Identification of a factor(s) from cloned murine natural suppressor cells that inhibits IL-2 secretion during antigen-driven T cell activation

Crude supernatants were obtained from cloned murine natural suppressor (NS) cells activated in vitro with phorbol-myristate-acetate (PMA) and calcium ionophore (A23187). Supernatants suppressed IL-2 production in the mixed leukocyte reaction (MLR) with BALB/c spleen cells, but no reduction was observed in the response to PHA, Con A, or anti-CD3 antibody. Suppressive activity was partially purified by DEAE ion exchange chromatography, and inhibited the antigen-presenting function of the macrophage line 1G18-LA in an assay system with the ovalbumin-specific T cell hybridoma, 3DO-18.3. In addition, the antigen-presenting function of the A20 B cell line was inhibited in an assay with a sperm whale myoglobin (SpWMb)-specific T cell hybridoma (8.2.1d.H1a). Results with blocking antibodies suggest that this factor appears to be a unique cytokine.

Identification and characterization of a T cell growth inhibitory factor produced by K562 erythromyeloid cells

Cells of the human erythroleukemia cell line K562 constitutively secrete a factor that inhibits human T lymphocyte proliferation induced via CD3/Ti. The factor, termed K-TIF (K562-derived T cell inhibitory factor) is produced in either the presence or absence of fetal calf serum in cultures of K562 cells and can be precipitated by 70% NH4SO4. Gel filtration chromatography on Superose 12 resin by FPLC showed that the inhibitory factor has a molecular weight of approximately 30-35 kDa. A protein of this size, metabolically labeled with [35S]methionine, specifically bound human peripheral blood mononuclear cells. Chromatofocusing with Mono P by FPLC (pH gradient 7.2-5) indicates that the inhibitory factor has an isoelectric point of 6.0-6.4.

Properties of human pre- and post-implantation embryo-associated immunosuppressor factor(s)

Embryo-associated immunosuppressor factor (EASF), a factor detected by its suppressive property on the concanavalin A (ConA) stimulated lymphocyte proliferation assay, was purified from human embryo growth media of in vitro fertilized ova (pre-implantation source) and from pregnancy sera (post-implantation source) as 3 fractions, CM-1, CM-3 and CM-6, the immunosuppressive properties of which were studied. The results show that, (i) the 3 fractions of EASF from both sources suppressed ConA- and pokeweed mitogen (PWM)-induced lymphocyte proliferation, suggesting that they have suppressive effects on both T and B cells; (ii) all 3 EASFs were suppressive when added at the early phase of ConA-supplemented cultures; (iii) CM-1 of both sources were suppressive when added to PWM-supplemented cultures between 24 and 48 h; and (iv) CM-6 of both sources showed an irreversible immunosuppressive effect on PWM-induced lymphocyte proliferation, demonstrating that some similarities exist in the immunosuppressive property of EASF from the 2 sources. On the other hand, (i) CM-6 of pre- and post-implantation EASF were immunosuppressive when added to the PWM-supplemented cultures at 24-48 h and 0-16 h, respectively; and (ii) the CM-6 fraction of pregnancy sera, but not the CM-6 fraction of embryo growth media, possessed an irreversible immunosuppressive effect on ConA-supplemented cultures. This active process by which EASF affects T cell and B cell functions directly may be one of several responses by which the maternal immune response against the fetus is prevented.

Suppression of mixed lymphocyte reactivity by murine bone-marrow-derived suppressor factor--inhibition of proliferation due to a deficit in IL-2 production

Murine bone marrow natural suppressor cells constitutively produce a soluble factor, BDSF, that suppresses murine Ab responses in vitro. BDSF is recovered in supernatants of cultured BM cells and resides in an MW range between 1-10 kD. We now demonstrate that BDSF suppresses proliferation in the mixed lymphocyte reaction (MLR). In order to elucidate the potential mechanism of action, BDSF was tested for the ability to interfere with IL-2-mediated T cell proliferation. BDSF was not able to inhibit IL-2-driven proliferation of the cell lines CTLL-2 and HT-2. However, examination of MLR culture supernatants revealed that suppression of proliferation by BDSF was associated with decreased levels of IL-2 production. Furthermore, responsiveness of BDSF-treated cultures could be reconstituted by adding exogenous IL-2, at the time of plating. The results suggest that hyporesponsiveness in the presence of BDSF is due to a deficit in IL-2 production, preventing expansion of Ag-stimulated cells.

Immunoactive products of human placenta. IV. Immunoregulatory factors obtained from cultures of human placenta inhibit in vivo local and systemic allogeneic and graft versus-host reactions in mice

We have shown in previous reports that human placental supernatants (HPS) display a variety of immunoregulatory properties in vitro. Here we report that these supernatants are able to suppress the ability of murine splenocytes to evoke an allogeneic reaction in the popliteal lymph node (PLN) assay, as well as their capacity to induce both local (popliteal lymph node swelling) as well as systemic chronic or lethal graft-versus-host reactions. Those results are discussed in the light of the potential use of HPS in the control of transplantation immune reactions as well as in the regulation of xenogeneic pregnancies, as the murine system that was used proved that the material exerted an effect across a species barrier.

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 mM) 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.

Hybridoma-derived human suppressor factors: inhibition of growth of tumor cell lines and effect on cytotoxic cells

With the objective of developing human T-T cell hybrids producing B-cell growth factor, we fused concanavalin A-activated T lymphocytes with cells of the Jurkat T cell line. The hybrids were selected on the basis of their ability to form colonies in soft agar, whereas the parent Jurkat T cell line did not. T-T cell hybrids were HLA-typed, screened by functional tests, and recloned by limiting dilution. In addition to obtaining B-cell growth factor-producing hybrids, we also obtained certain other T-T cell hybrids (as determined by HLA-typing) producing suppressor factors inhibiting proliferative responses and antibody production by human lymphocytes. Subsequently, a suppressor factor with similar inhibitory properties was identified in supernatants of the Jurkat T cell line. However, the Jurkat factor exhibited different biochemical and functional properties than the hybridoma-derived suppressor factors. Using two-parameter cell cycle analysis and the metachromatic fluorochrome acridine orange, we found that the hybridoma-derived 160 and 169 suppressor factors arrested phytohemagglutinin-induced proliferative of peripheral blood mononuclear cells in the G0/G1 phase of the cell cycle, whereas the Jurkat suppressor factor arrested proliferation in the S phase. Incubation of peripheral blood mononuclear cells with the 160, 169, or Jurkat suppressor factors for 24 hr at 37 degrees C, followed by washing, did not alter their cell cycle progression (or RNA content) in response to stimulation with phytohemagglutinin. The hybridoma-derived 160 and 169 suppressor factors and the Jurkat factor inhibited the growth but not the viability of cells from the following human tumor cell lines: A673 sarcoma cell line, SK-LC-6 and SK-LC-14 lung cell lines, SB, Raji, and Daudi lymphoblastoid cell lines, and FARR malignant melanoma cell line. In contrast, it did not affect the growth of murine L1210 cells and FS-4 normal human diploid fibroblasts. The hybridoma-derived 160 suppressor factor was selected to investigate its effect on cell-mediated cytotoxicity. The 160 suppressor factor did not inhibit natural killer cytotoxicity or its augmentation by interferon alpha or interleukin 2 or the generation of lymphokine-activated killer cells. However, this factor partially inhibited the generation of specific T cell-mediated cytotoxicity.

CD4+ Leu-8+ T cell supernatant activity that inhibits Ig production

The subpopulation of CD4+ T cells that expresses the Leu-8 peripheral lymph node homing receptor suppresses PWM-stimulated Ig synthesis. To determine the mechanism of this suppression, the immunoregulatory activity of culture supernatants obtained from peripheral blood CD4+ Leu-8+ T cells cultured with anti-CD3 mAb and PMA (Leu-8+ supernatant) was determined. Leu-8+ supernatant suppressed PWM-stimulated Ig synthesis in cultures containing non-T cells and CD4+ Leu-8- T cells. In contrast, the supernatant from CD4+ Leu-8- T cells did not suppress Ig synthesis. The inhibitory activity of CD4+ Leu-8+ T cell supernatants could not be accounted for by a deficiency or excess of IL-2, IL-4, IFN-gamma, IL-6, or PGE2. In studies examining the effect of CD4+ Leu-8+ supernatant on T cells, the supernatant did not alter either mitogen-induced proliferation or the helper function of CD4+ Leu-8- T cells. In studies examining the effect of CD4+ Leu-8+ supernatant on B cells, the supernatant inhibited Staphylococcus aureus Cowan I strain-induced B cell Ig secretion but not B cell proliferation. The suppressor activity of Leu-8+ supernatant was eliminated by protease treatment and was eluted by HPLC in two main peaks, with molecular sizes of 44 and 12 kDa. In summary, these studies indicate that supernatants from activated CD4+ Leu-8+ T cells directly suppress B cell Ig production.

Analysis of immunoregulatory activity of a choriocarcinoma-derived factor: specific suppression of proliferative process of cell-mediated immune responses including LAK cell generation

The immunosuppressive activity of a JEG-3 choriocarcinoma-derived factor in human IL-2-dependent T cell responses has been studied, together with its effect on IL-2-independent T cell responses induced by 10 nM TPA. The factor completely suppressed the IL-2-independent proliferative responses of T cells but failed to suppress antigenic expression of activation-associated CD 25 molecules. Further studies examined the effect of the factor on LAK cell generation induced by rIL-2. Recombinant IL-2-induced LAK cell proliferation was observed on Day 4 and Day 5, but not on Day 3. As the factor suppressed the responses of LAK cell proliferation, we tested whether it blocked the generation of Day 3, Day 4 and Day 5 LAK cells. The addition of the factor failed to suppress the generation of Day 3 LAK cells, while it partially suppressed the lytic activity of Day 4 LAK cells and completely suppressed that of Day 5 LAK cells. The data suggest the presence of a heterogeneous pattern for LAK cell generation; one without proliferation, but the other requiring proliferation, to acquire killer activity. Taken together with the evidence that the factor failed to suppress NK activity, the choriocarcinoma-derived factor suppressed only the proliferative events of immunocompetent cells, but inhibited neither their activation nor the differentiation events. This immunosuppressive factor might be involved in the prevention of host-mediated rejection of choriocarcinoma cells or maternal rejection of the fetus.

RRR-alpha-tocopheryl succinate enhances T cell mitogen-induced proliferation and reduces suppressor activity in spleen cells derived from AEV-infected chickens

RRR-alpha-tocopheryl succinate was demonstrated to be a potent in vitro modulator of retrovirus-induced immune abnormalities. Spleen cells from avian erythroblastosis virus (AEV)-infected chickens exhibit suppressed T cell mitogen-induced proliferative responses and elevated levels of suppressor T cell activity. In vitro addition of RRR-alpha-tocopheryl succinate resulted in amelioration of these abnormalities. Antioxidants including Trolox (a water-soluble analogue of RRR-alpha-tocopherol with antioxidant properties) and a combination of butylated hydroxyanisole and butylated hydroxytoluene were able to restore immune functions to levels similar to those achieved with RRR-alpha-tocopheryl succinate treatment. Aspirin, an irreversible inhibitor of cyclooxygenase activity, was capable of ameliorating some of the AEV-induced immune dysfunctions. These studies suggest a role for the antioxidant functions of RRR-alpha-tocopheryl succinate in modulation of retrovirus-induced immune abnormalities.

Suppression of interleukin-2 production and activity by factor(s) released by peripheral blood mononuclear cells during papillomavirus infections

Supernatant fluids from cultured peripheral blood mononuclear cells (PBMC) obtained from patients with extensive papillomavirus infections such as condyloma acuminatum (CA) and epidermodysplasia verruciformis (EV) depressed the proliferative responses of T cells to phytohemagglutinin-P (PHA-P) and the production of interleukin-2 (IL-2) from those preparations. Fluids from the same cultures also inhibited the mitogenic activity of IL-2 on CTLL-2 cells as IL-2-dependent target cells. These soluble suppressor factors (SSF) from PBMC were present in significantly higher concentrations in fluids from cultured PBMC from patients in comparison to healthy controls. A soluble suppressor factor was characterized also from cultured rabbit PBMC after the rabbits had been infected with Shope papillomaviruses. This suppressor factor likewise inhibited IL-2 production and IL-2 activity.

Comparison of transforming growth factor beta and a human tumour-derived suppressor factor

Serum-free supernatants from the human melanoma cell line G361 contain a factor that can potently suppress the generation of tumouricidal lymphokine-activated killer (LAK) cells in response to interleukin-2. To characterise the suppressive factor of tumour origin we performed a number of physicochemical and functional comparisons with another immunosuppressive protein, transforming growth factor beta (TGF beta). The bioactivity of tumour-derived suppressor factor (TDSF), assayed by suppression of LAK cell generation, was unaffected by a reducing agent but lost when denatured with a chaotropic agent. In contrast, TGF beta was inactivated by reduction but not denaturation. TDSF lost bioactivity in conditions of pH less than 4, whereas TGF beta showed no loss of activity. The TDSF moiety has an estimated pI of 4.3 and a molecular mass of 69-87 kDa. This differs from published values of pI 9.5, and 25 kDa molecular mass for TGF beta. Anti-TGF beta antiserum reversed the effects of TGF beta but did not affect the suppression of LAK cell generation caused by TDSF. These findings provide compelling evidence that the TDSF moiety is not TGF beta, and may be a novel immunoregulatory cytokine.

Immune suppression induced by Actinobacillus actinomycetemcomitans: effects on immunoglobulin production by human B cells

Actinobacillus actinomycetemcomitans produces an immunosuppressive factor (ISF) which has been shown to suppress mitogen- and antigen-induced DNA, RNA, and protein synthesis in human T lymphocytes. In this study, we examined purified A. actinomycetemcomitans ISF for its ability to alter immunoglobulin production by human B cells. The ISF caused a dose-dependent inhibition of pokeweed mitogen (PWM)-induced immunoglobulin G (IgG) and IgM production. Preexposure to ISF was not required to achieve maximal inhibition of immunoglobulin synthesis, as previously observed for its effect on T-cell activation. Nevertheless, the ISF appeared to act by irreversibly affecting the early stages of cell activation. While PWM-induced immunoglobulin production is under the influence of T-regulatory circuits, it appears that the ISF interacts directly with B cells. First, ISF failed to alter either the synthesis of interleukin-2 (IL-2) or the expression of IL-2 receptors on T cells. Second, experiments in which individual purified populations of cells were exposed to ISF, washed, and placed back into tissue culture indicated that when all cells (i.e., T cells, B cells, and monocytes) were exposed to ISF, significant suppression was observed. However, when only one cell population was treated with ISF, suppression of both IgG and IgM synthesis was observed only when the B-cell-enriched population was exposed to ISF. These results in conjunction with our earlier findings suggest that the ISF functions via the activation of a regulatory subpopulation of B lymphocytes, which in turn either directly or indirectly (via suppressor T cells) downregulate both B- and T-cell responsiveness. Furthermore, it is hypothesized that patients who harbor A. actinomycetemcomitans could suffer from local or systemic immune suppression. This suppression may enhance the pathogenicity of A. actinomycetemcomitans itself or that of some other opportunistic organism.

Uromodulin: a specific inhibitor of IL-1-initiated human T cell colony formation

Uromodulin, an 85 kDa naturally occurring immunosuppressant, was found to selectively and specifically inhibit the ability of IL-1 to induce colony responses by highly enriched suspensions of PHA-stimulated T lymphocytes. Dilutions of 1 x 10(-8) M completely blocked the colony growth of T lymphocytes cultured with 50 U/ml IL-1; 1 x 10(-9) M dilutions reduced scores by 83%. By contrast, uromodulin did not inhibit the responses of unseparated mononuclear cells, isolated T lymphocytes cultured with irradiated adherent cells, or stimulated T cells whose growth was initiated by either IL-2 or a soluble factor derived from Raji cells.

Changes in the lymphocyte response and in the production of IgE regulatory factors in relation to the course of immunotherapy

In previous studies we described isotype-specific but antigen non-restricted soluble factors produced by human lymphocytes. In subsequent studies we demonstrated changes in the production of these factors during the course of immunotherapy (IT) by testing them on lymphocytes from normal healthy controls and allergic patients. Through these studies we confirmed that there exists a difference in lymphocytes' responsiveness to soluble factors between both groups. In this report, we investigated the effect of soluble factors on lymphocytes from allergic patients without IT (LyG1) and with IT longer than 2 years (LyG4). Peripheral blood samples were collected from healthy controls and allergic patients at different time periods of IT, and bidirectional mixed cultures were performed with the isolated lymphocytes. Supernatants obtained from chromatography were tested on lymphocytes of allergic patients without IT and with IT greater than 2 years to determine their effect on IgE synthesis. Long periods of IT reduce the production of Suppressor Factors (SF) by allergic patients as well as their responsiveness. Long periods of IT increase the responsiveness of lymphocytes of allergic patients to Enhancing Factors (EF) and decrease EF production. We propose a "receptor hypothesis" to explain these events.

Necessity for interaction between adherent and non-adherent rat spleen cells for the generation of a suppressor factor of NK activation

Whole rat spleen cell populations in culture release constitutively a factor which suppresses the NK activation in response to interleukin-2. Culture supernatants derived from adherent (AD) and non-adherent (NAD) cell preparations obtained from rat spleen cells, did not have a suppressor activity comparable to that present in the culture supernatants of whole spleen cells. When reconstituted mixtures of the AD and NAD cells were cultured, high levels of suppressor activity could again be demonstrated in the culture supernatants, indicating that some kind of co-operation between AD and NAD cells was needed for efficient generation of the suppressor. Non-suppressive culture supernatants derived from NAD cells became suppressive when AD cells were cultured in them. On the other hand, relatively little suppressor activity was generated when NAD cells were cultured in non-suppressive culture supernatants from AD cells. Our results seem to indicate that NAD cells may release some agent which is not itself a suppressor but either (a) induces the generation of suppressor activity from AD cells, or (b) is "processed" into a suppressor agent by AD cells.

Suppression and contrasuppression in athymic nude mice: nude mice produce the antigen-specific component of a T suppressor factor that inhibits the late 24-hr phase of DTH but do not generate suppression nor contrasuppression of the early initiating phase of DTH

Previous studies demonstrated that the initiation of murine delayed-type hypersensitivity (DTH), as exemplified by contact sensitivity induced by picryl chloride (PCI) or oxazolone (OX), is due to antigen-specific, T cell-derived, DTH-initiating factors called, respectively, PCl-F and OX-F. These factors participate in the extravascular recruitment of CD4+, Th-1, DTH effector T cells in the elicitation of DTH. Related factors also participate, together with nonantigen binding factors derived from CD8+ T cells, to constitute an antigen-specific T cell-derived suppressor factor (TsF) that can down regulate the ability of Th-1 effector T cells to mediate DTH. Since it was shown recently that athymic nude mice can make antigen-specific, DTH-initiating T cell factors, the current study tested whether nude mice also could produce the antigen-specific component of the TsF that suppresses DTH effector T cells. We found that antigen-specific factors from nu/nu mice could complement the nonantigen-binding subfactor produced in normal mice to constitute the whole antigen-specific TsF. Additional studies showed that the successful adoptive cell transfer of DTH-initiating T cell activity from nude mice into normal mice required cyclophosphamide treatment of the recipient. In contrast, transfer of DTH-initiating cell activity from nu/+ mice did not require cyclophosphamide treatment of the recipients. We hypothesized that nude mice lacked contrasuppressor cells. Although nude mice were able to manifest the early, initiating phase of DTH, we found that there was no suppression of early DTH-initiating T cells in nude mice, compared to nu/+. Therefore the production of DTH-initiating T cell factor could be boosted in nude mice. The ability to boost DTH-initiating cells in nude mice should facilitate the development of cell lines and clones with the ability to initiate DTH.

Effect of immunotherapy on the production of IgE regulatory soluble factors. The response of normal lymphocytes

IgE synthesis is controlled not only by antigen-specific mechanism but also by other factors which selectively affect the IgE isotype. Several groups demonstrated that factors released by lymphocytes were involved in this regulation. Our previous investigations were also directed in this field. Immunotherapy improves clinical symptoms in allergic respiratory diseases and produces cellular and humoral changes that affect IgE production. So we decided to investigate if immunotherapy had any influence in the production of soluble factors. Bidirectional mixed cultures were performed with lymphocytes from healthy controls and allergic patients with different time periods of IT, and the supernatants obtained from chromatography were tested to determine their effect on IgE synthesis of normal lymphocytes. IT time periods exerted influence on the production of enhancing factors. Suppressor factors derived from allergic patients had no effect on IgE synthesis of normal lymphocytes.

Lymphocyte response to IgE regulatory factors in allergic patients during the course of immunotherapy

In previous studies we demonstrated isotype-specific but antigen non-restricted soluble factors produced by human lymphocytes of allergic patients and normal controls. In a subsequent investigation we isolated these soluble factors from allergic patients classified in various groups according to their immunotherapy (IT) time periods and from controls, and we tested them on lymphocytes of healthy controls. Then, we decided to amplify the study to include the effects on allergic patients' lymphocytes. Bidirectional mixed cultures were grown with lymphocytes from healthy controls and allergic patients with different IT time periods and supernatants obtained from chromatography were tested on lymphocytes of twenty-one allergic patients. None of the enhancing factors showed statistical significant effects on IgE synthesis of allergic lymphocytes. There clearly existed a change in the production of suppressor factors during the course of IT, but the long time period of IT did not increase this production.

A study of the action of immunosuppressive factors from tumour cells on lymphocytes and macrophages in vitro and on the graft-versus-host reaction in mice

The effect of immunosuppressive factors from P815, B16, and EL-4 mouse tumour cells on the permeability of the lymphocyte membrane to RNAase (the 'membrane-toxic effect'), on the generation of tumour necrosis factor (TNF) by mouse peritoneal macrophages, and on the survival rate of mice undergoing a graft-versus-host reaction was investigated. The immunosuppressive factors were found to have a membrane-toxic effect on mouse lymphocytes. Moreover, in the presence of pancreatic RNAase there was a dose-dependent increase in the inhibitory effect of the immunosuppressive factors on concanavalin-A-induced spleen cell proliferation. The immunosuppressive factors reduced the production of muramyl-dipeptide-induced TNF by mouse peritoneal macrophages. When immunosuppressive factors from P815 cells were administered to F1 hybrid mice (CBA x C57B1/6), there was a marked decrease in the intensity of the graft-versus-host reaction induced by injection of C57B1/6 parent mouse spleen cells to the F1 hybrids, and the life span of these mice was increased. It is suggested that the membrane-toxic effect may be one mechanism by which cells in the immune system are inhibited by immunosuppressive factors from tumour cells.

Enhancement of suppressor T cell activity by lymphocyte promoting factor of Bordetella pertussis

Lymphocyte promoting factor (LPF), a bioproduct of Bordetella pertussis shown previously to exert immunosuppressive effects, was examined for its effect on Concanavalin A (Con A) induced T lymphocyte suppressor activity by human lymphocytes. Suppressor cells (5 x 10(4) cells/well) first generated with Con A (10 micrograms/ml) for 24h were co-cultured with responder cells (5 x 10(4) cells/well) for another 72h in the presence of Con A (2.5, 5, 20 micrograms/ml). In this culture condition, LPF (20 micrograms) and/or histamine 10(-5) M or 10(-6) M/well were added for comparison. The suppressor activity was assessed by the reduction of the uptake of radioactivity of [3H] thymidine compared to that of Con A alone. Lymphocytes treated with LPF exhibited increase of suppression by 22 to 41%, while LPF and histamine (10(-5) M) together further increased the suppression by 35 to 63% compared to controls. Serial studies on cell population in the culture indicated OKT8(+) cells proliferated after day 6 in culture. These results indicated LPF exerts selective enhancement of T cell suppressor activity by 72h in culture, prior to cell expansion, and that activity can be further strengthened by sensitizing cells to histamine.

Regulation of in vivo expression of Fc receptors for IgE (Fc epsilon R) on murine lymphocytes. II. Induction of Fc epsilon R and its inhibition in mice immunized with antigen

The induction of Fc receptors for IgE (Fc epsilon R) and its regulation were studied in BALB/c, SJL/J, and nude mice by a flow cytometric assay with the use of homologous monomeric IgE. Immunization of BALB/c mice with alum-absorbed antigen induced a remarkable increase in the expression of Fc epsilon R on spleen cells, whereas no enhancement of the Fc epsilon R expression was observed in SJL/J and nude mice after immunization. This increase was correlated with the elevation of serum IgE levels. However, the IgG antibody response, which is inducible even in SJL/J mice, was not associated with the induction of Fc epsilon R. The enhanced expression of Fc epsilon R in BALB/c mice observed in the primary or secondary IgE antibody response was detected in B cells with B220, surface IgM, and IgD, but not in T cells. The induction of Fc epsilon R in immunized BALB/c mice was inhibited by suppressive factor of allergy isolated from ascites fluids of SJL/J mice inoculated with complete Freund's adjuvant. In addition, both cyclophosphamide and prednisolone had an inhibitory effect on the induction of Fc epsilon R. These results suggest that the Fc epsilon R induction is inhibited not only by suppressive factor of allergy, which is effective in inhibiting the IgE antibody response selectively, but also by some immunosuppressive agents which are capable of suppressing all isotypes.

Inhibition of interleukin 1 (IL-1)-elicited leukocytosis and LPS-induced fever by soluble immune response suppressor (SIRS)

IL-1-induced leukocytosis was inhibited or blocked in a dose-dependent manner by SIRS, an antigen-nonspecific suppressive lymphokine, when administered intravenously or per os to CBA mice. Timing experiments showed that SIRS effectively inhibited the leukocytosis when administered within 30 minutes of the IL-1. An antipyrogenic activity of SIRS was observed in rabbits injected intravenously with LPS. SIRS, given intravenously in one or two doses, markedly reduced LPS-induced fever. SIRS (2000 units) was a more effective antipyretic agent than aspirin (3 mg/kg body weight, intramuscularly). The results suggest that SIRS may be a potential drug for use in IL-1-mediated disorders.

Inhibition of interleukin-2 production by tumor cell products and by CKS-17, a synthetic retroviral envelope peptide

Tumor cells of all types and species tested have been found to produce, in culture, substances that depress the expression of cell-mediated immunity, in the form of delayed-type hypersensitivity reactions in mouse feet. The factors responsible appear related immunologically to the retroviral envelope protein p15E. We have measured the effects of tumor products and conjugates of a p15E-related peptide, CKS-17, on interleukin-2 (IL-2) production by cultured, mitogen-stimulated EL4 cells; in this system IL-2 production is independent of IL-1. Supernatants of cultures of mouse, human and guinea-pig tumor cells inhibited IL-2 production in a dose-dependent fashion. CKS-17 conjugates, but not control conjugates, also inhibited IL-2 production. Responses to IL-2 of the CTLL line used were less inhibited by tumor products and very slightly inhibited by CKS-17 conjugates. IL-2 receptor density, assayed by flow cytometry, was not inhibited. IL-2 production was inhibited whether the tumor products or CKS-17 conjugates were added early or late in the course of culture of stimulated EL4 cells. Inhibition by CKS-17 conjugates was selective in that IL-2 production was inhibited to a greater degree than general protein synthesis in EL4 cells, and general protein synthesis by fibroblasts was unaffected. Measurement of IL-2 mRNA suggested that inhibition of IL-2 production was mediated post-transcriptionally. Fractionation of six different tumor supernatants on Sephacryl S-300 revealed a single peak of activity with an apparent molecular mass of 18 kDa. Antibodies to CKS-17 conjugates neutralized the inhibitory effect of native tumor products on IL-2 production. Inhibition of IL-2 production, by factors related to p15E, provides a strategically effective means of subversion of host defenses by tumors, and abrogation of this inhibition by means of antibodies might promote host resistance to tumor growth.

Natural killer and lymphokine-activated killer cell activities from human marrow precursors. II. The effects of IL-3 and IL-4

Both IL-3 and IL-4 have multi-CSF activity on early marrow progenitors. We have examined the effect of IL-3 and IL-4 on the differentiation of NK cells from their marrow-derived precursors and have further examined the interactions of these cytokines with IL-2 and IL-1. We tested marrow which had been depleted of mature cells and of E rosette-positive cells (including NK cells) by treatment with soybean lectin and SRBC (SBA-E-BM). The cytolytic activities of the SBA-E-BM samples were tested in 51Cr-release assays after 7 days of liquid culture. K562 targets were used as a measure of NK activity and NK-resistant Daudi targets were used to measure lymphokine-activated killer (LAK) cell activity. Neither NK nor LAK activity was detectable in marrow cultured in medium without cytokines, or in medium containing IL-3, or IL-4 alone. Both of these cytokines were shown to be inhibitory to the IL-2-induced generation of NK and LAK activity from SBA-E-BM at concentrations as low as 1 U/ml. The inhibitory activity of both IL-3 and IL-4 was found to occur early in the marrow cultures, with little or no inhibitory effects seen if added 48 h after IL-2. IL-3 appeared to be specifically inhibitory to NK cell precursors since addition of IL-3 to cultures of PBMC did not inhibit IL-2-induced lytic activities. In contrast, IL-4 was equally inhibitory to the activation of marrow and peripheral blood NK cells by IL-2. Mixing experiments demonstrated that the reduced lytic activity in IL-3 or IL-4 containing marrow cultures were not due to suppression of the NK effectors, nor could marrow cultured in IL-3 or IL-4 serve as targets for IL-2-activated NK cells. Phenotype analysis of the lymphoid cells in marrow cultures containing IL-2 combined with IL-3 or IL-4 revealed fewer cells expressing Leu-11 (CD16), or Leu-19 (CD56) and fewer CD16, CD56 coexpressing cells compared with marrow cultured in medium containing IL-2 alone. The inhibitory activity of IL-4, but not IL-3, could be partially reversed if IL-1 was added to the cultures, suggesting that IL-1 and IL-4 have opposing activities on NK cells responsiveness to IL-2. These interactions between cytokines might be important in the regulation of NK cell differentiation and on the functional activity of mature NK cells.

Regulation of autoimmunity in normal and rheumatoid individuals by bone marrow-derived natural suppressor cells and their suppressor factor: BDSF

Natural suppressor activity is defined as the ability of unstimulated effector cells to suppress responses of lymphoid cells to antigenic and mitogenic stimuli in an MHC unrestricted manner. We have described natural suppressor cells in bone marrow exerting such a function through a suppressor factor termed BDSF. In this report we demonstrate the ability of BDSF to regulate the in vitro EBV- and PWM-induced production of both IgM and IgM rheumatoid factor antibodies of lymphoid cells obtained from normal individuals and those with rheumatoid arthritis. BDSF therefore may play a role in the normal BM microenvironment suppressing primary IgM antibody responses. Since autoantibody responses are similarly suppressed, functional alteration or lack of BDSF may be responsible for the emergence of autoantibody-producing cells in bone marrow during certain autoimmune states.

The induction of T-suppressor cells with a soluble extract of Candida albicans

We have previously shown that whole cell preparations of Candida albicans are capable of inducing immunosuppressive B-cell activity both in vivo and in vitro. In an effort to characterize the components of the yeast which manifest this immunomodulatory activity, we have successfully generated a soluble extract with dithiothreitol which exerts immunosuppressive activity. This extract is capable of inducing antigen-nonspecific suppressor cells which inhibit the antibody response of normal cells in coculture. Both primary and secondary antibody responses are suppressed by these cells. Our results also show that the suppressor cell population is a member of the L3T4+ Ly-1+ Lyt-2- T-cell lineage. These results provide evidence that Candida extracts may possess clinically significant immunomodulatory activities.

Human immunosuppressive factors produced by T cell hybridoma

A Human OKT8-positive T cell hybridoma was established by using concanavalin A (ConA)-activated peripheral blood mononuclear cells (PBMC) fused with CEM-AGR cells. A culture supernatant of the established T cell hybridoma HI4.2D6 inhibited the mitogen induced proliferation of peripheral blood mononuclear cells (PBMC). It inhibited IL-1-, IL-2, or IL-3-dependent proliferation of each factor-dependent mouse cell lines. While the inhibitory activity of IL-1-induced proliferation was stable, that of IL-2- and IL-3-induced proliferation was abrogated within a week at 4 degrees C. Inhibition of IL-2-dependent growth was also observed using human IL-2-dependent cells, but the growth of other factor-independent human hematopoietic cell lines was not affected at all. By gel filtration, the activity inhibiting IL-2- or IL-3-dependent proliferation was found in the fractions with approximate molecular weight of 18,000 and 100,000.

Analysis of site of action of a choriocarcinoma-derived immunoregulatory factor on IL-2-mediated T cell responses

We have investigated the functional ability of a choriocarcinoma-cell-derived factor to block human T cell responses and the factor's immunoregulatory site of action on the T cell signal transduction pathway. The factor completely suppressed human T cell responses activated by phorbol ester and calcium ionophore, reagents which strongly stimulate IL-2-mediated T cell responses. It failed to inhibit CD 25 expression and IL-2 production by T cell blasts in the T cell activation phase, but completely blocked recombinant IL-2-induced proliferation of T cell blasts in the T cell proliferation phase. Absorption experiments with the factor and Con A-induced T cell blasts as well as [125I]IL-2 binding experiments with T cell blasts revealed that the factor acted on the physiological events occurring after IL-2-mediated stimulation of IL-2 receptor complexes, demonstrating no interaction of the factor with either IL-2 molecules or IL-2 receptor complexes. Moreover, it suppressed murine IL-2 dependent T cell line proliferation, suggesting the presence of common pathways in human and murine T cell proliferation. The biological and immunological significance of the factor during pregnancy and in the immunosuppressed tumor-bearing hosts are discussed.

Human suppressor factors constitutively produced by T-T cell hybridomas: functional and biochemical characterization

We have recently developed a new method (Hybridoma 6:589, 1987) for the generation of human T-T cell hybrids. This method is based on a new selection procedure that involves cloning the hybrids in soft agar, screening by HLA-typing or appropriate functional tests and recloning by limiting dilution. T-T cell hybrids were separated from the parent line on the basis of their ability to form colonies in soft agar, whereas the parent lymphoblastoid T cell lines did not. HAT medium was not used in our selection procedure. Using this method, we have succeeded in developing human T-T cell hybrids (as determined by HLA-typing) constitutively producing B cell growth factor (BCGF) (Hybridoma 6:589, 1987) or suppressor factors. These hybrids were obtained by fusing MLC or Con A T cell blasts with cells from the Molt 4 or Jurkat lymphoblastoid T cell lines. T-T cell hybridomas, derived by fusing Con A-stimulated lymphocytes with cells from the Jurkat T cell line, produced suppressor factors inhibiting: (1) proliferative response in vitro of human peripheral blood mononuclear leukocytes to mitogens and to allogeneic cells in mixed lymphocyte culture; and (2) immunoglobulin synthesis and secretion by mononuclear leukocytes in the PWM-induced differentiation system in vitro. A suppressor factor with these inhibitory properties was also identified in supernatants of the Jurkat T cell line. These suppressor factors were ammonium sulphate precipitable, pH 2 labile, non-dialyzable and they were inactivated by treatment at 56 degrees C for 30 minutes. They exhibited a molecular weight in the range of 50,000-70,000, as determined by gel filtration, and were not gamma or alpha interferon or lymphotoxin/TNF. They did not lyse human lymphoblastoid tumor cell lines nor did they affect the viability and cell numbers of human mononuclear cells even after prolonged incubation (88 hr). They appeared to be cytostatic rather than cytotoxic molecules. The Jurkat suppressor factor is different from those produced by the hybrids on the basis of: (a) different isoelectric points; and (b) the ability of the Jurkat factor to arrest proliferation to PHA of human mononuclear cells in the S phase, whereas the 160 and 169 factors arrest proliferation at the G1 phase of the cell cycle. Certain of these suppressor factors (produced by the hybrids 153, 160, 170, and the Jurkat T cell line) also inhibited proliferative responses of mouse lymphocytes in vitro. In contrast, suppressor factors produced by the 169 and 77 hybrids did not inhibit any murine responses.

Suppression of polyclonal B cell proliferation mediated by supernatants from human myeloma bone marrow cell cultures

For functional characterization and semi-quantitative estimation of soluble regulator factors influencing polyclonal B cell proliferation and differentiation, we established two assays. One of the assays measures enhancement or inhibition of proliferation from purified human spleen B lymphocytes, and the other one the effect of soluble factors on CESS-cell differentiation. We found no difference concerning regulator factors for B cell differentiation between bone marrow cell culture supernatants from multiple myeloma (MM) patients and from controls, whereas significantly higher suppressor activity on polyclonal B cell proliferation could be detected in the former group of supernatants. The extent of such determined suppressor activity in vitro correlated with the amount of polyclonal serum IgM of the corresponding patients. These results indicate that one or several soluble suppressor factors may be involved in immunoregulatory mechanisms responsible for the humoral immunodeficiency observed in MM patients.

Isolation and characterization of a T-suppressor factor specific for the lupus-associated autoantigen RNP-Sm

We have previously described a monoclonal antibody, B16G, which has been found to be specific for T-cell derived suppressor factors (TsF). B16G has been shown to react with T-suppressor cells, TsF in the spleen of normal or tumor-bearing mice, the TsF produced by tumour-specific, or hapten-specific T-cell hybridomas, and with polyclonal whole human TsF isolated from tonsillar tissue. This pan-reactivity inherent to the B16G antibody suggests that it recognizes some common, shared epitope of the TsF molecule. In this study, we have used B16G as a probe to isolate a TsF-producing T-cell hybridoma, S-50, from CBA mice (H-2k) that is specific for the Lupus-associated antigen, RNP-Sm. The TsF bound specifically to RNP-Sm and inhibited the production of anti-RNP-Sm antibody cell cultures from MRL-lpr mice. SDS-PAGE analysis of purified S-50 TsF revealed a B16G-reactive band with a molecular weight of 43 kd.

Blocking of lymphocyte surface binding sites for the soluble suppressor factor by protein-bound polysaccharide, PSK

The ability of protein-bound polysaccharide (PSK) to block the suppressive activity of soluble suppressor factor (SSF) was investigated. The suppressive activity of SSF derived from U-937 cells on phytohemagglutinin (PHA)-induced lymphocyte proliferative (LP) response was significantly reduced in the presence of PSK. The release of SSF was not inhibited by the treatment of U-937 cells with PSK. The suppressive activity of SSF on LP response to PHA was significantly decreased by the pretreatment of responder lymphocytes with PSK. Studies to determine lymphocyte receptor activity were performed. PSK competed with wheat germ agglutinin (WGA) which recognized the same receptor as SSF on the surface of the lymphocyte. Neither PSK nor serum competed with anti-CD4 monoclonal antibody. Thus, PSK may inhibit SSF-mediated suppression by competing for specific binding sites on the surface of responder lymphocytes.

Effect of phospholipase A2 inhibitors on mouse T lymphocytes. I. Phospholipase A2 inhibitors exert similar immunological activities as glycosylation inhibiting factor

Since our previous experiments suggested that glycosylation-inhibiting factor (GIF) is a phosphorylated derivative of a phospholipase inhibitory protein, we determined whether other well-known phospholipase inhibitors may have similar biological activities. The results showed that phospholipase A2 (PLA2) inhibitors, such as recombinant human lipocortin I and ONO-RS-082, could switch T cell hybridoma 12H5 cells from the formation of glycosylated IgE-binding factors (IgE-BF) to the formation of unglycosylated IgE-BF, whereas neomycin, a phospholipase C inhibitor, failed to affect the nature of IgE-BF formed by the cells. The minimum concentrations of lipocortin I and ONO-RS-082 required for switching the 12H5 cells to the formation of unglycosylated IgE-BF were comparable to or less than IC50 of the inhibitors for PLA2. The ability of partially purified GIF to switch the 12H5 cells to the formation of unglycosylated IgE-BF was markedly enhanced by treatment of the preparation with alkaline phosphatase. It was also found that lipocortin I and ONO-RS-082, but not neomycin, facilitated the generation of GIF-producing T cells. When spleen cells of ovalbumin (OVA)-primed BDF1 mice were stimulated with homologous antigen and the activated T cells were propagated by recombinant IL-2 in the presence of GIF, lipocortin I, or ONO-RS-082, T cells obtained in the cultures constitutively produced their own GIF. Antigenic stimulation of the T cells induced the formation of unglycosylated IgE-BF and GIF with an affinity for OVA.(ABSTRACT TRUNCATED AT 250 WORDS)

Delineation between T- and B-suppressive molecules from human seminal plasma: I. Partial characterization of a 180-kD protein inhibiting the B response to T-independent antigens

The immunosuppressive activity of fractionated human seminal plasma (SP) was investigated both in vitro (on human lymphocytes) and in vivo with Balb/c mice. SP fractionation by dialysis allowed delineation of the major suppressor factors according to their respective sizes--small (less than 12 kD) or large (greater than 12 kD). In vitro, large molecules were found to suppress the B-cell proliferative response induced by the Nocardia mitogen, while small molecules suppressed the T-cell proliferation induced by phytohemagglutinin. In vivo, immunosuppression was obtained almost exclusively on T-independent responses after preliminary treatments either with unfractionated SP or with large SP molecules. Both type 1 and type 2 T-independent responses were suppressed, as evidenced by plaque-forming cells and antibody assays. In contrast, no immunosuppression was found in vivo after treatment by small SP molecules. Purification of the B-cell suppressor by gel filtration and high-performance liquid chromatography, as well as by preparative isofocusing, indicated that its molecular weight was 180 kD and its isoelectric charge was between pH 5 and 6. This factor is a protein, as evidenced by pronase digestion. A possible role for this molecule in the protection of sperm against the female immune system is discussed.

Hydatidiform mole macromolecules inhibit interleukin-2-mediated murine lymphocyte proliferation in vitro

Macromolecules extracted from hydatidiform mole trophoblast inhibit mitogen-induced lymphocyte proliferation. To characterize the mechanism of this immunomodulation, we determined the effects of hydatidiform mole vesicle fluid (HMF) and tissue extracts (HME) on lymphokine function in vitro. Utilization of interleukin-1 (IL-1) and interleukin-2 (IL-2) were determined by using a lymphoma cell line (LBRM-33-1A5) and a murine T cell line (CTLL2), respectively. HMF suppressed (P less than .05) IL-2-dependent CTLL2 cell proliferation at 500 (36.4% of controls) and 50 (74.9% of controls) micrograms/ml. HME also suppressed CTLL2 proliferation (P less than .05) at 500 (46.0% of controls), 100 (67.2% of controls), 50 (71.5% of controls), and 10 (85.4% of controls) micrograms/culture ml. In contrast, HMF exhibited no effect on IL-1-stimulated LBRM-33-1A5 production of IL-2. However, 500 micrograms/ml of HME inhibited (P less than .05) IL-2 production (63.0% of controls) in the IL-1 utilization assay. This suppressive effect was probably due to a carry over of HME from the LBRM-33-1A5 culture to the target cells (CTLL2) used to measure IL-2 production. Molecular weight chromatography of an HME sample eluted an IL-2 inhibitor in a low molecular weight (35-50 kd) and high molecular weight (greater than 250 kd) fraction. These data suggest that one way in which macromolecules derived from hydatidiform mole could interfere with in vitro immunologic responses is by modulating interleukin-2 function.

The glioblastoma-derived T-cell suppressor factor/transforming growth factor beta 2 inhibits the generation of lymphokine-activated killer (LAK) cells

Glioblastoma cells release factors (G-TsF) which inhibit T-cell proliferation. The G-TsF is a novel member of the transforming growth factor beta family and is identical to TGF beta 2. The effect of G-TsF and TGF beta 2 on the induction of LAK cell activity was investigated by culturing PBL obtained from normal blood donors and brain tumour patients in varying concentrations (50-500 U/ml) of interleukin 2 (IL2) alone or IL2 plus G-TsF/TGF beta 2 (1 ng/ml) for 4 days. Subsequent cytolytic activity was measured against autologous and allogeneic glioblastoma targets, fresh NK-resistant melanoma cells and K562 cells. G-TsF/TGF beta 2 purified from glioblastoma cell cultures and TGF beta 2 isolated from porcine platelets significantly suppressed the generation of LAK cell activity, and the inhibitory effect could be reduced by higher concentrations of IL2. The suppressive effect of TGF beta 2 was most significant during the early stages of LAK cell generation and no inhibitory effect was seen when TGF beta 2 was added directly to the cytotoxicity assay. These results suggest that human glioblastomas may exert an inhibitory influence on the generation of an immune response in vivo through the production of G-TsF/TGF beta 2, and that the inhibitory effect may be modified by IL2.

Down-regulation of suppressor cell induction

A unidirectional cascade of cell interactions has been described previously that involves at least three distinct populations of suppressor T cells (Ts) that interact in appropriate succession to mediate suppression of delayed hypersensitivity responses to the 4-hydroxy-3-nitrophenylacetyl hapten (NP). The present work focuses on the potential bidirectional effects of one suppressor factor and how it can regulate the homeostatic mechanisms that maintain this suppressor cell cascade. Specifically, the effects of prior administration of mice with a transducer suppressor factor (TsF2) on the generation of NP-specific TS1 suppressor cells were evaluated. It was observed that the TSF2 given 2-14 days prior to administration of the tolerogen (NP-coupled splenic-adherent cells) interfered with the development of inducer TS1 suppressor cells. This down-regulation of suppressor cell induction is mediated by a population of cells that have the following characteristics: NP-binding, Lyt-1+2-, L3T4+, I-J+, and Vicia villosa (VV)-adherent T cells (for convenience these cells are termed anti-suppressor cells). Furthermore, there are genetic restrictions (both H-2 and IgH) between TSF2 and host which control the generation of anti-suppressor cells. The results suggest that TSF2 may have a role in homeostatic mechanisms that regulate the NP-specific suppressor cell cascade. The relationship of anti-suppressor and contra-suppressor cells is discussed.

Inhibition of lymphocyte-mediated antibacterial activity by human seminal plasma

Seminal plasma displays a suppressive function on many immunological responses. In light of recent findings on the antibacterial activity mediated by different lymphocyte subsets, we have assessed the effect of male inhibitory material (MIM) in this system. Results provide evidence that MIM pretreatment of peripheral blood lymphocytes (PBL) leads to a significant inhibition of antibacterial activity against Salmonella typhi and S. minnesota R345 (Rb). Both CD4+ and CD8+ cell-mediated activities are reduced by this treatment, while another defense mechanism (bacterial binding to PBL) is unaffected. Taken together, these results indicate a role for MIM in the depression of immune response and suggest that lymphocytes mediating antibacterial activity and bacterial cytoadherence are different entities.

The glioblastoma-derived T cell suppressor factor/transforming growth factor-beta 2 inhibits T cell growth without affecting the interaction of interleukin 2 with its receptor

Human glioblastoma cells secrete a peptide termed glioblastoma-derived T cell suppressor factor (G-TsF) which inhibits T cell activation. Recently, purification and cloning of G-TsF revealed that G-TsF is identical to transforming growth factor-beta 2. As shown here, G-TsF suppresses the growth of an ovalbumin-specific mouse T helper cell clone (OVA-7T) independently of the stimulus used being either (a) antigen in the presence of antigen-presenting cells, or (b) interleukin 2 (IL2) or (c) phorbol ester and calcium ionophore. Furthermore, in the presence of antibodies against IL2 receptors, G-TsF was able to suppress the residual proliferation still observed when OVA-7T were stimulated with phorbol ester/ionophore. G-TsF failed to inhibit the release of IL3 from OVA-7T activated with IL2. Taken together, the data provide evidence that G-TsF does not directly interfere with interactions of IL2 with its receptor but rather inhibits T cell activation by interfering with an as yet unidentified pathway used by both IL2 and phorbol ester/ionophore. When analyzing different monokines and lymphokines for its effect on G-TsF-induced suppression of T cell growth the only factor found to partially neutralize the effect of G-TsF was tumor necrosis factor-alpha.

Immunosuppression during viral oncogenesis. IV. Generation of soluble virus-induced immunologic suppressor molecules

We describe herein functional attributes and generation of immunologic suppressor activity elaborated in response to oncogenic virus infection. Malignant rabbit fibroma virus-induced immunologic suppressor factor (VISF) is a T cell product produced in peak quantities by spleen cells taken from infected rabbits 7 days after infection in vivo. Its production does not appear to require macrophage participation. VISF is highly labile, 3.5 to 12 kDa, and capable of suppressing both B and T lymphocytic responses. Indomethacin and the cyclic nucleotides cAMP and cGMP inhibit its generation. VISF activity is neither antigen nor species specific. It suppresses murine and leporine immune responses to antigens unrelated to the inducing virus. Comparable suppressor activity may be induced by infecting an apparently non-functional rabbit T lymphoma line, RL-5, with malignant rabbit fibroma virus. VISF is principally a suppressor-inducer factor: in vitro, lymphocytes exposed to VISF do not show decreased immunologic responsiveness until 4 days of culture. VISF induces T suppressor cell activity when normal spleen cells are exposed briefly to VISF. Thus, immunosuppressive consequences of malignant fibroma virus infection are partially mediated by a small, non-specific T cell-derived suppressor lymphokine with unique functional characteristics. Non-specific immunologic dysfunction that often attends virus infections may reflect the activity of such factors in humans as well.

Inhibition of lymphocyte responsiveness by a glial tumor cell-derived suppressive factor

The results of this study demonstrate the presence of suppressive factor(s) in the tissue culture supernatants of cloned and freshly explanted malignant glioma cells. Culture supernatants obtained from these glial cell lines were demonstrated to have potent suppressive activity as evidenced by their ability to inhibit the proliferative response of normal human peripheral blood lymphocytes induced by phytohemagglutinin and anti-OKT3 monoclonal antibodies. The results further demonstrate the existence of a dose-response relationship between these supernatants and inhibition of mitogen-induced lymphocyte activation. Maximum production of suppressive activity by glial tumor cells was dependent on: 1) the number of tumor cells seeded in culture, 2) whether fetal calf serum was present, and 3) the duration of culture. The production of the suppressive factor(s) was not inhibited by the addition of inhibitors of prostaglandin E synthesis. Experiments designed to determine at what time during lymphocyte activation the suppressive factor was most effective demonstrated that the culture supernatants must be added during the first 24 hours of culture to exhibit inhibitory properties. Finally, proliferation of both the T-helper and T-suppressor/cytotoxic subsets was equally well inhibited by the glial tumor cell culture supernatants.

Human seminal plasma suppresses lymphocyte responses in vitro in serum-free medium

The in vitro immunosuppressive properties of human seminal plasma have been re-investigated in serum-free medium in view of recent suggestions that the previously observed effects might be dependent on the presence of exogenous serum co-factors present in the culture media. The present studies reveal that low concentrations of seminal plasma can inhibit the ability of peripheral blood leukocytes to lyse K562 target cells in the absence of fetal calf or new-born calf serum. These inhibitory effects could be achieved by pre-incubating the effector cells in seminal plasma at 37 degrees C prior to use in the natural killer cell assay or by incorporating it into the assay system. Additional studies revealed that human seminal plasma could also inhibit the proliferative response of peripheral blood lymphocytes to phytohaemagglutinin in serum-free HB103 medium. These effects were most marked and consistent if the seminal plasma was present throughout the period of culture. Overall, these studies indicate that the previously reported suppressive effects of human seminal plasma in these systems cannot be entirely attributable to cytotoxic factors generated by exogenous serum components.

Suppressive substance produced by T cells from mice chronically infected with Trypanosoma cruzi. I. Preferential inhibition of the induction of delayed-type hypersensitivity

Culture supernatants of spleen cells from susceptible CBA mice chronically infected with Trypanosoma cruzi were able to inhibit the induction of delayed-type hypersensitivity (DTH) to a wide range of antigens as measured by 24-hr footpad swelling, bone marrow homing, and radioactivity accumulation assays. The suppressive activity, which was also present in the serum of these chronically infected mice, appears to be specific for the induction of DTH and had no effect on the 3-hr immediate-type hypersensitivity. It also failed to modify the expression of DTH in presensitized mice. Furthermore, it did not affect the synthesis in normal recipients of specific antibody or the induction of helper T cells or cytotoxic T cells. It also failed to induce DTH tolerance as recipient mice with markedly reduced DTH were able to develop a normal DTH response after secondary immunization. The suppressive activity was produced by an Ig- macrophage-depleted splenic T cell population, whose capacity to secrete the suppressive substance was completely abrogated by treatment in vitro with anti-L3T4 antibody and complement, but not with anti-Lyt-2 antibody and complement. These results therefore demonstrate that L3T4+ T cells from mice chronically infected with T. cruzi can produce substances which interfere with the induction of DTH. This finding may help to identify the differential antigenic stimulatory requirement for the activation of the various subsets of T cells.

Biological properties of suppressive E-receptor factor on lymphokine function

A potent immunosuppressive factor isolated from malignant ascites fluids showed serological cross-reactivity with the E-receptor of human peripheral blood T lymphocytes. Thus, this factor was named suppressive E-receptor (SER) factor. In this study, we examined the effect of this immunosuppressor, SER, on lymphokine functions of human mononuclear cells participating in polyclonal T cell activation. SER is active at nanomolar concentrations in vitro and the inhibitory effect of SER was most pronounced when added at the initiation of stimulation with phytohemagglutinin or anti-T3 antibody. Concomitant with the inhibition on PHA-induced DNA synthesis, lymphocytes that were treated with SER failed to progress beyond G1 phase of cell cycle. These growth-arrested cells did expire after 7 days of culture in vitro. This anti-proliferative effect of SER was more easily demonstrated with normal lymphoid cells in culture than transformed cells or fibroblast cells. SER effectively interfered with the lympho-proliferative properties of interleukin 2 (IL 2) on human peripheral blood mononuclear cells and an IL 2-dependent murine cytotoxic T cell line. However, excess quantities of exogenous IL 2, especially when added in conjunction with IL 1, were able to partially overcome the ability of SER to inhibit T cell proliferation. In contrast to the inhibition on DNA synthesis of human lymphoblasts, expression of IL 2 receptor was only minimally inhibited by SER during the first 24 h of culture (24% inhibition at 12 h and 34% inhibition at 24 h) but it was followed by full expression of IL 2 receptor by 48 h. Thus, SER merely reduced the rate of expression of IL 2 receptor and was not able to inhibit the transcription of new message from activated T lymphocytes. Taken together, these studies indicate that SER acts as a noncytolytic anti-proliferative factor on immune responses that are mediated by T cells. SER appears to act on a relatively late event during T cell activation, perhaps on some portion of the DNA replication pathway.

T cell suppressor factor from human glioblastoma cells is a 12.5-kd protein closely related to transforming growth factor-beta

T cell suppressor factor produced by human glioblastoma cells inhibits T cell proliferation in vitro and more specifically interferes with interleukin-2 (IL-2)-dependent T cell growth. Here we report the purification of this factor from conditioned medium of the human glioblastoma cell line 308. Amino-terminal sequence analysis of the 12.5-kd protein demonstrates that eight out of the first 20 amino acids are identical to human transforming growth factor-beta. Purified glioblastoma-derived T cell suppressor factor and transforming growth factor-beta from porcine platelets inhibit both IL-2-induced proliferation of ovalbumin-specific T helper cells and lectin-induced thymocyte proliferation with similar specific activities. If released by glioblastoma cells in vivo, the factor may contribute to impaired immunosurveillance and to the cellular immunodeficiency state detected in the patients.

T cell-derived factor alone or in combination with immunosuppressive drugs augments prolongation of allogeneic skin graft survival in mice receiving donor-specific transfusion

Limiting dilution cytotoxicity or proliferation assays were performed with cells taken from A/J mice pretransfused with BALB/c blood. The data obtained indicate that donor-specific transfusion decreased both the frequency of reactive precursors and their proliferative potential after activation. Additional studies implied that these changes may be associated with a serum- or cell-mediated antigen-specific suppressive mechanism. Further manipulations aimed at preferentially sparing or enhancing the activity of suppressor T cells prolonged skin graft survival in pretransfused mice and led to the presence of suppressor T cells in the spleen of such mice, which were active upon adoptive transfer. These manipulations included the use of pretransplant donor-specific transfusion, administration of ALS or cyclosporin-A, or the use of posttransplant injection with a T suppressor activating factor (SAF). Optimum graft survival was associated with combined treatment when using transfusion, SAF, and cyclosporin-A.

Interaction of a lymphokine with normal human macrophages results in release of a suppressor factor for mitogen-induced immunoglobulin synthesis

Normal human macrophage/monocyte cultures exposed to a suppressor factor produced by concanavalin A-activated T cells (T-SF), respond by releasing after 72 h a macrophage-derived suppressor factor (M phi-SF). The M phi-SF inhibits pokeweed mitogen-induced Ig synthesis but not T- or B-cell proliferation. Cycloheximide treatment of the macrophages does not interfere with generation of the M phi-SF, suggesting that de novo synthesis is not required. The factor is not preformed, for virgin macrophages do not contain M phi-SF, but it appears in macrophage cell lysates after exposure to T-SF. The production of the M phi-SF is inhibited by the presence of 2-mercaptoethanol. Both T-SF and M phi-SF are L-rhamnose inhibitable, and the M phi-SF appears to be released as a high molecular weight complex which is dissociable into a low molecular weight form of a size similar to the T-SF, i.e. approximately 20,000. The T-SF induced M phi-SF has some similarities with soluble immune response suppressor (SIRS) but differs from this factor in its lack of effect upon lymphocyte proliferation failure to induce conversion of T-SF to M phi-SF by treatment with H2O2.