 9 groups (Experiment 2). The adjuvants used were: muramyl dipeptide, Freund's incomplete adjuvant, dimethyl-dioctadecyl ammonium bromide (DDA), Bordetella pertussis and Propionibacterium acnes. In each experiment, three groups received BASA (2 mg protein) subcutaneously with adjuvant, one group received a reduced dose of B. abortus Strain 19 (S19), one group served as unvaccinated controls, and another group received BASA alone. Primary responses were studied following a single immunization in comparison to the single inoculation with S19. For each experiment serum antibody responses and CMI responses were sequentially determined over a period of 56 days. Antibody responses to B. abortus were measured using the brucellosis card, rivanol precipitation-plate agglutination, complement fixation, and fluorometric immunoassay tests, and as well as with an enzyme-linked immunosorbent assay. The CMI response was measured using antigen-specific lymphoproliferation (LP) and skin testing for delayed-type hypersensitivity (DTH) to BASA (Experiment 2). Specific aspects of induced CMI responses investigated were macrophage activation (IL-1 production), helper T cell activation (IL-2 production), and release of soluble suppressor factor(s). In general, mean antibody responses were significantly higher ( P < 0.05) in immunized steers than in control steers and those receiving BASA alone. The LP responses to heat-killed B. abortus were generally higher in immunized groups than in the controls. The LP and DTH responses were greatest in the groups receiving S19 and BASA + DDA. Increased induction of IL-1 was largest in the group receiving BASA + DDA whereas IL-2 release was greatest in S19 vaccinated steers. Suppressor T cell responses were most obvious in the groups receiving S19, BASA + B. pertussis, and P. acnes. These studies demonstrated that DDA potentiates CMI responses to a soluble B. abortus antigen and may be useful as an adjuvant for future vaccines, particularly subunit vaccines.

Modulation of a human immunosuppressive lymphokine by monosaccharides

Soluble suppressor factor (SSF) is a recently purified human lymphokine produced by peripheral blood lymphocytes (PBL) in serum-free medium as a likely consequence of an autologous mixed lymphocyte reaction. Immunoregulatory actions of SSF include suppression of: polyclonal B cell activation, proliferative responses of normal PBL, and natural killer (NK) and antibody-dependent cellular cytotoxicity. We examined the ability of the monosaccharides fucose (Fuc), galactose (Gal), glucose (Glc), and mannose (Man) to reverse SSF-mediated suppression of NK activity. Fuc and Gal can partially or completely reverse SSF-mediated suppression at four effector:target cell ratios. Man and Glc were unable to significantly reverse SSF-mediated suppression. Fuc or Gal was added to PBL at various times after addition of SSF. SSF-mediated suppression of NK cytotoxicity becomes irreversible with respect to these monosaccharides during the first 24 hr of PBL exposure to SSF. To explore the mechanism behind this block of SSF-mediated suppression, Fuc or Gal (50 m M) was cultured with PBL for 24 hr before addition of SSF, or with SSF for 24 hr before addition to PBL. Our experiments indicate that SSF is directly interacting with these monosaccharides, and may function by recognizing specific sugar moieties on the surface of effector cells.

Suppressor cells and soluble factors from the spleens of UV‐irradiated mice

Several indices of splenic reactivity were measured daily after ultraviolet (UV) irradiation of mice. Spleen weight increased to a maximum after 5 days. Suppressor cell activity, manifested in various assays, peaked slightly earlier. The ability of passively transferred spleen cells to suppress the induction of contact hypersensitivity (CHS) was maximal after 4 days, as was the production of soluble suppressor factors in culture. The factors were detected by suppression of CHS in vivo and leucocyte adherence inhibition (LAI) in vitro. These assays appeared to detect different factors: an I-J- factor active in CHS assays and an I-J+ factor active in LAI assays. The latter factor required CD4-, CD8+ lymphocytes for its production.

Characterization of a T suppressor cell line that downgrades experimental allergic encephalomyelitis in mice

A T-suppressor (Ts) cell line of CD8 phenotype was isolated from spleens of SJL/J mice that had recovered from experimental allergic encephalomyelitis (EAE) induced by injection of MBP-activated T cells. The Ts cell line inhibited the proliferation of MBP-sensitized T cells in vitro. Addition of recombinant IL-2 enhanced the Ts-mediated suppression. Adoptively transferred Ts line was able to downgrade EAE in mice subsequently challenged with MBP-activated T cells. The mechanism of suppression appeared to involve neither direct cytolysis of the effector T cells nor the production of a soluble suppressor factor. The findings suggest an in vivo role for suppressor T cells in the regulation of EAE.

Soluble factors in tolerance and contact sensitivity to DNFB in mice: X. IL-2 is the activation signal mediating release of synthesized suppressor factor

Two signals are required for the in vitro activation of Lyt 2 + T suppressor cells (Ts) from mice tolerized with 2,4-dinitrobenzene sulfonate (DNBS) to produce soluble suppressor factors (SSF) which suppress the transfer of contact sensitivity to dinitrofluorobenzene (DNFB). Recognition of DNP/class I MHC (signal one) stimulates the Ts to synthesize SSF. Release of SSF requires a soluble mediator (signal two) produced by the interaction of L3T4 + T cells from tolerant mice with I-A on metabolically functional cells in the DNP-presenting cell population. The purpose of this study was to examine the nature of this second Ts activation signal. Coculture of tolerant spleen cells and gluteraldehyde-fixed (Glu-) DNP-labeled spleen cells (DNP-SC) resulted in the synthesis but not release of SSF. Addition of either IL-1 or IL-2 to these cultures induced SSF release. Treatment of such cultured cells with the anti-murine IL-2 receptor antibody PC 61.5.3 blocked the IL-2- and IL-1-stimulated release of SSF. Release of SSF was also blocked when tolerant cells were cultured with (unfixed) DNP-SC in the presence of a monoclonal anti-IL-2 antibody. IL-2 but not IL-1 was able to stimulate the Ts to release synthesized SSF in the absence of L3T4 + Th activity. First, addition of IL-2 to cocultures of tolerant cells and DNP-presenting I-A − cells induced release of the synthesized SSF, whereas addition of IL-1 did not. Second, IL-2 also stimulated SSF release in cocultures of L3T4 + T cell-depleted tolerant cells and Glu-DNP-SC, whereas IL-1 did not. Tolerant cells pretreated with IL-2 and then washed were able to synthesize and release SSF upon culture with Glu-DNP-SC. Pretreatment of tolerant cells with IL-1 did not stimulate SSF release upon subsequent culture with Glu-DNP-SC. These results indicate that the Lyt 2 + Ts from DNBS-tolerant mice express IL-2 receptors and IL-2 is the lymphokine which induces the Ts to release synthesized SSF. Thus, IL-2 provides a differentiative signal during the functional activation of these regulatory T cells.

Depression of cell‐mediated immunity in plasmacytoma‐bearing mice

Previous reports have documented that mice bearing plasmacytomas (PC) are suppressed in their ability to mount a primary antibody response, whereas cellular immunity appears to be normal. Studies presented here provide evidence that T cell responsiveness is also depressed in BALB/c mice bearing the Lieberman plasmacytoma (Lpc-1). For instance, splenocytes from mice bearing large tumours were impaired in their in vitro ability to respond to the T cell mitogen, mount an appropriate alloreactive cytolytic T lymphocyte response, and produce interleukin-2 (IL-2). A population of suppressor cells was detected in the spleens 7 days after tumour implantation as evidenced by their ability to prevent normal splenocytes not only from responding to antigens in mixed lymphocyte culture, but also from producing IL-2. A similar inhibitory effect was observed with culture supernatants of these cells, indicating the existence of a soluble suppressive factor. Therefore, the present study demonstrates that cellular immune responses are impaired in mice bearing Lpc-1 tumours and that this effect may be due to the generation of suppressor cells and/or a suppressive factor.

Ultraviolet B radiation converts Langerhans cells from immunogenic to tolerogenic antigen-presenting cells. Induction of specific clonal anergy in CD4+ T helper 1 cells.

We have recently demonstrated that a single dose (200 J/m2) of UVB radiation abrogates the capacity of mouse epidermal Langerhans cells (LC) or splenic adherent cells (SAC) to present keyhole limpet hemocyanin (KLH) to Ag-specific, MHC-restricted CD4+ Th1 cells. In the present study we determined whether such Th1 unresponsiveness represented long-lasting immunologic tolerance. To address this question, Th1 were preincubated with KLH-pulsed UVB-LC or UVB-SAC, then isolated and restimulated with unirradiated APC (LC or SAC) plus KLH or with exogenous rIL-2 in the absence of APC. Preincubation with KLH and UVB-LC or UVB-SAC rendered Th1 unresponsive to subsequent restimulation with APC and KLH. In addition, such Th1 were defective in their autocrine IL-2 production, but could respond normally to exogenous rIL-2, indicating that unresponsiveness was due to functional inactivation and not to cell death. Th1 unresponsiveness was Ag-specific, MHC-restricted, and long lasting (greater than 16 days). In addition, it appears that Th1 unresponsiveness is not due to the release of soluble suppressor factors from UVB-LC or UVB-SAC because supernatants from such cells had no effect on Th1 proliferation. Addition of unirradiated allogeneic SAC during preincubation prevented the induction of unresponsiveness by UVB-LC or UVB-SAC, suggesting that UVB interferes with the capacity of LC or SAC to deliver a costimulatory signal(s) that can be provided by allogeneic SAC. We conclude that UVB can convert LC or SAC from immunogenic to tolerogenic APC.